test report #60...jan 18, 2016 · ewt charge cfm gpm vac esp db/wb test description entering water...
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Air-Conditioning, Heating, and Refrigeration Institute (AHRI) Low-GWP Alternative Refrigerants Evaluation Program (Low-GWP AREP)
TEST REPORT #60 System Drop-in Tests of DR-5A, DR-55, L41-2 and R-32 in Water-To-Air Heat Pump
Robert R. Brown Charles B. Obosu WaterFurnace International Inc. 9000 Conservation Way Fort Wayne IN, 46809 January 18, 2016 This report has been made available to the public as part of the author company’s participation in the AHRI’s Low-GWP AREP.
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Table 1- List of Tested Refrigerants:
Composition (Mass %) Supplier GWP
AR-4
Glide (°F)
At 50 °F
Flammability
Rating
DR-5A R-32/R-
1234yf(68.9/31.1)
Chemours 460 2.9 A2L
DR-55 R-32/R-1234yf/125
(67%/26%/7%)
Chemours 676 2.5 A2L
L41-2 R-32/R-1234ze(E)/R125
(68/28.5/3.5)
Honeywell 581 6.5 A2L
R-32 R-32 (100) Daiken 675 0.0 A2L
R410A
(Reference)
R-32/R-125 (50%/50%) Chemours 2100 0.2 A1
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Introduction:
A 3-Ton Water-to-Air, Dual Capacity Packaged Heat Pump Unit was used to perform drop-in and
systems optimization tests for four refrigerants. The four (4) refrigerants tested were DuPont
refrigerants DR-5A(R-32/R-1234yf (68.9%/31.1%)), DR-55(R-32/R1234yf/125 (67%/26%/7%)),
Daiken supplied R32 (100%) and Honeywell’s L-41-2(R-32/R-1234ze (E)/R125
(68%/28.5%/3.5%)). All four refrigerants were compared to the baseline R410A, on a soft
optimization basis using an adjustable txv. All tests were performed at WaterFurnace International
Inc., engineering systems laboratory at 9000 Conservation Way, Fort Wayne Indiana 46809. The
unit was tested per conditions defined in ISO/AHRI 13256-1 standard defined in Tables 2a
and 2b.
Table-2a: Test Conditions per ISO/AHRI 13256-1
ISO/AHRI ISO/AHRI ISO/AHRI
13256-1 13256-1 13256-1
WLHP GWHP GLHP
Cooling:
Entering Air –DB/WB °F 80.6/66.2 80.6/66.2 80.6/66.2
Full Load - Entering Water - ºF 86 59 77
Full load - Fluid Flow Rated - Full load Rated - Full load Rated - Full load
Part Load - Entering Water - ºF 86 59 68
Part load - Fluid Flow Rated - Part load Rated - Part load Rated - Part load
Heating:
Entering Air –DB/WB °F 68 68 68
Full Load - Entering Water - ºF 68 50 32
Full load - Fluid Flow Rated - Full load Rated - Full load Rated - Full load
Part Load - Entering Water - ºF 68 50 41
Part load - Fluid Flow Rated - Part load Rated - Part load Rated - Part load
ISO/ASHRAE/ANSI/AHRI 13256-1
Conditions
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Table-2b: Test Conditions per ISO/AHRI 13256-1
EWT CHARGE CFM GPM VAC ESP DB/WB Test Description
Entering Water Temp
Optimum System charge
Air Flow
Water Flow
Voltage External Static
Pressure
Dry Bulb / Wet Bulb
Comments
77 Opt. chg. 1300 9 208 0.65 80.6/66.2 GLHP cooling optimize charge
77 “ 1300 9 208 0.65 80.6/66.2 CLG 77clg-GLHP Full Load
59 “ 1300 9 208 0.65 80.6/66.2 CLG 59clg-GWHP Full Load
86 “ 1300 9 208 0.65 80.6/66.2 CLG 86clg-WLHP Full Load
68 “ 1150 8 208 0.65 80.6/66.2 CLG 68clg-GLHP Part Load
59 “ 1150 8 208 0.65 80.6/66.2 CLG 59clg-GWHP Part Load
86 “ 1150 8 208 0.65 80.6/66.2 CLG 86clg-WLHP Part Load
32 Opt. chg. 1300 9 208 0.65 68/59 GLHP heating optimize Charge
32 “ 1300 9 208 0.65 68/59 HTG 32htg-GLHP Full Load
50 “ 1300 9 208 0.65 68/59 HTG 50htg-GWHP Full Load
68 “ 1300 9 208 0.65 68/59 HTG 68htg-WLHP Full Load
41 “ 1150 8 208 0.65 68/59 HTG 41htg-GLHP Part Load
50 “ 1150 8 208 0.65 68/59 HTG50htg-GWHP Part Load
68 “ 1150 8 208 0.65 68/59 HTG 68htg-WLHP Part Load
Description of System:
All tests were performed in accordance with AHRI/ASHRAE/ISO Standard 13256-1 as defined in
Tables 2a and 2b above for both full and part-load conditions.
The name and model of the tested system is the 5 Series Water-To-Air Heat Pump
NDV038A1010CL which is shown in Figure 1.
Nominal capacity of this 5 Series system is 38,000Btu/hr.
The nameplate system charge level and compressor lubricant type used in this system are
R410A (82oz.) and Ultra 22cc POE oil.
The WaterFurnace 5 Series of products are high efficiency residential application products
that were initially designed to achieve a certified Ground Loop Heat Pump (GLHP) rating of
30 EER and 5 COP in AHRI 13256-1 with R410A. Replacement of R410A with new Low
GWP refrigerant must ensure that the performance and efficiency requirements of our current
and future systems will be met.
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Figure 5-Series Systems Test Unit-NDV038A101CTL
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Figure 2: Refrigerant Temperature and Pressure Locations
12
34
5
6
CoaxHX
Comp
AirCoilHX
RVTXV
Discharge Temp
WaterSupply
LWTEWT
Suction Temp
Table 3: Transducer Location
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Table 4: List of instruments with accuracy.
*Note: All % accuracies in table reflect measured data values. All equipment calibrated within
last 12 months.
Table 5: List of major components used in system tests.
Systems test and charge optimization:
In general during development, units are charged to a starting amount and then tested at
conditions specified in ISO 132256-1 at the Ground Loop Heat Pump (GLHP) cooling and
heating conditions at full load defined in Table 1. Charge is added incrementally to optimize the
unit performance in capacity and efficiency in both heating and cooling and ultimately in both
full and part load. Using the optimum charge level, the unit is then tested at the various ISO data
Instrument Accuracy Make/Model Range
Water Flow meter ± 0.25% FS ABB/10D1475 Magnetic 0-30 gpm
Platinum RTD - Water and Air ± 0.08°FPyromation-4-wire
Platinum15.0° to 140.0°
Data Acquisition ± 0.08°F Agilent NA
Thermocouple-Refrigerant Only ± 1°F Type T -185.0°F to 300°F
Tunnel Nozzles ± 0.02 in Custom 0-2400 cfm
Pressure Transducer - Refrig only 0.25% FS DwyerSuction: 0-1000 psig
Discharge: 0-1000 psig
Differential Pressure transducer - Water ± 0.21% FS Setra 0-25psi
Description WFI P/N Manufacturer P/N Serial # Identifier #
Compressor Copeland ZPS30K5E-PFV 11C622E0L C1633
Lubricant - Ultra 22cc POE Oil
Run Capacitor 16P002D20 40µƒ/370 VAC
Coax HX 62I542A01 BTSSC60
Air Coil 61P605-11 28”x25”x 3 row 3/8" CSI (Cu) RTF
TXV 21F946-21 Factory, 3-Ton & 4-Ton Adjust. Txv.(for Soft Opt.) Danfoss 067x0242
Reversing Valve 33P503-05 Sanhua SHF-14-46
Air Filter 59P509-08
Filter Drier 36P500B01
Blower Wheel and Housing 53P501B01 11 x 10 wheel in 12 x 10 tight housing
Fan Motor 14S545-01 Gentec Eon 1/2 HP
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points, which reflect all full and part load conditions. For the two speed unit that was tested,
there were twelve (12) such ISO data points. The R410A nameplate charge for this Envision 3-
ton system was 82 oz. The unit was run on a continuous basis at specified conditions until it
reached steady state. At steady state conditions, all fluctuations in variables such as temperatures,
airflow, water flow, voltage and External Static Limit (ESP) were within set point tolerances;
then and only then data was logged for about fifteen minutes. The data set are used to compute
unit capacity and efficiency.
Soft-optimization systems test method:
Initial systems tests provided some capacity and efficiency levels for each Low GWP refrigerant
approximate targeted to operate at. With the larger 4-ton adjustable txv in system and new in-
line filter drier replaced for each refrigerant, the txv was adjusted for each refrigerant and charge
levels optimized per ISO 13256-1. The optimization charge levels in Table 6 were used to run
all the ISO tests at full and part load conditions.
The optimum systems refrigerant charge levels used to run all the full and part load tests are
explicitly summarized in following table. Determining the final charge for the unit is ultimately
a compromise between heating and cooling and full load and part load efficiency and capacity.
This determination is sometimes difficult due to charge imbalance within the system.
Table 6: Refrigerant charge determination
Systems Test Results and Summaries
Discharge Gas Temperature
Compressor Discharge gas temperature was plotted for the various refrigerants at all of the AHRI
points. R32 exhibited 10-20 degF higher discharge gas temperature than other refrigerants at
high evaporating or condensing temperatures, even with superheat in range. DR-5A, DR-55 and
L41-2 discharge gas temperatures were generally slightly lower than R410A.
Full Load versus Part Load Capacity and Efficiency Performance Comparison
An important characteristic of modern refrigerants is its part load performance. A greater
percentage of systems are being developed with part load or even variable capacity capability.
RefrigerantHeating
Charge
Cooling
Charge
Charge
Used
R-410A 82.0
DR-5A 80.0 78.0 80.0
DR-55 77.0 76.0 77.0
L41-2 76.0 78.0 76.0
R-32 82.0 84.0 82.0
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Reviewing each of the candidate refrigerants to observe its performance at both full and part load
is a reasonable conclusion. The full load vs. part load analysis of capacity and efficiency for
each of the refrigerants was inconclusive, however, it is possible that optimization of compressor
displacement and heat exchangers could potentially reveal more conclusive results.
General Capacity and Efficiency Performance
Following charts on percent (%) capacity ratio and percent (%) efficiency (EER or COP) ratio
show the comparison of each alternate refrigerant at all twelve (12) ISO points over the R410A
(baseline) refrigerant. DR-5A and DR-55 met the 5% threshold in percent capacity ratio and
efficiency over R410A.
Percent (%) ISO Capacity Ratio Test Results: (Reference following charts)
DR-5A: The percent capacity over R410A ranges from 95.4 to 104.7
DR-55: The percent capacity over R410A ranges for 97.0 to 104.7
L41-2: The percent capacity over R410A ranges from 88 to 92 and
R-32 : The percent capacity over R410A ranges from 100 to 115.6
Percent (%) ISO EER or COP Ratio over R410A Test Results: (Reference following bar charts)
DR-5A: The percent EER or COP over R410A ranges from 100.6 to 113.4
DR-55: The percent EER or COP over R410A ranges from 101.1 To 112.2
L41-2: The percent EER or COP over R410A ranges from 97.4 to 110.9 and
R-32: The percent EER or COP over R410A ranges from 91.7 to 107.4
DR-55 has a slight edge over DR-5A in percent capacity over R410A. It is however,
comparable to DR-5A in percent efficiency over R410A. L41-2 was lower in percent capacity
than R410A but it met the percent efficiency requirements over R410A. Optimizing the
compressor displacement might address the capacity gap for L41-2. R-32 surpasses the DR-5A,
DR-55 and L41-2 in the percent capacity over R410A. R-32 did not do as well as the other
three refrigerants in percent efficiency over R410A, never-the-less, it still performed within the
5% threshold. Future work on R-32 should explore oil miscibility and optimization of other
systems components such as compressor displacement, heat exchanger selection, etc.
The thermostatic expansion control valve should be optimized for sensing bulb accuracy for
these new batch of refrigerants with glide. It is possible that the selective charge currently used
in R410A expansion valves is not optimal for control of the new refrigerants and a suitable
replacement may need to be developed.
DR-55, on average, had a higher efficiency than all the other candidates and DR-5A was a close
second.
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Summary of All Observations:
R32 exhibited 10-20 degF higher discharge gas temperature than other refrigerants at
high evaporating or condensing temperatures, even with superheat in range. DR-5A,
DR-55 and L41-2 discharge gas temperatures were generally slightly lower than R410A.
Full load vs part load analysis of capacity and efficiency was inconclusive. Optimization
of compressor displacement and heat exchangers could potentially reveal more
conclusions.
DR-5A and DR-55 met the 5% threshold in percent capacity ratio and efficiency over
R410A.
DR-55 has a slight edge over DR-5A in percent capacity over R410A. It is however,
comparable to DR-5A in percent efficiency over R410A.
L41-2 was lower in percent capacity than R410A but it met the percent efficiency
requirements over R410A. Optimizing the compressor displacement might address the
capacity gap for L41-2.
R-32 surpasses the DR-5A, DR-55 and L41-2 in the percent capacity over R410A. R-32
did not do as well as the other three refrigerants in percent efficiency over R410A,
never-the-less, it still performed within the 5% threshold. Future work on R-32 should
explore oil miscibility and optimization of other systems components such as compressor
displacement, heat exchanger selection, etc.
The Thermostatic expansion control valve should be optimized for accuracy sensing bulb
accuracy for these new batch of refrigerants with glide
DR-55, on average, had a higher efficiency than all the others and DR-5A was a close
second.
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70.00
75.00
80.00
85.00
90.00
95.00
100.00
105.00
110.00
115.00
120.00
HTG32htg-GLHP-
FullLoad
HTG41htg-GLHP-PartLoad
HTG50htg-GWHP-
FullLoad
HTG50htg-GWHP-
PartLoad
HTG68htg-WLHP-
FullLoad
HTG68htg-WLHP-
PartLoad
CLG59clg-
GWHP-Full
Load
CLG59clg-
GWHP-PartLoad
CLG68clg-GLHP-PartLoad
CLG77clg-GLHP-
FullLoad
CLG86clg-WLHP-
FullLoad
CLG86clg-WLHP-
PartLoad
DR-5A 95.36 97.36 100.23 99.69 98.13 95.74 95.92 104.75 104.73 97.16 97.14 96.14
DR-55 97.34 96.99 100.17 99.84 98.01 97.69 97.35 104.70 104.29 98.57 98.07 97.64
L-41-2 87.90 87.70 92.03 90.62 91.86 89.28 89.48 97.08 95.16 91.38 91.68 91.54
R-32 100.04 104.59 110.68 109.40 104.43 101.47 101.55 115.56 115.26 104.26 103.99 103.22
% C
APA
CIT
Y R
ATI
O
Chart 1: SOFT OPTIMIZATION SYSTEMS TEST RESULTS
CAPACITY RATIO: ALT. REFRIGERANTS /R410A
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HTG32htg-GLHP-
FullLoad
HTG41htg-GLHP-PartLoad
HTG50htg-GWHP-
FullLoad
HTG50htg-GWHP-
PartLoad
HTG68htg-WLHP-
FullLoad
HTG68htg-WLHP-
PartLoad
CLG59clg-
GWHP-Full
Load
CLG59clg-
GWHP-PartLoad
CLG68clg-GLHP-PartLoad
CLG77clg-GLHP-
FullLoad
CLG86clg-WLHP-
FullLoad
CLG86clg-WLHP-
PartLoad
DR-5A 100.55 102.54 104.25 106.78 102.97 102.27 102.44 107.72 113.44 101.41 102.84 101.65
DR-55 101.06 102.63 104.03 106.75 102.15 104.35 103.57 107.80 112.21 103.15 104.01 103.14
L-41-2 99.93 99.87 104.39 104.15 103.91 102.05 97.40 109.41 110.98 102.91 104.30 103.78
R-32 91.77 96.62 99.74 103.32 98.31 100.01 98.23 99.78 107.49 96.49 96.66 98.74
70.00
75.00
80.00
85.00
90.00
95.00
100.00
105.00
110.00
115.00
120.00
% E
ER O
R C
OP
RA
TIO
Chart 2: SOFT OPTIMIZATION SYSTEMS TEST RESULTS
EER OR COP RATIO: ALTERNATE REFRIG./R410A
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120
125
130
135
140
145
150
155
160
165
170
32 50 68
Dis
char
ge T
em
pe
ratu
re [
de
gF]
EWT [degF]
Chart 3: COMP DISCHARGE TEMP - HEATING FULL LOAD
R-410A
DR-5A
DR-55
L41-2
R-32
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120
125
130
135
140
145
150
155
160
41 50 68
Dis
char
ge T
emp
erat
ure
[d
egF]
EWT [degF]
Chart 4: COMP DISCHARGE TEMP - HEATING PART LOAD
R-410A
DR-5A
DR-55
L41-2
R-32
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110
115
120
125
130
135
140
145
150
155
160
59 77 86
Dis
char
ge T
emp
erat
ure
[d
egF]
EWT [degF]
Chart 5: COMP DISCHARGE TEMP - COOLING FULL LOAD
R-410A
DR-5A
DR-55
L41-2
R-32
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80
90
100
110
120
130
140
150
59 68 86
Dis
char
ge T
em
pe
ratu
re [
de
gF]
EWT [degF]
CHART 6: COMP DISCHARGE TEMP – COOLING PART LOAD
R-410A
DR-5A
DR-55
L41-2
R-32
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Chart 7: HEATING CAPACITY COMPARISON FULL/PART LOAD
Chart 8: HEATING EFFICIENCY COMPARISON FULL/PART LOAD
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Chart 9 – COOLING CAPACITY COMPARISON FULL/PART LOAD
Chart 10 – COOLING EFFICIENCY COMPARISON FULL/PART LOAD
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LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 97.6%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 95.4%
W Btu/hr NA
W W 94.9%
W W 94.0%
W/W Btuh/W NA
W/W W/W 100.7%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 32 Full Load
TR150716C-32htg Full TR150716C-32Htg Full DR-5A
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-5A
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full load Full load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.27 5.125 5
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor19.98 20.06 67.97 68.11
14.97 15.11 58.95 59.20
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 8355 7967 28507 27183
Sensible Capacity NA NA
Total System Power Input 2197 2084 2197 2084
Compressor Power Input 1812 1703 1812 1703
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 4.41 4.44 4.41 4.44
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LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.0%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 19.98 14.97 20.06 15.11 °C 67.97 58.95 68.11 59.20 °F
Outlet Temperature DB/WB 31.18 30.86 °C 88.12 87.55 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.8%
Inlet Temperature °C °F
Outlet Temperature °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 1.6 225 32.6 66.6
Compressor Discharge 1 62.4 873 126.6 247.9
Condenser Inlet 5 58.0 798 115.7 257.6
Condenser Outlet 4 30.2 579 84 254.6
Expansion Device Inlet 4 30.2 579 84 254.6
16.1 13 1.9
Evaporator Inlet 3 2.0 188 27.3 85.4
Evaporator Outlet 2 3.3 172 24.9 68.9
Evaporator Superheat 6.9 259.9 37.7
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Heating 32 Full LoadChemours DR-5A
Base. Alt. Base. Alt.
NA NA NA NA
Meth 17% Meth17 %
Air Air
2207 2207 1299 1299
Alternative
P [kPa] T (°C) T (°F) P [psia]
NA NA NA NA
34.0 33.9 8.98 8.96
27.37
34.8 70.3
1837 52.6 144.4 266.4
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
Subcooling, at expan. device 16.7 3.1
1914 46.5 136.4 277.6
1880 28.9 86.4 272.7
3.2 19.6
0.08 0.08 32.15 32.15
2.69 2.57 27.16
609 2.6 28.4 88.4
506 3.9 26.1 73.4
1880 28.9 86.4 272.7
485 0.3
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LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 97.6%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 97.4%
W Btu/hr NA
W W 94.9%
W W 94.2%
W/W Btuh/W NA
W/W W/W 102.6%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 4.95 5.08 4.95 5.08
Total System Power Input 1578 1497 1578 1497
Compressor Power Input 1294 1219 1294 1219
Total Capacity 6641 6466 22660 22061
Sensible Capacity NA NA
Ambient
Temps.
Indoor20.03 20.02 68.05 68.04
15.00 15.03 59.00 59.05
OutdoorNA NA NA NA
NA NA NA NA
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.27 5.125 5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Basic Information Heating 41 Part Load
TR150716C-41Htg Part TR150716C-31Htg Part DR-5A
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-5A
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
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LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.8%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.03 15.00 20.02 15.03 °C 68.05 59.00 68.04 59.05 °F
Outlet Temperature DB/WB 30.01 29.89 °C 86.01 85.81 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.0%
Inlet Temperature °C °F
Outlet Temperature °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 7.4 270 39.2 85.3
Compressor Discharge 1 59.1 901 130.7 240.3
Condenser Inlet 5 54.7 826 119.8 249.9
Condenser Outlet 4 29.4 577 83.7 247
Expansion Device Inlet 4 29.4 577 83.7 247
-16.6 0
Evaporator Inlet 3 1.7 241 34.9 100.1
Evaporator Outlet 2 3.6 245 35.5 88.1
Evaporator Superheat -7.0 29
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
-1.7 19.4
711 1.6 35 103.1
636 1.9 38.5 92.3
1809 28.7 84.9 262.4
Subcooling, at expan. device -17.8 2.1
1843 48.8 130.4 267.3
1809 28.7 84.9 262.4
614 4.0 45.3 89
1764 54.8 138.3 255.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
5.06 5.06 41.11 41.11
2.49 2.54 36.48 36.58
NA NA NA NA
30.1 30.1 7.96 7.96
NA NA NA NA
Meth 17% Meth17 %
Air Air
1954 1950 1150 1148
Heating 41 Part LoadChemours DR-5A
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 23 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 97.6%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 100.2%
W Btu/hr NA
W W 96.5%
W W 95.9%
W/W Btuh/W NA
W/W W/W 104.3%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 5.17 5.39 5.17 5.39
Total System Power Input 2335 2253 2335 2253
Compressor Power Input 1929 1850 1929 1850
Total Capacity 10386 10410 35438 35520
Sensible Capacity NA NA
Ambient
Temps.
Indoor19.99 19.96 67.99 67.92
14.99 15.08 58.99 59.14
OutdoorNA NA NA NA
NA NA NA NA
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.27 5.125 5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Basic Information Heating 50 Full Load
TR150716C-50htg Full TR150716C-50Htg Full DR-5A
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-5A
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 24 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.5%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 19.99 14.99 19.96 15.08 °C 67.99 58.99 67.92 59.14 °F
Outlet Temperature DB/WB 33.90 33.92 °C 93.02 93.05 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.9%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 10.7 300 43.5 94
Compressor Discharge 1 62.4 979 142 272.7
Condenser Inlet 5 58.8 916 132.9 284.9
Condenser Outlet 4 31.9 606 87.9 279
Expansion Device Inlet 4 31.9 606 87.9 279
14.8 4.8
Evaporator Inlet 3 5.6 287 41.6 115.3
Evaporator Outlet 2 6.8 274 39.7 96.8
Evaporator Superheat 5.6 27.3
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
-2.6 21.9
821 5.3 42 119.1
689 4.3 44.2 100
2029 31.1 89.4 294.3
Subcooling, at expan. device 15.1 5.3
2071 56.1 137.8 300.4
2029 31.1 89.4 294.3
661 6.4 51.3 95.8
1991 61.1 144.3 288.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
9.99 9.99 49.99 49.98
6.38 6.32 43.49 43.38
NA NA NA NA
34.0 33.9 8.97 8.96
NA NA NA NA
Meth 17% Meth17 %
Air Air
2204 2214 1297 1303
Heating 50 Full LoadChemours DR-5A
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 25 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 97.6%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 99.7%
W Btu/hr NA
W W 93.6%
W W 93.1%
W/W Btuh/W NA
W/W W/W 106.7%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 5.50 5.87 5.5 5.87
Total System Power Input 1590 1488 1590 1488
Compressor Power Input 1291 1202 1291 1202
Total Capacity 7388 7365 25208 25129
Sensible Capacity NA NA
Ambient
Temps.
Indoor20.07 19.98 68.13 67.96
14.96 15.05 58.92 59.09
OutdoorNA NA NA NA
NA NA NA NA
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.27 5.125 5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Basic Information Heating 50 Part Load
TR150716C-50htg Part TR150716C-50Htg Part DR-5A
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-5A
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 26 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.8%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.07 14.96 19.98 15.05 °C 68.13 58.92 67.96 59.09 °F
Outlet Temperature DB/WB 31.14 31.14 °C 88.06 88.06 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.9%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 10.7 340 49.3 101.5
Compressor Discharge 1 57.6 911 132.2 249.7
Condenser Inlet 5 53.8 849 123.1 260.4
Condenser Outlet 4 30.5 593 86 255.8
Expansion Device Inlet 4 30.5 593 86 255.8
16.5 0.3
Evaporator Inlet 3 5.1 292 42.4 116.6
Evaporator Outlet 2 7.6 297 43.1 105.1
Evaporator Superheat 7.3 28.3
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
2.1 18.9
809 5.8 41.2 117.4
732 6.2 45.6 106.2
1871 30.0 86.9 271.4
Subcooling, at expan. device 17.6 2.3
1912 50.6 128.9 277.3
1871 30.0 86.9 271.4
703 9.6 51.3 101.9
1826 55.7 135.7 264.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
9.98 10.00 49.96 50
7.06 7.04 44.7 44.67
NA NA NA NA
30.3 30.2 8 7.99
NA NA NA NA
Meth 17% Meth17 %
Air Air
1957 1954 1152 1150
Heating 50 Part LoadChemours DR-5A
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 27 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min NA
hp NA
rpm NA
kg lb 100.0%
kg lb 97.6%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 98.1%
W Btu/hr 102.1%
W W 95.8%
W W 94.8%
W/W Btuh/W 103.0%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Energy Efficiency Ratio (EER) 7.80 8.04 26.63 27.42
Coeff. Of Performance (COP) NA NA
Total System Power Input 1981 1897 1981 1897
Compressor Power Input 1574 1492 1574 1492
Total Capacity 12907 12666 44038 43216
Sensible Capacity 9246 9443 31548 32218
Ambient
Temps.
Indoor27.03 26.98 80.65 80.56
18.97 19.03 66.15 66.26
OutdoorNA NA NA NA
NA NA NA NA
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.27 5.125 5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Basic Information Cooling 59 Full Load
TR150716C-59Clg Full TR150716C-59Clg Full DR-5A
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-5A
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 28 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.1%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.03 18.97 26.98 19.03 °C 80.65 66.15 80.56 66.26 °F
Outlet Temperature DB/WB 14.65 13.24 14.34 13.41 °C 58.37 55.83 57.82 56.14 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.7%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 20.8 436 63.3 129.5
Compressor Discharge 1 50.0 801 116.2 204
Condenser Inlet 2 48.3 774 112.2 208.6
Condenser Outlet 3 16.4 416 60.4 199.5
Expansion Device Inlet 3 16.4 416 60.4 199.5
11.9 8.1
Evaporator Inlet 4 10.6 355 51.5 135.2
Evaporator Outlet 5 19.0 396 57.4 132.7
Evaporator Superheat 5.3 26.7
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
2.9 22.4
977 10.8 51.1 141.7
952 14.1 66.2 138.1
1438 15.8 61.6 208.5
Subcooling, at expan. device 13.3 10.6
1524 44.6 118.9 221.1
1438 15.8 61.6 208.5
932 17.4 69.5 135.2
1491 46.8 122 216.3
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
15.06 15.05 59.1 59.09
21.33 21.16 70.4 70.08
NA NA NA NA
33.9 34.1 8.95 9.01
NA NA NA NA
Meth 17% Meth17 %
Air Air
2205 2207 1298 1299
Cooling 59 Full LoadChemours DR-5A
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 29 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 97.6%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 95.7%
W Btu/hr 100.3%
W W 93.9%
W W 92.6%
W/W Btuh/W 102.3%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Energy Efficiency Ratio (EER) 10.61 10.85 36.19 37.01
Coeff. Of Performance (COP) NA NA
Total System Power Input 1160 1089 1160 1089
Compressor Power Input 866 802 866 802
Total Capacity 9676 9263 33013 31606
Sensible Capacity 7488 7508 25550 25618
Ambient
Temps.
Indoor27.00 27.07 80.60 80.73
19.04 19.06 66.28 66.30
OutdoorNA NA NA NA
NA NA NA NA
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.27 5.125 5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Basic Information Cooling 59 Part Load
TR150716C-59Clg Part TR150716C-59Clg Part DR-5A
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-5A
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 30 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.2%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.00 19.04 27.07 19.06 °C 80.6 66.28 80.73 66.30 °F
Outlet Temperature DB/WB 15.69 14.27 15.76 14.54 °C 60.25 57.69 60.36 58.17 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.3%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 21.4 444 64.4 136.4
Compressor Discharge 1 42.2 706 102.4 190.9
Condenser Inlet 2 40.7 686 99.5 195.7
Condenser Outlet 3 16.6 416 60.3 191
Expansion Device Inlet 3 16.6 416 60.3 191
13.4 5.2
Evaporator Inlet 4 12.0 367 53.3 140.8
Evaporator Outlet 5 19.7 412 59.8 140.5
Evaporator Superheat 6.7 24.5
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
4.2 20
1027 11.8 53.6 148.9
1022 15.4 67.4 148.3
1384 15.7 61.9 200.7
Subcooling, at expan. device 14.9 7.9
1443 37.5 105.3 209.3
1384 15.7 61.9 200.7
992 18.0 70.5 143.9
1415 39.1 107.9 205.3
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
15.06 15.07 59.11 59.12
20.20 19.97 68.36 67.94
NA NA NA NA
30.1 30.2 7.95 7.97
NA NA NA NA
Meth 17% Meth17 %
Air Air
1954 1957 1150 1152
Cooling 59 Part LoadChemours DR-5A
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 31 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 97.6%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 95.9%
W Btu/hr 101.9%
W W 93.9%
W W 92.9%
W/W Btuh/W 102.4%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Energy Efficiency Ratio (EER) 8.92 9.14 30.44 31.18
Coeff. Of Performance (COP) NA NA
Total System Power Input 1286 1207 1286 1207
Compressor Power Input 999 928 999 928
Total Capacity 9345 8964 31884 30584
Sensible Capacity 7420 7560 25316 25795
Ambient
Temps.
Indoor27.03 26.96 80.66 80.52
19.00 18.94 66.20 66.09
OutdoorNA NA NA NA
NA NA NA NA
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.27 5.125 5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Basic Information Cooling 68 Part Load
TR150716C-68Clg Part TR150716C-32Htg Full DR-5A
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-5A
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 32 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.2%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.03 19.00 26.96 18.94 °C 80.66 66.20 80.52 66.09 °F
Outlet Temperature DB/WB 15.83 14.39 15.57 14.49 °C 60.49 57.9 60.02 58.09 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.9%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 20.8 431 62.5 138.5
Compressor Discharge 1 46.2 755 109.5 219.8
Condenser Inlet 2 44.5 729 105.7 224.5
Condenser Outlet 3 21.3 474 68.8 219.6
Expansion Device Inlet 3 21.3 474 68.8 219.6
13.1 6.5
Evaporator Inlet 4 12.6 373 54.1 143.2
Evaporator Outlet 5 18.9 392 56.9 141.6
Evaporator Superheat 7.9 21.5
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
5.8 17.8
1047 12.3 54.7 151.8
1036 13.8 66 150.3
1593 20.4 70.3 231
Subcooling, at expan. device 14.2 8.4
1653 40.9 112.1 239.7
1593 20.4 70.3 231
1013 16.9 69.4 146.9
1616 43.1 115.2 234.4
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
20.02 20.02 68.04 68.04
25.06 24.84 77.11 76.72
NA NA NA NA
30.2 30.2 7.98 7.97
NA NA NA NA
Meth 17% Meth17 %
Air Air
1954 1957 1150 1152
Cooling 68 Part LoadChemours DR-5A
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 33 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 97.6%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 104.8%
W Btu/hr NA
W W 97.1%
W W 96.6%
W/W Btuh/W NA
W/W W/W 107.7%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 5.70 6.14 5.7 6.14
Total System Power Input 2474 2402 2474 2402
Compressor Power Input 2095 2023 2095 2023
Total Capacity 12464 13056 42526 44546
Sensible Capacity NA NA
Ambient
Temps.
Indoor20.06 20.03 68.11 68.06
14.98 15.04 58.96 59.08
OutdoorNA NA NA NA
NA NA NA NA
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.27 5.125 5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Basic Information Heating 68 Full Load
TR150716C-68 Htg Full TR150716C-68Htg Full DR-5A
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-5A
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 34 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.0%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.06 14.98 20.03 15.04 °C 68.11 58.96 68.06 59.08 °F
Outlet Temperature DB/WB 36.68 37.41 °C 98.03 99.34 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.6%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 17.3 412 59.7 127.9
Compressor Discharge 1 64.5 1003 145.5 300.6
Condenser Inlet 5 61.4 955 138.5 313.4
Condenser Outlet 4 33.8 641 93 305.5
Expansion Device Inlet 4 33.8 641 93 305.5
13.8 6.4
Evaporator Inlet 3 12.1 390 56.6 151.8
Evaporator Outlet 2 15.0 385 55.8 131.4
Evaporator Superheat 5.9 24
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
4.4 21.3
1035 13.7 53.8 150.1
877 13.2 59 127.2
2190 33.9 92.8 317.6
Subcooling, at expan. device 14.2 7.2
2251 59.2 142.6 326.5
2190 33.9 92.8 317.6
845 15.4 63.1 122.6
2157 63.1 148.1 312.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
19.93 19.93 67.88 67.88
15.47 15.21 59.85 59.38
NA NA NA NA
33.9 34.1 8.96 9.01
NA NA NA NA
Meth 17% Meth17 %
Air Air
2207 2207 1299 1299
Heating 68 Full LoadChemours DR-5A
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 35 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 97.6%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 104.7%
W Btu/hr NA
W W 92.6%
W W 91.4%
W/W Btuh/W NA
W/W W/W 113.4%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 6.65 7.54 6.65 7.54
Total System Power Input 1569 1453 1569 1453
Compressor Power Input 1292 1181 1292 1181
Total Capacity 8993 9419 30685 32136
Sensible Capacity NA NA
Ambient
Temps.
Indoor20.06 19.99 68.10 67.99
14.99 15.08 58.98 59.14
OutdoorNA NA NA NA
NA NA NA NA
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.27 5.125 5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Basic Information Heating 68 part Load
TR150716C-68 htg Part TR150716C-68Htg Part DR-5A
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-5A
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 36 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.3%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.06 14.99 19.99 15.08 °C 68.1 58.98 67.99 59.14 °F
Outlet Temperature DB/WB 33.45 33.91 °C 92.21 93.03 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.3%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 17.9 434 62.9 136.1
Compressor Discharge 1 56.8 889 128.9 270.4
Condenser Inlet 5 53.9 843 122.3 282
Condenser Outlet 4 32.4 622 90.2 275.9
Expansion Device Inlet 4 32.4 622 90.2 275.9
16.0 1.5
Evaporator Inlet 3 11.8 392 56.9 153.9
Evaporator Outlet 2 15.8 405 58.7 140.9
Evaporator Superheat 6.9 23.1
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
4.9 19.6
1024 13.8 53.2 148.5
928 14.8 60.4 134.6
1996 32.3 90.4 289.5
Subcooling, at expan. device 16.9 3.2
2044 50.2 129.1 296.4
1996 32.3 90.4 289.5
893 17.2 64.3 129.5
1957 53.8 134.3 283.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
19.94 20.01 67.89 68.01
16.21 16.03 61.18 60.85
NA NA NA NA
30.2 30.2 7.97 7.99
NA NA NA NA
Meth 17% Meth17 %
Air Air
1954 1959 1150 1153
Heating 68 part LoadChemours DR-5A
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 37 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 97.6%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 97.2%
W Btu/hr 100.0%
W W 95.7%
W W 94.6%
W/W Btuh/W 101.4%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Energy Efficiency Ratio (EER) 6.13 6.21 20.91 21.2
Coeff. Of Performance (COP) NA NA
Total System Power Input 2273 2176 2273 2176
Compressor Power Input 1894 1792 1894 1792
Total Capacity 12045 11703 41096 39930
Sensible Capacity 9208 9208 31416 31417
Ambient
Temps.
Indoor27.03 26.99 80.65 80.58
19.02 19.02 66.23 66.24
OutdoorNA NA NA NA
NA NA NA NA
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.27 5.125 5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Basic Information Cooling 77 Full Load
TR150716C-77 Clg Full TR150716C-77Clg Full DR-5A
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-5A
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 38 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.0%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.03 19.02 26.99 19.02 °C 80.65 66.23 80.58 66.24 °F
Outlet Temperature DB/WB 14.71 13.58 14.67 13.76 °C 58.47 56.44 58.4 56.76 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.1%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 19.4 427 61.9 133.3
Compressor Discharge 1 56.1 906 131.4 264.2
Condenser Inlet 2 54.3 871 126.3 270.2
Condenser Outlet 3 25.9 534 77.4 261.7
Expansion Device Inlet 3 25.9 534 77.4 261.7
11.8 10.5
Evaporator Inlet 4 12.6 370 53.7 141
Evaporator Outlet 5 17.3 387 56.1 136
Evaporator Superheat 8.1 23.4
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
4.8 17.4
1045 12.1 54.7 151.6
998 13.4 63.1 144.8
1876 25.2 78.7 272.1
Subcooling, at expan. device 11.9 10.7
1964 52.4 129.7 284.9
1876 25.2 78.7 272.1
975 16.6 67 141.4
1923 55.2 132.9 278.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
25.01 24.97 77.02 76.95
31.04 30.87 87.88 87.56
NA NA NA NA
34.2 33.9 9.03 8.95
NA NA NA NA
Meth 17% Meth17 %
Air Air
2205 2205 1298 1298
Cooling 77 Full LoadChemours DR-5A
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 39 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 97.6%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 97.1%
W Btu/hr 101.0%
W W 94.7%
W W 94.0%
W/W Btuh/W 102.9%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Energy Efficiency Ratio (EER) 5.28 5.43 18.01 18.53
Coeff. Of Performance (COP) NA NA
Total System Power Input 2478 2346 2478 2346
Compressor Power Input 2103 1977 2103 1977
Total Capacity 11564 11234 39457 38330
Sensible Capacity 9045 9135 30863 31168
Ambient
Temps.
Indoor27.00 26.95 80.60 80.51
18.99 18.98 66.19 66.17
OutdoorNA NA NA NA
NA NA NA NA
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.27 5.125 5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Basic Information Cooling 86 Full Load
TR150716C-86Clg Full TR150716C-86Clg Full DR-5A
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-5A
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 40 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.0%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.00 18.99 26.95 18.98 °C 80.6 66.19 80.51 66.17 °F
Outlet Temperature DB/WB 14.88 13.79 14.72 13.87 °C 58.79 56.82 58.5 56.96 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.3%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 19.4 428 62.1 136.1
Compressor Discharge 1 61.3 976 141.6 298.6
Condenser Inlet 2 59.1 936 135.7 305.3
Condenser Outlet 3 30.5 590 85.5 296.3
Expansion Device Inlet 3 30.5 590 85.5 296.3
11.6 11.3
Evaporator Inlet 4 13.4 379 54.9 144.3
Evaporator Outlet 5 17.1 382 55.4 138.3
Evaporator Superheat 8.8 22.2
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
5.4 16.1
1076 12.7 56.1 156
1016 13.0 62.7 147.4
2128 29.7 86.9 308.7
Subcooling, at expan. device 11.5 11.1
2226 57.6 138.3 322.9
2128 29.7 86.9 308.7
999 16.7 66.9 144.9
2175 60.9 142.4 315.5
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
29.96 29.94 85.92 85.9
35.92 35.70 96.66 96.26
NA NA NA NA
34.0 34.1 8.98 9.01
NA NA NA NA
Meth 17% Meth17 %
Air Air
2204 2204 1297 1297
Cooling 86 Full LoadChemours DR-5A
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 41 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 97.6%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 0.0%
W Btu/hr 0.0%
W W 0.0%
W W 0.0%
W/W Btuh/W 0.0%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Energy Efficiency Ratio (EER) 6.14 6.24 20.94 21.29
Coeff. Of Performance (COP) NA NA
Total System Power Input 1595 1509 1595 1509
Compressor Power Input 1316 1241 1316 1241
Total Capacity 8468 8141 28892 27776
Sensible Capacity 7229 7232 24667 24676
Ambient
Temps.
Indoor27.02 26.93 80.63 80.48
19.00 18.94 66.20 66.09
OutdoorNA NA NA NA
NA NA NA NA
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.27 5.125 5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Basic Information Cooling 86 Part Load
TR150716C-86 Clg Part TR150716C-86Clg Part DR-5A
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-5A
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 42 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.4%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.02 19.00 26.93 18.94 °C 80.63 66.20 80.48 66.09 °F
Outlet Temperature DB/WB 16.07 14.77 16.03 14.88 °C 60.92 58.59 60.85 58.79 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.1%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 20.4 430 62.4 142.3
Compressor Discharge 1 55.9 904 131.1 284.4
Condenser Inlet 2 53.8 863 125.2 290.8
Condenser Outlet 3 30.6 592 85.8 285.4
Expansion Device Inlet 3 30.6 592 85.8 285.4
12.8 8.5
Evaporator Inlet 4 13.9 385 55.9 147
Evaporator Outlet 5 18.1 396 57.4 145.6
Evaporator Superheat 9.3 19.7
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
-6.8 15.2
1093 13.3 57 158.5
1071 14.1 64.5 155.4
2064 29.9 87 299.3
Subcooling, at expan. device 13.1 8.9
2128 51.8 128.8 308.7
2064 29.9 87 299.3
1048 16.9 68.8 152
2081 55.1 132.7 301.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
29.94 29.94 85.9 85.89
34.75 34.54 94.55 94.17
NA NA NA NA
30.2 30.2 7.98 7.99
NA NA NA NA
Meth 17% Meth17 %
Air Air
1947 1956 1146 1151
Cooling 86 Part LoadChemours DR-5A
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 43 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 93.9%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 97.3%
W Btu/hr NA
W W 96.6%
W W 96.0%
W/W Btuh/W NA
W/W W/W 101.1%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 32 Full Load
TR150716C-32htg Full TR150716C-32Htg Full DR-55
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-55
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full load Full load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.18 5.125 4.812
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor19.98 20.04 67.97 68.08
14.97 15.05 58.95 59.09
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 8355 8133 28507 27749
Sensible Capacity NA NA
Total System Power Input 2197 2122 2197 2122
Compressor Power Input 1812 1739 1812 1739
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 4.41 4.46 4.41 4.46
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 44 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.5%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 19.98 14.97 20.04 15.05 °C 67.97 58.95 68.08 59.09 °F
Outlet Temperature DB/WB 31.18 30.99 °C 88.12 87.79 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.2%
Inlet Temperature °C °F
Outlet Temperature °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 1.6 239 34.6 66.9
Compressor Discharge 1 62.4 996 144.5 252.7
Condenser Inlet 5 58.0 911 132.1 263.1
Condenser Outlet 4 30.2 580 84.1 260.5
Expansion Device Inlet 4 30.2 580 84.1 260.5
16.1 3.1
Evaporator Inlet 3 2.0 188 27.2 84
Evaporator Outlet 2 3.3 172 24.9 69.9
Evaporator Superheat 6.9 39.4
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Heating 32 Full LoadChemours DR-55
Base. Alt. Base. Alt.
NA NA NA NA
Meth 17% Meth17 %
Air Air
2207 2217 1299 1305
Alternative
P [kPa] T (°C) T (°F) P [psia]
NA NA NA NA
34.0 34.1 8.98 9
27.28
34.8 70.3
1837 62.5 144.4 266.4
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
Subcooling, at expan. device 16.1 3.1
1914 55.6 136.4 277.6
1880 28.9 86.4 272.7
4.1 19.6
0.08 0.08 32.15 32.14
2.69 2.62 27.16
609 2.7 28.4 88.4
506 3.9 26.1 73.4
1880 28.9 86.4 272.7
485 1.4
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 45 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 93.9%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 97.0%
W Btu/hr NA
W W 94.8%
W W 94.0%
W/W Btuh/W NA
W/W W/W 102.6%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 41 Part Load
TR150716C-41Htg Part TR150716C-41Htg Part DR-55
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-55
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.18 5.125 4.812
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor20.03 20.00 68.05 68.00
15.00 15.07 59.00 59.12
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 6641 6441 22660 21978
Sensible Capacity NA NA
Total System Power Input 1578 1496 1578 1496
Compressor Power Input 1294 1216 1294 1216
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 4.95 5.08 4.95 5.08
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 46 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.0%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.03 15.00 20.00 15.07 °C 68.05 59.00 68 59.12 °F
Outlet Temperature DB/WB 30.01 29.82 °C 86.01 85.68 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.1%
Inlet Temperature °C °F
Outlet Temperature °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 7.4 259 37.6 87.4
Compressor Discharge 1 59.1 860 124.7 241.6
Condenser Inlet 5 54.7 787 114.2 251
Condenser Outlet 4 29.4 565 81.9 249.6
Expansion Device Inlet 4 29.4 565 81.9 249.6
16.6 2.1
Evaporator Inlet 3 1.7 245 35.5 101.3
Evaporator Outlet 2 3.6 243 35.2 90.7
Evaporator Superheat 7.0 25.9
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1954 1954 1150 1150
Heating 41 Part LoadChemours DR-55
Base. Alt. Base. Alt.
NA NA NA NA
30.1 30.2 7.96 7.97
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
5.06 5.03 41.11 41.05
2.49 2.52 36.48 36.54
614 3.1 45.3 89
1764 51.5 138.3 255.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1809 27.7 84.9 262.4
Subcooling, at expan. device 16.6 2.1
1843 45.7 130.4 267.3
1809 27.7 84.9 262.4
3.4 19.4
711 1.9 35 103.1
636 1.8 38.5 92.3
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 47 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 93.9%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 100.2%
W Btu/hr NA
W W 96.6%
W W 96.2%
W/W Btuh/W NA
W/W W/W 104.1%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 50 Full Load
TR150716C-50htg Full TR150716C-50Htg Full DR-55
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-55
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.18 5.125 4.812
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor19.99 20.04 67.99 68.07
14.99 15.04 58.99 59.08
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 10386 10404 35438 35499
Sensible Capacity NA NA
Total System Power Input 2335 2256 2335 2256
Compressor Power Input 1929 1856 1929 1856
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 5.17 5.38 5.17 5.38
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 48 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.2%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 19.99 14.99 20.04 15.04 °C 67.99 58.99 68.07 59.08 °F
Outlet Temperature DB/WB 33.90 34.08 °C 93.02 93.35 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.2%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 10.7 295 42.8 95.9
Compressor Discharge 1 62.4 969 140.5 276
Condenser Inlet 5 58.8 904 131.1 286.3
Condenser Outlet 4 31.9 611 88.6 282.8
Expansion Device Inlet 4 31.9 611 88.6 282.8
14.8 4.6
Evaporator Inlet 3 5.6 293 42.5 116.7
Evaporator Outlet 2 6.8 274 39.7 99.8
Evaporator Superheat 5.6 25.4
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2204 2209 1297 1300
Heating 50 Full LoadChemours DR-55
Base. Alt. Base. Alt.
NA NA NA NA
34.0 34.0 8.97 8.99
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
9.99 9.99 49.99 49.98
6.38 6.34 43.49 43.42
661 6.0 51.3 95.8
1991 60.3 144.3 288.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
2029 31.4 89.4 294.3
Subcooling, at expan. device 15.2 5.3
2071 55.1 137.8 300.4
2029 31.4 89.4 294.3
3.7 21.9
821 5.8 42 119.1
689 4.3 44.2 100
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 49 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 93.9%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 99.8%
W Btu/hr NA
W W 94.3%
W W 93.5%
W/W Btuh/W NA
W/W W/W 106.7%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 50 Part Load
TR150716C-50htg Part TR150716C-50Htg Part DR-55
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-55
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.18 5.125 4.812
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor20.07 19.98 68.13 67.96
14.96 15.06 58.92 59.10
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 7388 7376 25208 25168
Sensible Capacity NA NA
Total System Power Input 1590 1499 1590 1499
Compressor Power Input 1291 1207 1291 1207
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 5.50 5.87 5.5 5.87
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 50 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.0%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.07 14.96 19.98 15.06 °C 68.13 58.92 67.96 59.10 °F
Outlet Temperature DB/WB 31.14 31.19 °C 88.06 88.14 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.0%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 10.7 342 49.6 103
Compressor Discharge 1 57.6 903 130.9 252.2
Condenser Inlet 5 53.8 840 121.9 261.7
Condenser Outlet 4 30.5 581 84.2 259.1
Expansion Device Inlet 4 30.5 581 84.2 259.1
16.5 2.6
Evaporator Inlet 3 5.1 295 42.8 117.7
Evaporator Outlet 2 7.6 295 42.8 107.4
Evaporator Superheat 7.3 27.7
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1957 1957 1152 1152
Heating 50 Part LoadChemours DR-55
Base. Alt. Base. Alt.
NA NA NA NA
30.3 30.3 8 8
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
9.98 10.00 49.96 50
7.06 7.04 44.7 44.67
703 9.8 51.3 101.9
1826 54.9 135.7 264.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1871 29.0 86.9 271.4
Subcooling, at expan. device 16.3 2.3
1912 49.9 128.9 277.3
1871 29.0 86.9 271.4
2.4 18.9
809 6.0 41.2 117.4
732 6.0 45.6 106.2
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 51 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 93.9%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 98.0%
W Btu/hr 102.9%
W W 96.5%
W W 96.1%
W/W Btuh/W 102.1%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 59 Full Load
TR150716C-59Clg Full TR150716C-59Clg Full DR-55
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-55
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.18 5.125 4.812
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.03 27.07 80.65 80.72
18.97 19.01 66.15 66.21
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 12907 12650 44038 43163
Sensible Capacity 9246 9515 31548 32465
Total System Power Input 1981 1911 1981 1911
Compressor Power Input 1574 1513 1574 1513
Energy Efficiency Ratio (EER) 7.80 7.97 26.63 27.2
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 52 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.8%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.03 18.97 27.07 19.01 °C 80.65 66.15 80.72 66.21 °F
Outlet Temperature DB/WB 14.65 13.24 14.43 13.39 °C 58.37 55.83 57.98 56.11 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.1%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 20.8 421 61 130.2
Compressor Discharge 1 50.0 816 118.3 206.1
Condenser Inlet 2 48.3 787 114.2 212.4
Condenser Outlet 3 16.4 423 61.3 201.6
Expansion Device Inlet 3 16.4 423 61.3 201.6
11.9 7.6
Evaporator Inlet 4 10.6 350 50.8 136.9
Evaporator Outlet 5 19.0 405 58.8 134
Evaporator Superheat 5.3 24.1
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2205 2224 1298 1309
Cooling 59 Full LoadChemours DR-55
Base. Alt. Base. Alt.
NA NA NA NA
33.9 33.9 8.95 8.96
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
15.06 15.06 59.1 59.1
21.33 21.19 70.4 70.15
932 16.1 69.5 135.2
1491 47.9 122 216.3
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1438 16.3 61.6 208.5
Subcooling, at expan. device 13.6 10.6
1524 45.7 118.9 221.1
1438 16.3 61.6 208.5
4.4 22.4
977 10.4 51.1 141.7
952 14.9 66.2 138.1
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 53 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 93.9%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 97.7%
W Btu/hr 103.4%
W W 94.7%
W W 93.8%
W/W Btuh/W 104.3%
W/W W/W #DIV/0!
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 59 Part Load
TR150716C-59Clg Part TR150716C-59 Clg Part DR-55
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-55
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.18 5.125 4.812
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.00 27.01 80.60 80.62
19.04 19.04 66.28 66.27
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 9676 9452 33013 32250
Sensible Capacity 7488 7745 25550 26426
Total System Power Input 1160 1098 1160 1098
Compressor Power Input 866 812 866 812
Energy Efficiency Ratio (EER) 10.61 11.07 36.19 37.76
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 54 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.3%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.00 19.04 27.01 19.04 °C 80.6 66.28 80.62 66.27 °F
Outlet Temperature DB/WB 15.69 14.27 15.34 14.33 °C 60.25 57.69 59.62 57.8 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.1%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 21.4 427 61.9 139
Compressor Discharge 1 42.2 678 98.4 193.9
Condenser Inlet 2 40.7 660 95.7 199.7
Condenser Outlet 3 16.6 428 62.1 193.1
Expansion Device Inlet 3 16.6 428 62.1 193.1
13.4 3.8
Evaporator Inlet 4 12.0 367 53.3 144.6
Evaporator Outlet 5 19.7 392 56.9 143.2
Evaporator Superheat 6.7 20.7
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1954 1959 1150 1153
Cooling 59 Part LoadChemours DR-55
Base. Alt. Base. Alt.
NA NA NA NA
30.1 30.1 7.95 7.96
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
15.06 15.06 59.11 59.1
20.20 20.04 68.36 68.08
992 16.6 70.5 143.9
1415 36.9 107.9 205.3
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1384 16.7 61.9 200.7
Subcooling, at expan. device 15.7 7.9
1443 35.4 105.3 209.3
1384 16.7 61.9 200.7
6.3 20
1027 11.8 53.6 148.9
1022 13.8 67.4 148.3
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 55 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 93.9%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 97.3%
W Btu/hr 103.3%
W W 94.5%
W W 94.0%
W/W Btuh/W 103.6%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 68 Part Load
TR150716C-68Clg Part TR150716C-68 Clg Part DR-55
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-55
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.18 5.125 4.812
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.03 27.03 80.66 80.66
19.00 19.02 66.20 66.24
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 9345 9097 31884 31038
Sensible Capacity 7420 7662 25316 26144
Total System Power Input 1286 1215 1286 1215
Compressor Power Input 999 939 999 939
Energy Efficiency Ratio (EER) 8.92 9.24 30.44 31.53
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 56 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.3%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.03 19.00 27.03 19.02 °C 80.66 66.20 80.66 66.24 °F
Outlet Temperature DB/WB 15.83 14.39 15.49 14.47 °C 60.49 57.9 59.88 58.04 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.1%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 20.8 424 61.5 141.1
Compressor Discharge 1 46.2 733 106.3 222.4
Condenser Inlet 2 44.5 709 102.8 229
Condenser Outlet 3 21.3 487 70.6 221.3
Expansion Device Inlet 3 21.3 487 70.6 221.3
13.1 4.8
Evaporator Inlet 4 12.6 375 54.4 146.8
Evaporator Outlet 5 18.9 396 57.4 144.8
Evaporator Superheat 7.9 19.3
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1954 1959 1150 1153
Cooling 68 Part LoadChemours DR-55
Base. Alt. Base. Alt.
NA NA NA NA
30.2 30.2 7.98 7.99
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
20.02 20.03 68.04 68.06
25.06 24.92 77.11 76.86
1013 16.4 69.4 146.9
1616 41.3 115.2 234.4
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1593 21.4 70.3 231
Subcooling, at expan. device 15.1 8.4
1653 39.3 112.1 239.7
1593 21.4 70.3 231
7.1 17.8
1047 12.4 54.7 151.8
1036 14.1 66 150.3
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 57 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 93.9%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 104.7%
W Btu/hr NA
W W 97.4%
W W 96.7%
W/W Btuh/W NA
W/W W/W 107.7%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 68 Full Load
TR150716C-68 Htg Full TR150716C-68Htg Full DR-55
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-55
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.18 5.125 4.812
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor20.06 20.06 68.11 68.11
14.98 15.04 58.96 59.08
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 12464 13050 42526 44526
Sensible Capacity NA NA
Total System Power Input 2474 2410 2474 2410
Compressor Power Input 2095 2026 2095 2026
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 5.70 6.14 5.7 6.14
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 58 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.1%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.06 14.98 20.06 15.04 °C 68.11 58.96 68.11 59.08 °F
Outlet Temperature DB/WB 36.68 37.60 °C 98.03 99.68 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.2%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 17.3 407 59.1 130.7
Compressor Discharge 1 64.5 990 143.6 304.8
Condenser Inlet 5 61.4 940 136.4 315.5
Condenser Outlet 4 33.8 652 94.6 310.5
Expansion Device Inlet 4 33.8 652 94.6 310.5
13.8 5.6
Evaporator Inlet 3 12.1 395 57.3 155.2
Evaporator Outlet 2 15.0 382 55.4 135.3
Evaporator Superheat 5.9 21.9
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2207 2209 1299 1300
Heating 68 Full LoadChemours DR-55
Base. Alt. Base. Alt.
NA NA NA NA
33.9 34.0 8.96 8.98
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
19.93 19.99 67.88 67.98
15.47 15.26 59.85 59.47
845 15.1 63.1 122.6
2157 62.0 148.1 312.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
2190 34.8 92.8 317.6
Subcooling, at expan. device 14.7 7.2
2251 58.0 142.6 326.5
2190 34.8 92.8 317.6
5.6 21.3
1035 14.1 53.8 150.1
877 13.0 59 127.2
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 59 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 93.9%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 104.3%
W Btu/hr NA
W W 93.4%
W W 92.3%
W/W Btuh/W NA
W/W W/W 112.2%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 68 part Load
TR150716C-68 htg Part TR150716C-68Htg Part DR-55
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-55
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.18 5.125 4.812
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor20.06 20.03 68.10 68.05
14.99 15.04 58.98 59.08
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 8993 9379 30685 32001
Sensible Capacity NA NA
Total System Power Input 1569 1465 1569 1465
Compressor Power Input 1292 1193 1292 1193
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 6.65 7.46 6.65 7.46
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 60 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.1%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.06 14.99 20.03 15.04 °C 68.1 58.98 68.05 59.08 °F
Outlet Temperature DB/WB 33.45 34.00 °C 92.21 93.2 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.1%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 17.9 436 63.3 138.8
Compressor Discharge 1 56.8 885 128.4 274
Condenser Inlet 5 53.9 841 122 284.5
Condenser Outlet 4 32.4 609 88.4 280.1
Expansion Device Inlet 4 32.4 609 88.4 280.1
16.0 4.1
Evaporator Inlet 3 11.8 395 57.3 156.1
Evaporator Outlet 2 15.8 407 59.1 144.3
Evaporator Superheat 6.9 22.2
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1954 1956 1150 1151
Heating 68 part LoadChemours DR-55
Base. Alt. Base. Alt.
NA NA NA NA
30.2 30.2 7.97 7.98
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
19.94 19.98 67.89 67.97
16.21 16.03 61.18 60.85
893 17.4 64.3 129.5
1957 53.6 134.3 283.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1996 31.3 90.4 289.5
Subcooling, at expan. device 15.5 3.2
2044 50.0 129.1 296.4
1996 31.3 90.4 289.5
5.4 19.6
1024 14.1 53.2 148.5
928 15.1 60.4 134.6
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 61 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 93.9%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 98.6%
W Btu/hr 100.6%
W W 95.9%
W W 95.3%
W/W Btuh/W 103.2%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 77 Full Load
TR150716C-77 Clg Full TR150716C-77Clg Full DR-55
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-55
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.18 5.125 4.812
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.03 27.05 80.65 80.69
19.02 19.08 66.23 66.34
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 12045 11872 41096 40507
Sensible Capacity 9208 9258 31416 31589
Total System Power Input 2273 2180 2273 2180
Compressor Power Input 1894 1805 1894 1805
Energy Efficiency Ratio (EER) 6.13 6.32 20.91 21.57
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 62 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.2%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.03 19.02 27.05 19.08 °C 80.65 66.23 80.69 66.34 °F
Outlet Temperature DB/WB 14.71 13.58 14.68 13.77 °C 58.47 56.44 58.42 56.78 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.0%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 19.4 423 61.4 135
Compressor Discharge 1 56.1 892 129.4 266.3
Condenser Inlet 2 54.3 857 124.3 273.6
Condenser Outlet 3 25.9 543 78.8 262.9
Expansion Device Inlet 3 25.9 543 78.8 262.9
11.8 9.1
Evaporator Inlet 4 12.6 381 55.2 144.7
Evaporator Outlet 5 17.3 385 55.9 138.3
Evaporator Superheat 8.1 22.1
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2205 2209 1298 1300
Cooling 77 Full LoadChemours DR-55
Base. Alt. Base. Alt.
NA NA NA NA
34.2 34.2 9.03 9.03
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
25.01 24.99 77.02 76.98
31.04 30.91 87.88 87.63
975 16.3 67 141.4
1923 54.1 132.9 278.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1876 26.0 78.7 272.1
Subcooling, at expan. device 12.7 10.7
1964 51.3 129.7 284.9
1876 26.0 78.7 272.1
5.5 17.4
1045 12.9 54.7 151.6
998 13.3 63.1 144.8
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 63 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 93.9%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 98.1%
W Btu/hr 102.0%
W W 95.0%
W W 94.5%
W/W Btuh/W 104.0%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 86 Full Load
TR150716C-86Clg Full TR150716C-86Clg Full DR-55
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-55
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.18 5.125 4.812
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.00 27.02 80.60 80.64
18.99 19.02 66.19 66.24
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 11564 11341 39457 38694
Sensible Capacity 9045 9224 30863 31471
Total System Power Input 2478 2354 2478 2354
Compressor Power Input 2103 1987 2103 1987
Energy Efficiency Ratio (EER) 5.28 5.49 18.01 18.73
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 64 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.2%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.00 18.99 27.02 19.02 °C 80.6 66.19 80.64 66.24 °F
Outlet Temperature DB/WB 14.88 13.79 14.70 13.84 °C 58.79 56.82 58.46 56.92 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.7%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 19.4 415 60.2 137.9
Compressor Discharge 1 61.3 956 138.6 301.6
Condenser Inlet 2 59.1 918 133.1 309.5
Condenser Outlet 3 30.5 599 86.9 298.9
Expansion Device Inlet 3 30.5 599 86.9 298.9
11.6 10.4
Evaporator Inlet 4 13.4 382 55.4 147.8
Evaporator Outlet 5 17.1 383 55.6 139.6
Evaporator Superheat 8.8 19.5
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2204 2209 1297 1300
Cooling 86 Full LoadChemours DR-55
Base. Alt. Base. Alt.
NA NA NA NA
34.0 33.9 8.98 8.95
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
29.96 29.94 85.92 85.9
35.92 35.78 96.66 96.41
999 15.7 66.9 144.9
2175 59.2 142.4 315.5
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
2128 30.5 86.9 308.7
Subcooling, at expan. device 12.0 11.1
2226 56.2 138.3 322.9
2128 30.5 86.9 308.7
6.9 16.1
1076 13.0 56.1 156
1016 13.1 62.7 147.4
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 65 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 93.9%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 0.0%
W Btu/hr 0.0%
W W 0.0%
W W 0.0%
W/W Btuh/W 0.0%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 86 Part Load
TR150716C-86 Clg Part TR150716C-86Clg Part DR-55
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Chemours DR-55
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.18 5.125 4.812
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.02 27.02 80.63 80.63
19.00 -14.30 66.20 6.26
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 8468 8268 28892 28210
Sensible Capacity 7229 7291 24667 24876
Total System Power Input 1595 1515 1595 1515
Compressor Power Input 1316 1254 1316 1254
Energy Efficiency Ratio (EER) 6.14 6.33 20.94 21.6
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 66 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.4%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.02 19.00 27.02 -14.30 °C 80.63 66.20 80.63 6.26 °F
Outlet Temperature DB/WB 16.07 14.77 16.03 14.89 °C 60.92 58.59 60.85 58.81 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.4%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 20.4 425 61.7 145.2
Compressor Discharge 1 55.9 886 128.5 288.4
Condenser Inlet 2 53.8 847 122.9 296.2
Condenser Outlet 3 30.6 600 87 288.6
Expansion Device Inlet 3 30.6 600 87 288.6
12.8 7.7
Evaporator Inlet 4 13.9 387 56.2 150.6
Evaporator Outlet 5 18.1 401 58.2 147.7
Evaporator Superheat 9.3 17.6
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1947 1956 1146 1151
Cooling 86 Part LoadChemours DR-55
Base. Alt. Base. Alt.
NA NA NA NA
30.2 30.3 7.98 8.01
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
29.94 29.99 85.9 85.99
34.75 34.65 94.55 94.37
1048 16.5 68.8 152
2081 53.6 132.7 301.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
2064 30.6 87 299.3
Subcooling, at expan. device 13.5 8.9
2128 50.5 128.8 308.7
2064 30.6 87 299.3
8.0 15.2
1093 13.4 57 158.5
1071 14.6 64.5 155.4
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 67 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 87.9%
W Btu/hr NA
W W 88.2%
W W 87.1%
W/W Btuh/W NA
W/W W/W 100.0%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 32 Full Load
TR150716C-32htg Full TR150716C-32Htg Full L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full load Full load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor19.98 20.02 67.97 68.03
14.97 15.13 58.95 59.23
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 8355 7344 28507 25059
Sensible Capacity NA NA
Total System Power Input 2197 1938 2197 1938
Compressor Power Input 1812 1579 1812 1579
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 4.41 4.41 4.41 4.41
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 68 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.0%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 19.98 14.97 20.02 15.13 °C 67.97 58.95 68.03 59.23 °F
Outlet Temperature DB/WB 31.18 29.98 °C 88.12 85.96 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.1%
Inlet Temperature °C °F
Outlet Temperature °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 1.6 248 36 58
Compressor Discharge 1 62.4 1071 155.3 224.7
Condenser Inlet 5 58.0 969 140.5 235.1
Condenser Outlet 4 30.2 563 81.6 231.9
Expansion Device Inlet 4 30.2 563 81.6 231.9
16.1 67 9.7
Evaporator Inlet 3 2.0 167 24.2 71
Evaporator Outlet 2 3.3 190 27.5 58.4
Evaporator Superheat 6.9 40
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Heating 32 Full LoadHoneywell L41-2
Base. Alt. Base. Alt.
NA NA NA NA
Meth 17% Meth17 %
Air Air
2207 2207 1299 1299
Alternative
P [kPa] T (°C) T (°F) P [psia]
NA NA NA NA
34.0 34.0 8.98 8.99
27.76
34.8 70.3
1837 68.5 144.4 266.4
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
Subcooling, at expan. device 12.4 3.1
1914 60.3 136.4 277.6
1880 27.6 86.4 272.7
4.4 19.6
0.08 0.08 32.15 32.14
2.69 2.36 27.16
609 4.3 28.4 88.4
506 2.5 26.1 73.4
1880 27.6 86.4 272.7
485 2.2
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 69 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 87.7%
W Btu/hr #DIV/0!
W W 87.9%
W W 86.9%
W/W Btuh/W NA
W/W W/W 100.0%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 41 Part Load
TR150716C-41Htg Part TR150716C-41Htg Part L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor20.03 20.02 68.05 68.03
15.00 15.09 59.00 59.16
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 6641 5824 22660 19872
Sensible Capacity NA NA
Total System Power Input 1578 1387 1578 1387
Compressor Power Input 1294 1125 1294 1125
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 4.95 4.95 4.95 4.95
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 70 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.8%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.03 15.00 20.02 15.09 °C 68.05 59.00 68.03 59.16 °F
Outlet Temperature DB/WB 30.01 28.81 °C 86.01 83.86 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.1%
Inlet Temperature °C °F
Outlet Temperature °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 7.4 298 43.2 75.6
Compressor Discharge 1 59.1 1000 145.1 216
Condenser Inlet 5 54.7 908 131.7 226
Condenser Outlet 4 29.4 552 80.1 222.5
Expansion Device Inlet 4 29.4 552 80.1 222.5
16.6 57 8.2
Evaporator Inlet 3 1.7 219 31.7 85.7
Evaporator Outlet 2 3.6 258 37.4 76.3
Evaporator Superheat 7.0 31.1
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1954 1950 1150 1148
Heating 41 Part LoadHoneywell L41-2
Base. Alt. Base. Alt.
NA NA NA NA
30.1 30.2 7.96 7.97
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
5.06 5.06 41.11 41.1
2.49 2.80 36.48 37.04
614 6.2 45.3 89
1764 62.8 138.3 255.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1809 26.7 84.9 262.4
Subcooling, at expan. device 13.2 2.1
1843 55.4 130.4 267.3
1809 26.7 84.9 262.4
0.5 19.4
711 0.2 35 103.1
636 3.0 38.5 92.3
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 71 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 92.0%
W Btu/hr NA
W W 88.5%
W W 87.1%
W/W Btuh/W NA
W/W W/W 104.3%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 50 Full Load
TR150716C-50htg Full TR150716C-50htg Full L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor19.99 19.99 67.99 67.99
14.99 15.04 58.99 59.07
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 10386 9558 35438 32613
Sensible Capacity NA NA
Total System Power Input 2335 2067 2335 2067
Compressor Power Input 1929 1681 1929 1681
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 5.17 5.39 5.17 5.39
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 72 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.2%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 19.99 14.99 19.99 15.04 °C 67.99 58.99 67.99 59.07 °F
Outlet Temperature DB/WB 33.90 32.87 °C 93.02 91.16 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.6%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 10.7 320 46.4 83.9
Compressor Discharge 1 62.4 1020 147.9 244.9
Condenser Inlet 5 58.8 951 137.9 256.2
Condenser Outlet 4 31.9 593 86 251.2
Expansion Device Inlet 4 31.9 593 86 251.2
14.8 76 11
Evaporator Inlet 3 5.6 272 39.4 100.5
Evaporator Outlet 2 6.8 291 42.2 85.1
Evaporator Superheat 5.6 30.9
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2204 2209 1297 1300
Heating 50 Full LoadHoneywell L41-2
Base. Alt. Base. Alt.
NA NA NA NA
34.0 34.1 8.97 9.02
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
9.99 9.99 49.99 49.99
6.38 6.65 43.49 43.97
661 8.0 51.3 95.8
1991 64.4 144.3 288.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
2029 30.0 89.4 294.3
Subcooling, at expan. device 11.7 5.3
2071 58.8 137.8 300.4
2029 30.0 89.4 294.3
0.6 21.9
821 4.1 42 119.1
689 5.7 44.2 100
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 73 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 90.6%
W Btu/hr NA
W W 87.0%
W W 86.3%
W/W Btuh/W NA
W/W W/W 104.2%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 50 Part Load
TR150716C-50htg Part TR150716C-50htg Part L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor20.07 20.03 68.13 68.06
14.96 15.06 58.92 59.11
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 7388 6695 25208 22843
Sensible Capacity NA NA
Total System Power Input 1590 1384 1590 1384
Compressor Power Input 1291 1114 1291 1114
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 5.50 5.73 5.5 5.73
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 74 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.7%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.07 14.96 20.03 15.06 °C 68.13 58.92 68.06 59.11 °F
Outlet Temperature DB/WB 31.14 30.21 °C 88.06 86.38 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.0%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 10.7 363 52.6 90.4
Compressor Discharge 1 57.6 957 138.8 225.1
Condenser Inlet 5 53.8 889 128.9 235.3
Condenser Outlet 4 30.5 563 81.7 231.2
Expansion Device Inlet 4 30.5 563 81.7 231.2
16.5 65 9.4
Evaporator Inlet 3 5.1 272 39.4 100.4
Evaporator Outlet 2 7.6 310 45 92.2
Evaporator Superheat 7.3 29.5
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
1.4 18.9
809 4.1 41.2 117.4
732 7.2 45.6 106.2
1871 27.6 86.9 271.4
Subcooling, at expan. device 12.6 2.3
1912 53.8 128.9 277.3
1871 27.6 86.9 271.4
703 11.4 51.3 101.9
1826 59.3 135.7 264.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
9.98 10.01 49.96 50.01
7.06 7.33 44.7 45.19
NA NA NA NA
30.3 30.3 8 8
NA NA NA NA
Meth 17% Meth17 %
Air Air
1957 1950 1152 1148
Heating 50 Part LoadHoneywell L41-2
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 75 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.7%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.07 14.96 20.03 15.06 °C 68.13 58.92 68.06 59.11 °F
Outlet Temperature DB/WB 31.14 30.21 °C 88.06 86.38 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.0%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 10.7 363 52.6 90.4
Compressor Discharge 1 57.6 957 138.8 225.1
Condenser Inlet 5 53.8 889 128.9 235.3
Condenser Outlet 4 30.5 563 81.7 231.2
Expansion Device Inlet 4 30.5 563 81.7 231.2
16.5 65 9.4
Evaporator Inlet 3 5.1 272 39.4 100.4
Evaporator Outlet 2 7.6 310 45 92.2
Evaporator Superheat 7.3 29.5
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1957 1950 1152 1148
Heating 50 Part LoadHoneywell L41-2
Base. Alt. Base. Alt.
NA NA NA NA
30.3 30.3 8 8
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
9.98 10.01 49.96 50.01
7.06 7.33 44.7 45.19
703 11.4 51.3 101.9
1826 59.3 135.7 264.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1871 27.6 86.9 271.4
Subcooling, at expan. device 12.6 2.3
1912 53.8 128.9 277.3
1871 27.6 86.9 271.4
1.4 18.9
809 4.1 41.2 117.4
732 7.2 45.6 106.2
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 76 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 91.9%
W Btu/hr 98.5%
W W 88.8%
W W 87.9%
W/W Btuh/W 103.9%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 59 Full Load
TR150716C-59Clg Full TR150716C-59Clg Full L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.03 27.04 80.65 80.67
18.97 18.97 66.15 66.15
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 12907 11856 44038 40453
Sensible Capacity 9246 9109 31548 31081
Total System Power Input 1981 1759 1981 1759
Compressor Power Input 1574 1383 1574 1383
Energy Efficiency Ratio (EER) 7.80 8.11 26.63 27.67
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 77 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 91.9%
W Btu/hr 98.5%
W W 88.8%
W W 87.9%
W/W Btuh/W 103.9%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 59 Full Load
TR150716C-59Clg Full TR150716C-59Clg Full L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.03 27.04 80.65 80.67
18.97 18.97 66.15 66.15
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 12907 11856 44038 40453
Sensible Capacity 9246 9109 31548 31081
Total System Power Input 1981 1759 1981 1759
Compressor Power Input 1574 1383 1574 1383
Energy Efficiency Ratio (EER) 7.80 8.11 26.63 27.67
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 78 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.2%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.03 18.97 27.04 18.97 °C 80.65 66.15 80.67 66.15 °F
Outlet Temperature DB/WB 14.65 13.24 14.87 13.73 °C 58.37 55.83 58.76 56.72 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.2%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 20.8 447 64.9 119
Compressor Discharge 1 50.0 829 120.2 184.4
Condenser Inlet 2 48.3 796 115.5 189.9
Condenser Outlet 3 16.4 421 61.1 180
Expansion Device Inlet 3 16.4 421 61.1 180
11.9 87 12.6
Evaporator Inlet 4 10.6 343 49.7 123.3
Evaporator Outlet 5 19.0 401 58.2 120.9
Evaporator Superheat 5.3 24.7
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2205 2210 1298 1301
Cooling 59 Full LoadHoneywell L41-2
Base. Alt. Base. Alt.
NA NA NA NA
33.9 34.0 8.95 8.97
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
15.06 15.04 59.1 59.08
21.33 20.78 70.4 69.4
932 18.3 69.5 135.2
1491 49.0 122 216.3
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1438 16.2 61.6 208.5
Subcooling, at expan. device 10.8 10.6
1524 46.4 118.9 221.1
1438 16.2 61.6 208.5
4.1 22.4
977 9.8 51.1 141.7
952 14.6 66.2 138.1
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 79 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 89.3%
W Btu/hr 95.1%
W W 87.5%
W W 86.3%
W/W Btuh/W 102.0%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 59 Part Load
TR150716C-59Clg Part TR150716C-59Clg Part L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.00 27.02 80.60 80.64
19.04 19.08 66.28 66.34
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 9676 8639 33013 29475
Sensible Capacity 7488 7122 25550 24300
Total System Power Input 1160 1015 1160 1015
Compressor Power Input 866 747 866 747
Energy Efficiency Ratio (EER) 10.61 10.82 36.19 36.93
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 80 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.9%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.00 19.04 27.02 19.08 °C 80.6 66.28 80.64 66.34 °F
Outlet Temperature DB/WB 15.69 14.27 16.26 14.83 °C 60.25 57.69 61.26 58.69 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.9%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 21.4 472 68.5 126.2
Compressor Discharge 1 42.2 742 107.6 174.3
Condenser Inlet 2 40.7 716 103.9 180.2
Condenser Outlet 3 16.6 422 61.2 173.2
Expansion Device Inlet 3 16.6 422 61.2 173.2
13.4 69 10
Evaporator Inlet 4 12.0 356 51.7 128.7
Evaporator Outlet 5 19.7 443 64.2 128.5
Evaporator Superheat 6.7 24.5
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1954 1952 1150 1149
Cooling 59 Part LoadHoneywell L41-2
Base. Alt. Base. Alt.
NA NA NA NA
30.1 30.1 7.95 7.94
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
15.06 15.06 59.11 59.11
20.20 19.65 68.36 67.37
992 20.3 70.5 143.9
1415 42.0 107.9 205.3
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1384 16.2 61.9 200.7
Subcooling, at expan. device 12.2 7.9
1443 39.9 105.3 209.3
1384 16.2 61.9 200.7
4.2 20
1027 10.9 53.6 148.9
1022 17.9 67.4 148.3
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 81 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 89.5%
W Btu/hr 94.6%
W W 91.3%
W W 90.9%
W/W Btuh/W 97.4%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 68 Part Load
TR150716C-68Clg Part TR150716C-68Clg Part L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.03 27.06 80.66 80.70
19.00 19.01 66.20 66.22
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 9345 8361 31884 28529
Sensible Capacity 7420 7016 25316 23940
Total System Power Input 1286 1174 1286 1174
Compressor Power Input 999 908 999 908
Energy Efficiency Ratio (EER) 8.92 8.69 30.44 29.65
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 82 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.8%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.03 19.00 27.06 19.01 °C 80.66 66.20 80.7 66.22 °F
Outlet Temperature DB/WB 15.83 14.39 16.44 14.93 °C 60.49 57.9 61.6 58.87 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.7%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 20.8 453 65.7 125.2
Compressor Discharge 1 46.2 642 93.1 204.1
Condenser Inlet 2 44.5 624 90.5 209
Condenser Outlet 3 21.3 476 69.1 202.3
Expansion Device Inlet 3 21.3 476 69.1 202.3
13.1 88 12.7
Evaporator Inlet 4 12.6 365 53 132.1
Evaporator Outlet 5 18.9 440 63.8 129.1
Evaporator Superheat 7.9 22.3
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1954 1950 1150 1148
Cooling 68 Part LoadHoneywell L41-2
Base. Alt. Base. Alt.
NA NA NA NA
30.2 30.1 7.98 7.96
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
20.02 20.04 68.04 68.07
25.06 24.57 77.11 76.23
1013 18.7 69.4 146.9
1616 33.9 115.2 234.4
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1593 20.6 70.3 231
Subcooling, at expan. device 10.7 8.4
1653 32.5 112.1 239.7
1593 20.6 70.3 231
5.4 17.8
1047 11.7 54.7 151.8
1036 17.7 66 150.3
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 83 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 97.1%
W Btu/hr NA
W W 88.8%
W W 87.8%
W/W Btuh/W NA
W/W W/W 109.3%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 68 Full Load
TR150716C-68 Htg Full TR150716C-68 Htg Full L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor20.06 20.02 68.11 68.04
14.98 15.03 58.96 59.06
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 12464 12100 42526 41284
Sensible Capacity NA NA
Total System Power Input 2474 2196 2474 2196
Compressor Power Input 2095 1840 2095 1840
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 5.70 6.23 5.7 6.23
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 84 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.8%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.06 14.98 20.02 15.03 °C 68.11 58.96 68.04 59.06 °F
Outlet Temperature DB/WB 36.68 36.28 °C 98.03 97.3 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.1%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 17.3 428 62.1 115.2
Compressor Discharge 1 64.5 1015 147.2 269.7
Condenser Inlet 5 61.4 962 139.5 282.3
Condenser Outlet 4 33.8 628 91.1 275.1
Expansion Device Inlet 4 33.8 628 91.1 275.1
13.8 85 12.4
Evaporator Inlet 3 12.1 372 53.9 134.9
Evaporator Outlet 2 15.0 394 57.2 117.2
Evaporator Superheat 5.9 23.9
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2207 2204 1299 1297
Heating 68 Full LoadHoneywell L41-2
Base. Alt. Base. Alt.
NA NA NA NA
33.9 34.0 8.96 8.97
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
19.93 19.93 67.88 67.87
15.47 15.53 59.85 59.95
845 16.7 63.1 122.6
2157 64.0 148.1 312.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
2190 32.8 92.8 317.6
Subcooling, at expan. device 10.9 7.2
2251 59.7 142.6 326.5
2190 32.8 92.8 317.6
4.5 21.3
1035 12.2 53.8 150.1
877 14.0 59 127.2
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 85 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 95.2%
W Btu/hr NA
W W 85.9%
W W 84.6%
W/W Btuh/W NA
W/W W/W 111.0%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 68 part Load
TR150716C-68 htg Part TR150716C-68 htg Part L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor20.06 20.08 68.10 68.15
14.99 15.04 58.98 59.08
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 8993 8558 30685 29200
Sensible Capacity NA NA
Total System Power Input 1569 1348 1569 1348
Compressor Power Input 1292 1093 1292 1093
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 6.65 7.38 6.65 7.38
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 86 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.1%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.06 14.99 20.08 15.04 °C 68.1 58.98 68.15 59.08 °F
Outlet Temperature DB/WB 33.45 32.99 °C 92.21 91.39 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 101.0%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 17.9 446 64.7 121.8
Compressor Discharge 1 56.8 923 133.9 244.2
Condenser Inlet 5 53.9 874 126.7 255.3
Condenser Outlet 4 32.4 594 86.1 249.9
Expansion Device Inlet 4 32.4 594 86.1 249.9
16.0 72 10.5
Evaporator Inlet 3 11.8 371 53.8 135.1
Evaporator Outlet 2 15.8 419 60.7 124.9
Evaporator Superheat 6.9 23
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1954 1956 1150 1151
Heating 68 part LoadHoneywell L41-2
Base. Alt. Base. Alt.
NA NA NA NA
30.2 30.5 7.97 8.05
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
19.94 19.93 67.89 67.87
16.21 16.36 61.18 61.44
893 18.2 64.3 129.5
1957 56.6 134.3 283.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1996 30.1 90.4 289.5
Subcooling, at expan. device 11.9 3.2
2044 52.6 129.1 296.4
1996 30.1 90.4 289.5
5.0 19.6
1024 12.1 53.2 148.5
928 15.9 60.4 134.6
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 87 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 91.4%
W Btu/hr 96.6%
W W 89.0%
W W 87.8%
W/W Btuh/W 102.9%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 77 Full Load
TR150716C-77 Clg Full TR150716C-77 Clg Full L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.03 27.06 80.65 80.70
19.02 19.02 66.23 66.23
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 12045 11007 41096 37555
Sensible Capacity 9208 8894 31416 30346
Total System Power Input 2273 2023 2273 2023
Compressor Power Input 1894 1663 1894 1663
Energy Efficiency Ratio (EER) 6.13 6.31 20.91 21.52
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 88 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.2%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.03 19.02 27.06 19.02 °C 80.65 66.23 80.7 66.23 °F
Outlet Temperature DB/WB 14.71 13.58 15.18 14.08 °C 58.47 56.44 59.32 57.35 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.2%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 19.4 441 63.9 123.1
Compressor Discharge 1 56.1 938 136 241.9
Condenser Inlet 2 54.3 896 129.9 248.2
Condenser Outlet 3 25.9 538 78 239
Expansion Device Inlet 3 25.9 538 78 239
11.8 106 15.4
Evaporator Inlet 4 12.6 359 52.1 128.5
Evaporator Outlet 5 17.3 401 58.1 124.1
Evaporator Superheat 8.1 21.2
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2205 2210 1298 1301
Cooling 77 Full LoadHoneywell L41-2
Base. Alt. Base. Alt.
NA NA NA NA
34.2 33.9 9.03 8.96
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
25.01 24.97 77.02 76.94
31.04 30.49 87.88 86.88
975 17.7 67 141.4
1923 57.8 132.9 278.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1876 25.6 78.7 272.1
Subcooling, at expan. device 9.2 10.7
1964 54.4 129.7 284.9
1876 25.6 78.7 272.1
6.0 17.4
1045 11.2 54.7 151.6
998 14.5 63.1 144.8
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 89 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 91.7%
W Btu/hr 96.6%
W W 88.1%
W W 87.3%
W/W Btuh/W 104.3%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 86 Full Load
TR150716C-86Clg Full TR150716C-86Clg Full L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.00 27.06 80.60 80.71
18.99 19.07 66.19 66.32
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 11564 10602 39457 36173
Sensible Capacity 9045 8740 30863 29820
Total System Power Input 2478 2184 2478 2184
Compressor Power Input 2103 1836 2103 1836
Energy Efficiency Ratio (EER) 5.28 5.51 18.01 18.79
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 90 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.2%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.00 18.99 27.06 19.07 °C 80.6 66.19 80.71 66.32 °F
Outlet Temperature DB/WB 14.88 13.79 15.38 14.31 °C 58.79 56.82 59.69 57.75 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.8%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 19.4 436 63.3 125.9
Compressor Discharge 1 61.3 996 144.5 274.6
Condenser Inlet 2 59.1 949 137.6 282
Condenser Outlet 3 30.5 596 86.4 271.8
Expansion Device Inlet 3 30.5 596 86.4 271.8
11.6 112 16.3
Evaporator Inlet 4 13.4 368 53.4 131.7
Evaporator Outlet 5 17.1 402 58.3 126.3
Evaporator Superheat 8.8 19.5
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2204 2209 1297 1300
Cooling 86 Full LoadHoneywell L41-2
Base. Alt. Base. Alt.
NA NA NA NA
34.0 33.9 8.98 8.96
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
29.96 29.96 85.92 85.92
35.92 35.40 96.66 95.72
999 17.4 66.9 144.9
2175 62.5 142.4 315.5
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
2128 30.2 86.9 308.7
Subcooling, at expan. device 8.7 11.1
2226 58.7 138.3 322.9
2128 30.2 86.9 308.7
6.9 16.1
1076 11.9 56.1 156
1016 14.6 62.7 147.4
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 91 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 92.7%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 91.5%
W Btu/hr 96.5%
W W 88.2%
W W 87.9%
W/W Btuh/W 103.8%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Energy Efficiency Ratio (EER) 6.14 6.37 20.94 21.73
Coeff. Of Performance (COP) NA NA
Total System Power Input 1595 1407 1595 1407
Compressor Power Input 1316 1157 1316 1157
Total Capacity 8468 7752 28892 26449
Sensible Capacity 7229 6974 24667 23795
Ambient
Temps.
Indoor27.02 27.01 80.63 80.62
19.00 18.99 66.20 66.19
OutdoorNA NA NA NA
NA NA NA NA
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.15 5.125 4.75
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Basic Information Cooling 86 Part Load
TR150716C-86 Clg Part TR150716C-86 Clg Part L41-2
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Honeywell L41-2
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 92 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.2%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.02 19.00 27.01 18.99 °C 80.63 66.20 80.62 66.19 °F
Outlet Temperature DB/WB 16.07 14.77 16.47 15.16 °C 60.92 58.59 61.64 59.28 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.9%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 20.4 448 65 133.9
Compressor Discharge 1 55.9 905 131.2 263.5
Condenser Inlet 2 53.8 860 124.7 270.3
Condenser Outlet 3 30.6 602 87.3 263.2
Expansion Device Inlet 3 30.6 602 87.3 263.2
12.8 90 13.1
Evaporator Inlet 4 13.9 379 55 136.6
Evaporator Outlet 5 18.1 421 61.1 136
Evaporator Superheat 9.3 17.3
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
8.2 15.2
1093 12.8 57 158.5
1071 16.2 64.5 155.4
2064 30.7 87 299.3
Subcooling, at expan. device 10.5 8.9
2128 51.5 128.8 308.7
2064 30.7 87 299.3
1048 18.3 68.8 152
2081 55.1 132.7 301.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline Alternative
P [kPa] T (°C) T (°F) P [psia]
29.94 29.92 85.9 85.86
34.75 34.31 94.55 93.75
NA NA NA NA
30.2 30.2 7.98 7.97
NA NA NA NA
Meth 17% Meth17 %
Air Air
1947 1950 1146 1148
Cooling 86 Part LoadHoneywell L41-2
Base. Alt. Base. Alt.
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 93 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 100.0%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 100.0%
W Btu/hr NA
W W 108.0%
W W 109.2%
W/W Btuh/W NA
W/W W/W 91.8%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 32 Full Load
TR150716C-32htg Full TR150716C-32Htg Full R32
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Daikin R32
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full load Full load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.32 5.125 5.125
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor19.98 20.04 67.97 68.07
14.97 15.08 58.95 59.15
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 8355 8359 28507 28520
Sensible Capacity NA NA
Total System Power Input 2197 2372 2197 2372
Compressor Power Input 1812 1979 1812 1979
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 4.41 4.05 4.41 4.05
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 94 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.8%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 19.98 14.97 20.04 15.08 °C 67.97 58.95 68.07 59.15 °F
Outlet Temperature DB/WB 31.18 31.43 °C 88.12 88.58 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.6%
Inlet Temperature °C °F
Outlet Temperature °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 1.6 206 29.9 76.2
Compressor Discharge 1 62.4 889 129 269.8
Condenser Inlet 5 58.0 812 117.8 280.7
Condenser Outlet 4 30.2 595 86.3 276.2
Expansion Device Inlet 4 30.2 595 86.3 276.2
16.1 4.9
Evaporator Inlet 3 2.0 196 28.4 91.4
Evaporator Outlet 2 3.3 171 24.8 76.4
Evaporator Superheat 6.9 31.9
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Heating 32 Full LoadDaikin R32
Base. Alt. Base. Alt.
NA NA NA NA
Meth 17% Meth17 %
Air Air
2207 2204 1299 1297
Alternative
P [kPa] T (°C) T (°F) P [psia]
NA NA NA NA
34.0 33.8 8.98 8.94
27.26
34.8 70.3
1837 53.9 144.4 266.4
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
Subcooling, at expan. device 15.1 3.1
1914 47.7 136.4 277.6
1880 30.2 86.4 272.7
0.1 19.6
0.08 0.08 32.15 32.14
2.69 2.63 27.16
609 2.0 28.4 88.4
506 4.0 26.1 73.4
1880 30.2 86.4 272.7
485 -1.2
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 95 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 100.0%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 104.6%
W Btu/hr NA
W W 107.0%
W W 108.1%
W/W Btuh/W NA
W/W W/W 96.8%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 41 Part Load
TR150716C-41Htg Part TR150716C-32htg Full R32
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Daikin R32
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.32 5.125 5.125
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor20.03 20.03 68.05 68.06
15.00 15.04 59.00 59.08
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 6641 6946 22660 23699
Sensible Capacity NA NA
Total System Power Input 1578 1689 1578 1689
Compressor Power Input 1294 1399 1294 1399
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 4.95 4.79 4.95 4.79
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 96 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.9%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.03 15.00 20.03 15.04 °C 68.05 59.00 68.06 59.08 °F
Outlet Temperature DB/WB 30.01 30.63 °C 86.01 87.13 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.1%
Inlet Temperature °C °F
Outlet Temperature °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 7.4 265 38.5 97.5
Compressor Discharge 1 59.1 852 123.5 265.4
Condenser Inlet 5 54.7 778 112.8 276.5
Condenser Outlet 4 29.4 590 85.6 272.7
Expansion Device Inlet 4 29.4 590 85.6 272.7
16.6 5.1
Evaporator Inlet 3 1.7 250 36.2 108.3
Evaporator Outlet 2 3.6 239 34.7 98
Evaporator Superheat 7.0 25.8
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1954 1952 1150 1149
Heating 41 Part LoadDaikin R32
Base. Alt. Base. Alt.
NA NA NA NA
30.1 30.2 7.96 7.97
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
5.06 5.06 41.11 41.1
2.49 2.39 36.48 36.31
614 3.6 45.3 89
1764 50.8 138.3 255.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1809 29.8 84.9 262.4
Subcooling, at expan. device 14.9 2.1
1843 44.9 130.4 267.3
1809 29.8 84.9 262.4
3.4 19.4
711 2.3 35 103.1
636 1.5 38.5 92.3
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 97 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 100.0%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 110.7%
W Btu/hr NA
W W 110.1%
W W 111.4%
W/W Btuh/W NA
W/W W/W 99.6%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 50 Full Load
TR150716C-50htg Full TR150716C-50htg Full R32
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Daikin R32
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.32 5.125 5.125
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor19.99 20.04 67.99 68.08
14.99 15.03 58.99 59.05
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 10386 11496 35438 39223
Sensible Capacity NA NA
Total System Power Input 2335 2570 2335 2570
Compressor Power Input 1929 2149 1929 2149
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 5.17 5.15 5.17 5.15
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 98 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.9%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 19.99 14.99 20.04 15.03 °C 67.99 58.99 68.08 59.05 °F
Outlet Temperature DB/WB 33.90 35.67 °C 93.02 96.21 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.8%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 10.7 283 41.1 106.2
Compressor Discharge 1 62.4 1003 145.5 317.2
Condenser Inlet 5 58.8 934 135.5 331.2
Condenser Outlet 4 31.9 623 90.4 324.8
Expansion Device Inlet 4 31.9 623 90.4 324.8
14.8 2.9
Evaporator Inlet 3 5.6 292 42.4 123
Evaporator Outlet 2 6.8 271 39.3 107.2
Evaporator Superheat 5.6 22.9
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2204 2202 1297 1296
Heating 50 Full LoadDaikin R32
Base. Alt. Base. Alt.
NA NA NA NA
34.0 33.9 8.97 8.95
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
9.99 9.99 49.99 49.98
6.38 5.99 43.49 42.78
661 5.1 51.3 95.8
1991 63.1 144.3 288.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
2029 32.4 89.4 294.3
Subcooling, at expan. device 16.2 5.3
2071 57.5 137.8 300.4
2029 32.4 89.4 294.3
5.1 21.9
821 5.8 42 119.1
689 4.1 44.2 100
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 99 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 100.0%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 109.4%
W Btu/hr NA
W W 105.3%
W W 106.3%
W/W Btuh/W NA
W/W W/W 103.3%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 50 Part Load
TR150716C-50htg Part TR150716C-50htg Part R32
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Daikin R32
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.32 5.125 5.125
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor20.07 20.01 68.13 68.01
14.96 15.02 58.92 59.03
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 7388 8082 25208 27577
Sensible Capacity NA NA
Total System Power Input 1590 1674 1590 1674
Compressor Power Input 1291 1372 1291 1372
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 5.50 5.68 5.5 5.68
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 100 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.8%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.07 14.96 20.01 15.02 °C 68.13 58.92 68.01 59.03 °F
Outlet Temperature DB/WB 31.14 32.36 °C 88.06 90.24 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.1%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 10.7 315 45.7 113
Compressor Discharge 1 57.6 840 121.9 285.5
Condenser Inlet 5 53.8 784 113.7 298.4
Condenser Outlet 4 30.5 618 89.6 293.2
Expansion Device Inlet 4 30.5 618 89.6 293.2
16.5 3.9
Evaporator Inlet 3 5.1 301 43.6 125.4
Evaporator Outlet 2 7.6 288 41.7 114.5
Evaporator Superheat 7.3 23.7
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1957 1954 1152 1150
Heating 50 Part LoadDaikin R32
Base. Alt. Base. Alt.
NA NA NA NA
30.3 30.0 8 7.93
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
9.98 10.00 49.96 50
7.06 6.75 44.7 44.15
703 7.6 51.3 101.9
1826 49.9 135.7 264.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1871 32.0 86.9 271.4
Subcooling, at expan. device 15.6 2.3
1912 45.4 128.9 277.3
1871 32.0 86.9 271.4
4.6 18.9
809 6.4 41.2 117.4
732 5.4 45.6 106.2
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 101 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 100.0%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 104.4%
W Btu/hr 106.3%
W W 106.0%
W W 107.2%
W/W Btuh/W 98.3%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 59 Full Load
TR150716C-59Clg Full TR150716C-59Clg Full R32
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Daikin R32
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.32 5.125 5.125
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.03 27.04 80.65 80.67
18.97 19.02 66.15 66.24
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 12907 13478 44038 45987
Sensible Capacity 9246 9831 31548 33545
Total System Power Input 1981 2099 1981 2099
Compressor Power Input 1574 1687 1574 1687
Energy Efficiency Ratio (EER) 7.80 7.67 26.63 26.18
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 102 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.2%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.03 18.97 27.04 19.02 °C 80.65 66.15 80.67 66.24 °F
Outlet Temperature DB/WB 14.65 13.24 13.89 12.93 °C 58.37 55.83 57.01 55.28 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.2%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 20.8 401 58.1 140.8
Compressor Discharge 1 50.0 865 125.4 228.5
Condenser Inlet 2 48.3 827 120 234.7
Condenser Outlet 3 16.4 410 59.5 225.7
Expansion Device Inlet 3 16.4 410 59.5 225.7
11.9 #NAME?
Evaporator Inlet 4 10.6 350 50.8 143.9
Evaporator Outlet 5 19.0 356 51.7 141.6
Evaporator Superheat 5.3 22.3
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2205 2209 1298 1300
Cooling 59 Full LoadDaikin R32
Base. Alt. Base. Alt.
NA NA NA NA
33.9 34.0 8.95 8.97
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
15.06 15.07 59.1 59.12
21.33 21.62 70.4 70.92
932 14.5 69.5 135.2
1491 51.9 122 216.3
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1438 15.3 61.6 208.5
Subcooling, at expan. device #NAME? 10.6
1524 48.9 118.9 221.1
1438 15.3 61.6 208.5
5.4 22.4
977 10.4 51.1 141.7
952 10.9 66.2 138.1
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 103 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 100.0%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 101.5%
W Btu/hr 102.9%
W W 101.5%
W W 101.3%
W/W Btuh/W 100.0%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 59 Part Load
TR150716C-59Clg Part TR150716C-59Clg Part R32
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Daikin R32
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.32 5.125 5.125
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.00 27.05 80.60 80.69
19.04 19.02 66.28 66.23
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 9676 9818 33013 33498
Sensible Capacity 7488 7703 25550 26283
Total System Power Input 1160 1177 1160 1177
Compressor Power Input 866 877 866 877
Energy Efficiency Ratio (EER) 10.61 10.61 36.19 36.19
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 104 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.7%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.00 19.04 27.05 19.02 °C 80.6 66.28 80.69 66.23 °F
Outlet Temperature DB/WB 15.69 14.27 15.39 14.15 °C 60.25 57.69 59.7 57.47 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 101.3%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 21.4 425 61.7 148.4
Compressor Discharge 1 42.2 752 109 213.2
Condenser Inlet 2 40.7 723 104.9 219.1
Condenser Outlet 3 16.6 410 59.5 213.5
Expansion Device Inlet 3 16.6 410 59.5 213.5
13.4 -3.8
Evaporator Inlet 4 12.0 367 53.2 150.6
Evaporator Outlet 5 19.7 386 56 149.9
Evaporator Superheat 6.7 22.5
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell andChemours
Additional Notes
Air Air
1954 1949 1150 1147
Cooling 59 Part LoadDaikin R32
Base. Alt. Base. Alt.
NA NA NA NA
30.1 30.5 7.95 8.05
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
15.06 15.07 59.11 59.12
20.20 20.22 68.36 68.4
992 16.5 70.5 143.9
1415 42.8 107.9 205.3
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1384 15.3 61.9 200.7
Subcooling, at expan. device 19.9 7.9
1443 40.5 105.3 209.3
1384 15.3 61.9 200.7
5.3 20
1027 11.8 53.6 148.9
1022 13.3 67.4 148.3
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 105 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 100.0%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 101.5%
W Btu/hr 102.5%
W W 102.7%
W W 103.0%
W/W Btuh/W 98.2%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. Ratio
Degradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 68 Part Load
TR150716C-68Clg Part TR150716C-68Clg PartR32
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Daikin R32
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.32 5.125 5.125
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.03 27.00 80.66 80.60
19.00 18.98 66.20 66.17
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 9345 9489 31884 32378
Sensible Capacity 7420 7605 25316 25948
Total System Power Input 1286 1321 1286 1321
Compressor Power Input 999 1029 999 1029
Energy Efficiency Ratio (EER) 8.92 8.76 30.44 29.9
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 106 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.7%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.03 19.00 27.00 18.98 °C 80.66 66.20 80.6 66.17 °F
Outlet Temperature DB/WB 15.83 14.39 15.49 14.26 °C 60.49 57.9 59.88 57.67 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.0%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 20.8 421 61 150.2
Compressor Discharge 1 46.2 818 118.6 245.6
Condenser Inlet 2 44.5 782 113.4 252
Condenser Outlet 3 21.3 468 67.9 246.3
Expansion Device Inlet 3 21.3 468 67.9 246.3
13.1 5.3
Evaporator Inlet 4 12.6 372 53.9 152.3
Evaporator Outlet 5 18.9 383 55.6 151.7
Evaporator Superheat 7.9 21
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1954 1949 1150 1147
Cooling 68 Part LoadDaikin R32
Base. Alt. Base. Alt.
NA NA NA NA
30.2 30.2 7.98 7.98
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
20.02 20.00 68.04 68
25.06 25.13 77.11 77.23
1013 16.1 69.4 146.9
1616 48.1 115.2 234.4
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1593 19.9 70.3 231
Subcooling, at expan. device 14.8 8.4
1653 45.2 112.1 239.7
1593 19.9 70.3 231
6.1 17.8
1047 12.2 54.7 151.8
1036 13.1 66 150.3
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 107 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 100.0%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 115.6%
W Btu/hr #DIV/0!
W W 114.6%
W W 116.4%
W/W Btuh/W NA
W/W W/W 99.6%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 68 Full Load
TR150716C-68 Htg Full TR150716C-68 Htg Full R32
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Daikin R32
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.32 5.125 5.125
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor20.06 20.03 68.11 68.05
14.98 15.03 58.96 59.05
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 12464 14403 42526 49144
Sensible Capacity 0 0
Total System Power Input 2474 2835 2474 2835
Compressor Power Input 2095 2439 2095 2439
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 5.70 5.68 5.7 5.68
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 108 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.8%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.06 14.98 20.03 15.03 °C 68.11 58.96 68.05 59.05 °F
Outlet Temperature DB/WB 36.68 39.40 °C 98.03 102.92 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.2%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 17.3 412 59.7 143.2
Compressor Discharge 1 64.5 1167 169.3 359.6
Condenser Inlet 5 61.4 1109 160.9 379.5
Condenser Outlet 4 33.8 630 91.4 366.6
Expansion Device Inlet 4 33.8 630 91.4 366.6
13.8 11.1
Evaporator Inlet 3 12.1 387 56.1 159.9
Evaporator Outlet 2 15.0 376 54.5 144.7
Evaporator Superheat 5.9 22.8
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2207 2202 1299 1296
Heating 68 Full LoadDaikin R32
Base. Alt. Base. Alt.
NA NA NA NA
33.9 34.0 8.96 8.98
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
19.93 19.81 67.88 67.65
15.47 14.67 59.85 58.41
845 15.4 63.1 122.6
2157 76.3 148.1 312.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
2190 33.0 92.8 317.6
Subcooling, at expan. device 11.6 7.2
2251 71.6 142.6 326.5
2190 33.0 92.8 317.6
5.1 21.3
1035 13.4 53.8 150.1
877 12.5 59 127.2
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 109 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 100.0%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 115.3%
W Btu/hr NA
W W 106.7%
W W 107.6%
W/W Btuh/W NA
W/W W/W 107.4%
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Heating 68 part Load
TR150716C-68 htg Part TR150716C-68 htg Part R32
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Daikin R32
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Heating Heating
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.32 5.125 5.125
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor20.06 20.03 68.10 68.06
14.99 15.07 58.98 59.13
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 8993 10365 30685 35366
Sensible Capacity NA NA
Total System Power Input 1569 1674 1569 1674
Compressor Power Input 1292 1390 1292 1390
Energy Efficiency Ratio (EER) NA NA
Coeff. Of Performance (COP) 6.65 7.14 6.65 7.14
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 110 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 99.8%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 20.06 14.99 20.03 15.07 °C 68.1 58.98 68.06 59.13 °F
Outlet Temperature DB/WB 33.45 35.62 °C 92.21 96.11 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.3%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 17.9 435 63.1 154.1
Compressor Discharge 1 56.8 1015 147.2 319.3
Condenser Inlet 5 53.9 957 138.8 333.8
Condenser Outlet 4 32.4 623 90.3 326.4
Expansion Device Inlet 4 32.4 623 90.3 326.4
16.0 3.4
Evaporator Inlet 3 11.8 397 57.6 165.4
Evaporator Outlet 2 15.8 399 57.9 155.9
Evaporator Superheat 6.9 21.5
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
1954 1950 1150 1148
Heating 68 part LoadDaikin R32
Base. Alt. Base. Alt.
NA NA NA NA
30.2 30.2 7.97 7.99
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
19.94 19.92 67.89 67.85
16.21 15.59 61.18 60.06
893 17.3 64.3 129.5
1957 64.0 134.3 283.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1996 32.4 90.4 289.5
Subcooling, at expan. device 15.9 3.2
2044 59.3 129.1 296.4
1996 32.4 90.4 289.5
5.8 19.6
1024 14.2 53.2 148.5
928 14.4 60.4 134.6
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 111 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 100.0%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 104.3%
W Btu/hr 104.0%
W W 107.4%
W W 108.4%
W/W Btuh/W 96.5%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 77 Full Load
TR150716C-77 Clg Full TR150716C-77 Clg Full R32
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Daikin R32
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.32 5.125 5.125
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.03 27.07 80.65 80.72
19.02 19.05 66.23 66.29
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 12045 12558 41096 42848
Sensible Capacity 9208 9572 31416 32658
Total System Power Input 2273 2442 2273 2442
Compressor Power Input 1894 2053 1894 2053
Energy Efficiency Ratio (EER) 6.13 5.91 20.91 20.18
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 112 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.1%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.03 19.02 27.07 19.05 °C 80.65 66.23 80.72 66.29 °F
Outlet Temperature DB/WB 14.71 13.58 14.26 13.34 °C 58.47 56.44 57.67 56.02 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 99.1%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 19.4 407 59 146.5
Compressor Discharge 1 56.1 1008 146.2 298.1
Condenser Inlet 2 54.3 960 139.3 306.6
Condenser Outlet 3 25.9 529 76.7 296.9
Expansion Device Inlet 3 25.9 529 76.7 296.9
11.8 10
Evaporator Inlet 4 12.6 367 53.2 150.5
Evaporator Outlet 5 17.3 371 53.8 145.8
Evaporator Superheat 8.1 20.7
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2205 2207 1298 1299
Cooling 77 Full LoadDaikin R32
Base. Alt. Base. Alt.
NA NA NA NA
34.2 33.9 9.03 8.95
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
25.01 25.02 77.02 77.03
31.04 31.39 87.88 88.5
975 15.0 67 141.4
1923 63.4 132.9 278.9
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
1876 24.8 78.7 272.1
Subcooling, at expan. device 12.2 10.7
1964 59.6 129.7 284.9
1876 24.8 78.7 272.1
6.3 17.4
1045 11.8 54.7 151.6
998 12.1 63.1 144.8
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 113 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 100.0%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 104.0%
W Btu/hr 103.9%
W W 107.3%
W W 108.1%
W/W Btuh/W 96.7%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 86 Full Load
TR150716C-86Clg Full TR150716C-86Clg Full R32
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Daikin R32
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Full Load Full Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.32 5.125 5.125
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.00 27.02 80.60 80.63
18.99 18.99 66.19 66.19
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 11564 12025 39457 41031
Sensible Capacity 9045 9401 30863 32076
Total System Power Input 2478 2659 2478 2659
Compressor Power Input 2103 2273 2103 2273
Energy Efficiency Ratio (EER) 5.28 5.10 18.01 17.41
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 114 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.1%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.00 18.99 27.02 18.99 °C 80.6 66.19 80.63 66.19 °F
Outlet Temperature DB/WB 14.88 13.79 14.44 13.52 °C 58.79 56.82 57.99 56.33 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.2%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 19.4 410 59.5 148.6
Compressor Discharge 1 61.3 1094 158.6 336.6
Condenser Inlet 2 59.1 1039 150.7 346.7
Condenser Outlet 3 30.5 586 85 335.6
Expansion Device Inlet 3 30.5 586 85 335.6
11.6 10.7
Evaporator Inlet 4 13.4 373 54.1 153.1
Evaporator Outlet 5 17.1 365 53 148.2
Evaporator Superheat 8.8 20.3
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell and Chemours
Additional Notes
Air Air
2204 2205 1297 1298
Cooling 86 Full LoadDaikin R32
Base. Alt. Base. Alt.
NA NA NA NA
34.0 34.1 8.98 9
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
29.96 29.94 85.92 85.89
35.92 36.17 96.66 97.1
999 15.3 66.9 144.9
2175 70.3 142.4 315.5
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
2128 29.4 86.9 308.7
Subcooling, at expan. device 11.8 11.1
2226 65.9 138.3 322.9
2128 29.4 86.9 308.7
6.5 16.1
1076 12.3 56.1 156
1016 11.7 62.7 147.4
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 115 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Manufacturer WaterFurnace international Manufacturer Notation WF
Test
Base/Alt Test Request
SI Units IP Units Ratio
m³/min ft³/min
hp
rpm NA
kg lb 100.0%
kg lb 100.0%
kg/min lb/min NA
% wt
m² ft² 100.0%
m² ft² NA
db °C °F
wb °C °F
db °C °F
wb °C °F
W Btu/hr 103.2%
W Btu/hr 103.3%
W W 104.5%
W W 105.1%
W/W Btuh/W 0.0%
W/W W/W NA
Other System Changes (eg: l lsl-hx, flow control, hx fins and circuiting, vapor/liquid injection, etc.)
All charging is performed thru the liquid l ine.
System Data Base. Alt. RatioDegradation Coefficient – Cd
Seasonal Energy Efficiency Ratio - SEER
Heating Seasonal Performance Factor - HSPF
Basic Information Cooling 86 Part Load
TR150716C-86 Clg Part TR150716C-86 Clg PartR32
Alternative Refrigerant (Composition as Charged, % wt, if not proprietary) Daikin R32
Nominal Capacity and Type of Baseline System 38000 Btuh Cooling WLHP
Comparison Data Base. Alt. Base. Alt.
Alternative Lubricant Type and ISO Viscosity Emerson Ultra 22CC POE oil
Refrigerant and Lubricant of Baseline System R410A - Emerson Ultra 22CC POE oil
Make and Model of Baseline System WaterFurnace NDV038A101CTL
NA NA
Nominal Motor Size NA NA
Mode (Heating/Cooling) Cooling Cooling
Compressor Type Scroll-ZPS30K5 Scroll-ZPS30K5
Motor Speed Part Load Part Load
Expansion Device Type TXV TXV
Compressor Displacement NA NA
Refrigerant Mass Flow Rate NA NA NA NA
Composition, at compr. Inlet if applicable
Lubricant Charge - POE 0.60 0.60 1.313 1.313
Refrigerant Charge 2.32 2.32 5.125 5.125
Evaporator Face Area 0.4515 0.4515 4.86 4.86
Condenser Face Area - Coax Model BTSSC60 BTSSC60 BTSSC60 BTSSC60
Ambient
Temps.
Indoor27.02 27.04 80.63 80.68
19.00 19.01 66.20 66.21
OutdoorNA NA NA NA
NA NA NA NA
Total Capacity 8468 8740 28892 29822
Sensible Capacity 7229 7467 24667 25479
Total System Power Input 1595 1666 1595 1666
Compressor Power Input 1316 1383 1316 1383
Energy Efficiency Ratio (EER) 6.14 6.06 20.94 20.68
Coeff. Of Performance (COP) NA NA
AHRI Low GWP Alternative Refrigerants Evaluation Program Test report Checklist and Templates
Page 116 of 116
LOW-GWP AREP SOFT-OPTIMIZED SYSTEM TEST DATA FORM
Type of System WaterFurnace international Alternate Refrigerant
Air/Water Side Data SI Units IP Units RatioEvaporator
Heat Exchange Fluid
Flow Rate (gas) m³ /min ft³/min 100.0%
Flow Rate (l iquid) L/min gal/min NA
Inlet Temperature DB/WB 27.02 19.00 27.04 19.01 °C 80.63 66.20 80.68 66.21 °F
Outlet Temperature DB/WB 16.07 14.77 15.73 14.63 °C 60.92 58.59 60.32 58.33 °F
Condenser
Heat Exchange Fluid - Methanol by Vol
Flow Rate (gas) m³/min ft³/min NA
Flow Rate (l iquid) L/min gal/min 100.1%
Inlet Temperature DB/WB °C °F
Outlet Temperature DB/WB °C °F
Alternative
T (°C) P [kPa] T [°F] P [psia]
Compressor Suction 6 20.4 425 61.7 156.8
Compressor Discharge 1 55.9 996 144.4 318.4
Condenser Inlet 2 53.8 939 136.2 327.8
Condenser Outlet 3 30.6 586 85 319.1
Expansion Device Inlet 3 30.6 586 85 319.1
12.8 6.9
Evaporator Inlet 4 13.9 386 56 158.5
Evaporator Outlet 5 18.1 385 55.8 156.5
Evaporator Superheat 9.3 19
Data Source(s) for Refrigerant Properties
RefProp 8.0
Candidate Refrigerant properties supplied by HoneyWell andChemours
Additional Notes
Air Air
1947 1947 1146 1146
Cooling 86 Part LoadDaikin R32
Base. Alt. Base. Alt.
NA NA NA NA
30.2 30.2 7.98 7.99
NA NA NA NA
Meth 17% Meth17 %
Alternative
P [kPa] T (°C) T (°F) P [psia]
29.94 29.94 85.9 85.89
34.75 34.89 94.55 94.81
1048 16.5 68.8 152
2081 62.4 132.7 301.8
Refrigerant Side Data
Temperatures & PressuresBaseline Baseline
2064 29.4 87 299.3
Subcooling, at expan. device 13.9 8.9
2128 57.9 128.8 308.7
2064 29.4 87 299.3
7.2 15.2
1093 13.3 57 158.5
1071 13.2 64.5 155.4