a co maintenance index - ship efficiency · a co 2 maintenance index ......
TRANSCRIPT
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A CO2 Maintenance Index(Hull and Propeller Performance)
Torben Munk, [email protected] Efficiency ConferenceHamburg, September 2009
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Introduction
“Many ships are not operating at most profitable
propulsion conditions, due to problems checking
the speed and consumption” -- Torben Munk, Motorship 1999
“The shipping industry is faced with new challenges
and demands accurate prediction of resistance and
propulsion efficiency…” Classification Society 2007
“Hull Resistance Management”…”Performance
monitoring for hull conditions and fouling” -- SEEMP 2009
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Hull Condition and EmissionsAssessment of CO2 Emission Performance of Ships Marintek, 2005
“Reasons behind variation in CO2 index …hull and propeller fouling…
Establishing benchmark is key challenge to make use of index...”
GHG for Shipping and Implementation Guidance for
the Marine Fuel Sulphur Directive IMO Report, CE Delft, 2006
“…Indicators utilizing ship specific resistance curves, draft, speed and
consumption are more suitable to monitor hull performance…”
List of Early Action Measures to Reduce GHG EPA, 2007
“…These measures include methods of hull maintenance and advanced coatings to reduce fouling…”
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Hull Performance Factors
Age of ship
Time in port
Service speed
Water temperature
Port water (fouling pressure)
Loading conditions (changes in draft/duration)
Factors in your control (ranked)
�Frequency/efficiency of planned maintenance?
�Pre-treatment of hull surface: Spotblast? Fullblast?
�Hull coating selection in drydock
�Coating selection at newbuild
�Drydock time interval: 3 year? 5 year? 6 year?
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The CASPER® Service(Computerized Analysis of Ship PERformance)
A system of data collection and onshore analysis.
No additional software or instruments required.
In active use on hundreds of ships since 2003 with
over 1,000 ship-years experience.
(tankers, bulkers, ro-ro’s, boxships).
Compatible with all performance monitoring and data
recording systems.
Results of analysis is calculation of added resistance
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Definition of ”Added Resistance”The virtual resistance caused by degrated hull
and propeller condition, at design draft and design speed, as a percentage of the ”new ship”
total resistance.
Development of Added Resistance, normally expected
0%
5%
10%
15%
20%
25%
30%
35%
40%
0 10 20 30 40 50 60
Months out of dry-dock
Ad
ded
Resis
tan
ce
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Hydrodynamic Techniques [Revolutions used to calculate speed through water]
Theoretical Model
Length
Breadth
Draft
Displacement
Design Speed
Propeller Design and RPM
Trial Trip data adjusts this model
Actual “Performance Model”
Observations (evidence-based)
We find the three added resistances:1) Weather: wind and waves 2) Residual: trim, nozzles, engine degr.3) Fouling: affects resistance/wake
Step 1: Trial data is used to correct the wake and the resistance values.
Step 2: Constants for added resistance and weather resistance are adjusted.
Step 3: Ongoing statistical analysis of data to refine the mathematical model.
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Unique Aspects of ‘Observation’
Vessel in steady-state
(no changes in heading or power for 2-hour interval)
Performance Observations should be recorded
- any sea state < BF9
- any loading condition
- any speed
Speed Log reading is not used in calculation
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Noon Data vs Careful Data(not the same ships, but illustrating scatter in noon-data)
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Observation errors are detected
Speed, Power and Revolutions must fit
together in accordance with trial trip data
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Speed/fuel consumption curves calculated from added resistance
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Post-docking Analysis (sisters)(low cost hull pre-treatment = higher resistance outdocking)
18%Resistance
‘50% blast’
30%Resistance
‘10% blast’
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Cost-benefit metrics of hull/prop maintenance (Prop polishing equates 5 tons per day saving, hull cleaning 12 tons per day)
Containership
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Cost-benefit of Hull Cleaning (prior slide)
At 24 knots: saved 12 tons per day
Containership
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Long Port Stay 20% increase in hull resistance after 4-week stay
(speed loss approximately 0.9 kn or increase in fuel use 8 tons/day)
Suezmax
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Full hull blast can make major difference in hull/prop condition
20 year old bulker
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Time history of added resistance
VLCC on first docking
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Slime = Fuel LossRo-Ro
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Slime Removal - 5 t/day @ 17.5 kn
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Hull + Prop Cleaning
At 17 knots the savings on fuel was 6 tons per day
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Hull condition – at what cost?
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Full blasting in dock
Outdocking: 40% resistance (at 13 knots, 17 tons/day or more – 1 kn loss)
1st hull cleaning: 3% increase in resistance per month
2nd hull cleaning: 7% increase in resistance per month (21 tons/day or 1.4kn)
Drydock: 40% decrease in resistance (at 13 knots, 10 tons/day saving or 0.5 kn)
Aframax
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CO2 index used (design)
Definition: Gram CO2 per tons displacement per nautical mile
ICO2 = k1 x Dd2/3 x ct x v3/ ηtot / Dd/v
= k1 x (v2/ Dd1/3) x ct / ηtot
= k2 x F2 x ct / ηtot
Dd
Displacement at design draft
v Design service speed (at design draft)
Fd
Froude’s number, based on displacement (F = v / D1/6)
ct
Total resistance coefficient, design draft, design speed
ηtot
Total propulsion efficiency, (towing power / fuel power)
k, k1, k
2… constants
F is a measure of the relative speed and draft
ct is a measure of the expediency of the hull form
ηtot is a measure of the expediency of the propulsion system
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CO2 index used (total)
ICO2, service = ICO2,design x s
s = Dd1/3 x vactual
2 / (Dactual1/3 x vd
2) x (1+actual virtual added resistance factor)
I total = Idesign + Ioperation + Imaintenance
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Beyond Benchmarking- Driving down C02
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The CO2 Maintenance IndexHull and propeller condition
grams/tons disp./nautical mile
7.5223.960Total Index
0.6930.735Maintenance Index, CO2
6.8293.225Design Index,
CO2
2.3881.257Total Index
0.2200.233Maintenance Index
2.1681.024Design Index, Fuel
BallastLadenFuel / CO2 Index
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Sustaining hull/prop performance
Greatest C02 Reduction
1. Full hull blast in DDX
(higher cost, 10+ year old ships)
2. Propeller Polish intervals(low cost, little risk)
3. Hull Cleaning, condition-based(higher cost, higher risk)
4. Hull Coating Selection
(high quality coating)
Simplest CO2 Reduction
1. Propeller polish intervals(low cost, little risk)
2. Hull Cleaning, condition-based(higher cost, higher risk)
3. Full hull blast in DDX
(high cost, 10+ year old ships)
4. Hull Coating Selection(higher quality within supplier’s range)
Depends on age of fleet, FOC, docking intervals, etc.
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Examples of Index values for different ships
0
5
10
15
20
25
30
35
40
45
50
0 100 200 300 400
1000 t displacement
CO
2 i
nd
ex
Fast ferry
General cargo
Cruise ship
Container ship
Bulk carrier
Big tanker
Mean value curve Im = a/(Displacement)b
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Non-dimensional Index = I/Im
0
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
1.8
2
0 50 100 150 200 250 300 350 400
1000 t displacement
No
n-d
imen
sio
nal
Ind
ex
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Thank You!
Danke sehr!
Thank you for your attention