NV series
Induction VAV air volume control terminals
Description
Type designation
Technical data
- General
- Specification
- Installation instruction
Model overview dimensions /
Sound data NVOAOOB...
Sound data NVOCOOB...
Sound data NVOG.OB / NVON.OB
Sound data .NVOJ.OB / NVOQ OB...
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Induction VAV air volume control terminals Table of contents
Changes w/o notice or obligationRev 100426
1Changes w/o notice or obligation
Rev 100426
N - V - O - N - F - O - BPosition 1 : Product group Ordering example :
N = air volume control terminals N V O N F O B 1 6 0 R 0 5 0 0
O Position 3 : ( )Controls manufacturerO without controls
For controls contact our sales staff =
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N Position 4 : Outlet
N
V Position 2 : Function
O = not applicableV = VAV Induction terminal
W = VAV Induction terminal with controlled induction
F Position 5 : Reheat coil
O Position 6: Controls type function &( )
B Positon 7: Sensor
Heater capacityModel
Ordering codes Specials " "
N..1... - 3010 = 4 balancing dampers in Octopus’ outlet
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N..1... - 3006 = ‘Octopus’ with 6 outlets instead of 4
N..1... - 3016 = ‘Octopus’ with 6 outlets incl. balancing dampers
N..1... - FL = Flange connection 30mm for rectangularoutlet
Ordering information :
Standard terminals:
- quantity of terminals- complete 7 digit code- terminal size or model- air volume setting (V , V etc)- control handing (standard right side)- if applicable, electric reheat coil
capacity
max min
Non standard terminals:
- for non standard terminals a fulldescription and / or drawing arerequested
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1 = non standard specify separately ,
not applicablerectangular outlet4 circular outlets Octopusrectangular outlet and provision for integral hot water reheat coil4 circular outlets and provision for integral hot water reheat coilrectangular outlet and provision for integral electric reheat coil4 circular outlets and provision for integral electric reheat coilnon standard specify separately
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without reheat coil1-row hot water reheat2-row hot water reheat4-row hot water reheat1-stage 230VAC/1-phase electric reheat coil2-stage 230VAC/1-phase electric reheat coil3-stage 230VAC/1-phase electric reheat coil1-stage 400VAC/3-phase electric reheat coil2-stage 400VAC/3-phase electric reheat coilnon standard specify separately
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O without controlsFor controls, contact our sales staff
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not applicableFlo-cross , 2 x 12 point averaging and signal amplifying air flow sensor (standard)non standard, specify separately
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See above
Composition type designation:
Induction VAVair volume control terminals
Type designationNV.....
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N OAV
Technical dataType (NV.....)
Induction VAVair volume control terminals
Changes w/o notice or obligationRev 100426
Application
Types NV rectangular pressure-independent VAV air volumecontrol terminals are designed particularly for systems with high variations in heat load The terminals induce room air and mix it with conditioned primary air, maintaining a nearly constant air volume to the room thus providing sufficient air movement necessary to maintain occupant comfort even in extreme load variations.This specific characteristic means that cold air ‘dumping’ will not occur and that extremely low primary air temperatures can be used, without producing excessive differences between the supply and the room air temperature. The primary air is controlled by the patented airflow sensor type Flo-Cross . The Induction VAV terminals can be used for supply air applications in new or refurbishment projects.The terminals can optionally be supplied with a distribution plenum and a built-in hot water or electric reheat coil.
Pressure independent controlfunctions
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Features: ●
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Volume control range 100% to10%Low pressure loss over theterminalFactory fitted distributionplenum with built in hot wateror electric reheat coilOval shaped damper blade forlinear control characteristicsLow leakage damper, less than 1% of Vnom at 750 PaLow noise levelSuitable for all control functions (VAV, CAV, shut-off, etc.) To maximise system energy savings
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Flo-Cross , 2 x 12 points averaging and signal amplifying airflow sensor, better than 2.5% accuracy even with irregular duct approachMaintenance free
The rectangular discharge section is internally insulated
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Technical information
Casing
Insulation
Damper
Flo-Cross
Distribution plenum
Reheat coil
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Air-tight construction made of galvanized sheet steel with low casing leakage rate.
Damper blade made of steelsandwich construction with twinblades and a neoprene gasket withlow leakageDamper shaft aluminium,Φ12mm with self lubricating nylon bearings.
Extruded aluminium construction with nylon core and feet
Made of galvanised sheet steel with 13 mm internal isolation. Plenum with standard rectangular or multiple (4 x circular) outlet construction. Optional 1,2,3 or 6 circular outlets are possibleOutlet spigots are made ofgalvanised steel and optionally can be provided with volume control dampers
Choice of 1, 2 or 4-row hot water reheat coil or electric reheat coil (230VAC/1-phase or 400VAC/3-phase).
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Controls:Suitable for use with pneumatic, analogue electronic or DDC controllers. Controls can be factory fitted, wired and calibratedControls enclosure galvanisedsheet steel can be providedoptionally
The VAV or CAV terminal will be supplied as a single mounting assembly.
Controls location and hot water or electric connections are as standard fitted on the right hand side of the terminal when looking in the direction of the airflow
On request, the terminal can be delivered with connections on the left hand side.
When terminals are orderedwith controls, these will befactory fitted, wired andcalibrated upon request
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Delivery format:
Delivery format:●
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Optional ordered distribution plenum, reheat coil and/or controls are factory fitted, wired and calibrated. The terminal can be directly installed and commissioned when delivered to site.
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N OJV
Technical dataType (NV.....)
Induction VAVair volume control terminals
Specify as:
Example:Supply and install, induction variable air volume terminals with distribution plenum with 4 circular outlets, constructed from galvanized sheet steel. The VAV terminals shall have a special ‘jet-tronic’ low leakage damper blade and an aluminium damper shaft with self lubricating Nylon bearings.
A centre averaging airflow sensor with at least 2 x 12 test points and amplified signal air flow sensor, type Flo-Cross shall control the airflow with an accuracy not less than 2.5%. The terminals shall be supplied with 1-row hot water reheat coil.
Max. radiated sound index < NC25 (@250Pa Δp)
Ordering example type - model -handing= NVOJAOB - 200R
Manufacturer: HC Barcol-Air
®
The controller shall be I A Series, DDC controllerLonMark compatible, type MNL-V2RVxorBACnet, type MNB-V2.
Controls must be factory fitted, wired and calibrated according to the following requirements:
Miximum air volume 250 l/sMinimum air volume 60 l/sMinimum air volume 120 l/s (in case of reheat)Terminal size 200 mmMax. discharge sound index <NC25 (@250Pa Δp)
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Installation Instructions :
The HC Barcol-Air VAV terminalsshall be installed using at leasttwo support brackets, with anti-vibration rubber under theterminal. Each of these bracketsshall be fixed with two threadedrods to the ceiling slab above
The installation method1 Shall prevent the body of the
VAV terminal from highmechanical tension, which could damage the constructionand performance of the terminal
2 Shall prevent torsion on the induction VAV terminals, which could cause malfunction of the damper blades
3 Provides some flexibility to thefinal location of the VAVterminals
4 Use at least one diameterstraight duct length before theVAV inlet
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5 Additional manual volume control dampers VCD s before the unit inlet should not be used.
6 All connections shall bethermally isolated
7 Pressure sensing tubes ofFloCross airflow sensor shallnot be kinked or otherwiseobstructed by the externalduct insulation
See drawing below.
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suspension bracket for duct with anti-vibrationrubber against vibration and to avoid thermal bridge)
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‘Slip & Drive connections’
OPTIONAL MOUNTING STANDARD MOUNTING
optional: 4x duct fix ing hook contact HC Barcol-Air for further details
anti-vibration rubber inlaymounting rail M8ring M8hexagonal nut M8threaded end M8
Changes w/o notice or obligationRev 100426
Type N OC OBV . Type N OA OBV .
Model overviewType (NV.....)
Induction VAVair volume control terminals
Kv values
Changes w/o notice or obligationRev 100426
Type NVOG OB. Type NVOJ OB.
Type NVON OB. Type NVOQ OB.
For dimensions see page 4
Model overviewType (NV.....)
Induction VAVair volume control terminals
Changes w/o notice or obligationRev 100426
6
Sound data Δp = 150 Pa
Type (NVOAOOB)Induction VAVair volume control terminals
data refering to inlet spigot
air volume
discharge sound radiated soundLp valuesLp values
1.
Sound data is determined in a reverberationroom at an independent sound laboratory, according to ISO3741 and ISO 5135 standards.
2. Lw in dB/Oct.(re 1pW) are sound power levels for discharge sound and case radiated sound. Figures less than 17 dB are indicated by “-”.
3. The discharge sound pressure levels are determined with the assumptions as mentioned in table 1 for downstream ductwork including a diffuser with insulated plenum box.
4. The radiated sound pressure levels are determined with the assumptions as mentioned in table 1 for ceiling plenum and suspended ceiling absorption.
5. Lp values are including a room absorption of 10 dB/Oct.
6. DB(A), NC and NR index figures are sound pressure levels. Figures less than 20 are indicated by “- -”.
7. Δps is static pressure drop across VAV airvolume control terminal with damper fully open.
8. For non standard applications and/or selections, please contatct our technical staff.
Table 1 : Assumptions for additional attenuation
Talbe 2 : Insertion LossModel
Changes w/o notice or obligationRev 100426
Discharge (dB)Radiated (dB)
7
Sound data Δp = 250 Pa
Type (NVOAOOB)Induction VAVair volume control terminals
data refering to inlet spigot
air volume
discharge sound radiated soundLp valuesLp values
1.
Sound data is determined in a reverberationroom at an independent sound laboratory, according to ISO3741 and ISO 5135 standards.
2. Lw in dB/Oct.(re 1pW) are sound power levels for discharge sound and case radiated sound. Figures less than 17 dB are indicated by “-”.
3. The discharge sound pressure levels are determined with the assumptions as mentioned in table 1 for downstream ductwork including a diffuser with insulated plenum box.
4. The radiated sound pressure levels are determined with the assumptions as mentioned in table 1 for ceiling plenum and suspended ceiling absorption.
5. Lp values are including a room absorption of 10 dB/Oct.
6. DB(A), NC and NR index figures are sound pressure levels. Figures less than 20 are indicated by “- -”.
7. Δps is static pressure drop across VAV airvolume control terminal with damper fully open.
8. For non standard applications and/or selections, please contatct our technical staff.
Table 1 : Assumptions for additional attenuation
Talbe 2 : Insertion LossModel
Discharge (dB)Radiated (dB)
Changes w/o notice or obligationRev 100426
8
Sound data Δp = 150 Pa
Type (NVOCOOB)Induction VAVair volume control terminals
data refering to inlet spigot
air volume
discharge sound radiated soundLp valuesLp values
1.
Sound data is determined in a reverberationroom at an independent sound laboratory, according to ISO3741 and ISO 5135 standards.
2. Lw in dB/Oct.(re 1pW) are sound power levels for discharge sound and case radiated sound. Figures less than 17 dB are indicated by “-”.
3. The discharge sound pressure levels are determined with the assumptions as mentioned in table 1 for downstream ductwork including a diffuser with insulated plenum box.
4. The radiated sound pressure levels are determined with the assumptions as mentioned in table 1 for ceiling plenum and suspended ceiling absorption.
5. Lp values are including a room absorption of 10 dB/Oct.
6. DB(A), NC and NR index figures are sound pressure levels. Figures less than 20 are indicated by “- -”.
7. Δps is static pressure drop across VAV airvolume control terminal with damper fully open.
8. For non standard applications and/or selections, please contatct our technical staff.
Table 1 : Assumptions for additional attenuation
Talbe 2 : Insertion Loss
Discharge (dB)Radiated (dB)
Changes w/o notice or obligationRev 100426
9
Sound data Δp = 250 Pa
Type (NVOCOOB)Induction VAVair volume control terminals
data refering to inlet spigot
air volume
discharge sound radiated soundLp valuesLp values
1.
Sound data is determined in a reverberationroom at an independent sound laboratory, according to ISO3741 and ISO 5135 standards.
2. Lw in dB/Oct.(re 1pW) are sound power levels for discharge sound and case radiated sound. Figures less than 17 dB are indicated by “-”.
3. The discharge sound pressure levels are determined with the assumptions as mentioned in table 1 for downstream ductwork including a diffuser with insulated plenum box.
4. The radiated sound pressure levels are determined with the assumptions as mentioned in table 1 for ceiling plenum and suspended ceiling absorption.
5. Lp values are including a room absorption of 10 dB/Oct.
6. DB(A), NC and NR index figures are sound pressure levels. Figures less than 20 are indicated by “- -”.
7. Δps is static pressure drop across VAV airvolume control terminal with damper fully open.
8. For non standard applications and/or selections, please contatct our technical staff.
Table 1 : Assumptions for additional attenuation
Talbe 2 : Insertion Loss
Discharge (dB)Radiated (dB)
Changes w/o notice or obligationRev 100426
10
Type NVOG OB NVON OB. .Induction VAVair volume control terminalsSound data Δp = 150 Pa
data refering to inlet spigot
air volume
discharge sound radiated soundLp valuesLp values
1.
Sound data is determined in a reverberationroom at an independent sound laboratory, according to ISO3741 and ISO 5135 standards.
2. Lw in dB/Oct.(re 1pW) are sound power levels for discharge sound and case radiated sound. Figures less than 17 dB are indicated by “-”.
3. The discharge sound pressure levels are determined with the assumptions as mentioned in table 1 for downstream ductwork including a diffuser with insulated plenum box.
4. The radiated sound pressure levels are determined with the assumptions as mentioned in table 1 for ceiling plenum and suspended ceiling absorption.
5. Lp values are including a room absorption of 10 dB/Oct.
6. DB(A), NC and NR index figures are sound pressure levels. Figures less than 20 are indicated by “- -”.
7. Δps is static pressure drop across VAV airvolume control terminal with damper fully open.
8. For non standard applications and/or selections, please contatct our technical staff.
Table 1 : Assumptions for additional attenuation
Talbe 2 : Insertion Loss
Discharge (dB)Radiated (dB)
Changes w/o notice or obligationRev 100426
11
Type NVOG OB NVON OB. .Induction VAVair volume control terminalsSound data Δp = 250 Pa
data refering to inlet spigot
air volume
discharge sound radiated soundLp valuesLp values
1.
Sound data is determined in a reverberationroom at an independent sound laboratory, according to ISO3741 and ISO 5135 standards.
2. Lw in dB/Oct.(re 1pW) are sound power levels for discharge sound and case radiated sound. Figures less than 17 dB are indicated by “-”.
3. The discharge sound pressure levels are determined with the assumptions as mentioned in table 1 for downstream ductwork including a diffuser with insulated plenum box.
4. The radiated sound pressure levels are determined with the assumptions as mentioned in table 1 for ceiling plenum and suspended ceiling absorption.
5. Lp values are including a room absorption of 10 dB/Oct.
6. DB(A), NC and NR index figures are sound pressure levels. Figures less than 20 are indicated by “- -”.
7. Δps is static pressure drop across VAV airvolume control terminal with damper fully open.
8. For non standard applications and/or selections, please contatct our technical staff.
Table 1 : Assumptions for additional attenuation
Talbe 2 : Insertion Loss
Discharge (dB)Radiated (dB)
Changes w/o notice or obligationRev 100426
12
T NVOJ OB NVOQ OBype . .Induction VAVair volume control terminalsSound data Δp = 150 Pa
data refering to inlet spigot
air volume
discharge sound radiated soundLp valuesLp values
1.
Sound data is determined in a reverberationroom at an independent sound laboratory, according to ISO3741 and ISO 5135 standards.
2. Lw in dB/Oct.(re 1pW) are sound power levels for discharge sound and case radiated sound. Figures less than 17 dB are indicated by “-”.
3. The discharge sound pressure levels are determined with the assumptions as mentioned in table 1 for downstream ductwork including a diffuser with insulated plenum box.
4. The radiated sound pressure levels are determined with the assumptions as mentioned in table 1 for ceiling plenum and suspended ceiling absorption.
5. Lp values are including a room absorption of 10 dB/Oct.
6. DB(A), NC and NR index figures are sound pressure levels. Figures less than 20 are indicated by “- -”.
7. Δps is static pressure drop across VAV airvolume control terminal with damper fully open.
8. For non standard applications and/or selections, please contatct our technical staff.
Table 1 : Assumptions for additional attenuation
Talbe 2 : Insertion Loss
Discharge (dB)Radiated (dB)
Changes w/o notice or obligationRev 100426
Type NVOJ OB NVOQ OB. .
13
Induction VAVair volume control terminalsSound data Δp = 250 Pa
data refering to inlet spigot
air volume
discharge sound radiated soundLp valuesLp values
1.
Sound data is determined in a reverberationroom at an independent sound laboratory, according to ISO3741 and ISO 5135 standards.
2. Lw in dB/Oct.(re 1pW) are sound power levels for discharge sound and case radiated sound. Figures less than 17 dB are indicated by “-”.
3. The discharge sound pressure levels are determined with the assumptions as mentioned in table 1 for downstream ductwork including a diffuser with insulated plenum box.
4. The radiated sound pressure levels are determined with the assumptions as mentioned in table 1 for ceiling plenum and suspended ceiling absorption.
5. Lp values are including a room absorption of 10 dB/Oct.
6. DB(A), NC and NR index figures are sound pressure levels. Figures less than 20 are indicated by “- -”.
7. Δps is static pressure drop across VAV airvolume control terminal with damper fully open.
8. For non standard applications and/or selections, please contatct our technical staff.
Table 1 : Assumptions for additional attenuation
Talbe 2 : Insertion Loss
Discharge (dB)Radiated (dB)
Changes w/o notice or obligationRev 100426
HC Barcol-Air
No 16 Changhong Road Fengxiang Industrial AreaDaliang Shunde Foshan Guangdong China P S 528300Tel 0757 22382867Fax 0757 22382857www.barcolair.netwww.barcolair.cn
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