integrerte fremdriftssystem - muligheter og utfordri 23.05 ... · rolls-royce marine gas fuelled...
TRANSCRIPT
Design and Propulsion offerings.
BULKFORUM, 14/2-2011
23.05.2013 – S.N. KlokkIntegrerte fremdriftssystem - muligheter og utfordringer
Rolls-Royce Marine - S N Klokk
Februar 2015
Content
� Introduksjon, Rolls-Royce Marine
� Integrerte fremdriftssystem – leveringsomfang
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� Muligheter og utfordringer
Rolls-Royce at a glance
Aerospace Land & Sea
Civil Defence Marine Energy & Nuclear Power Systems
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55,000 people - in 45 countries
• Aero engines• Helicopter engines
• Aero engines• Helicopter
engines
• Equipment systems
• Ship Design
• Gas turbines• UK’s nuclear powered subs
• Marine and land based power systems
Ålesund Ulsteinvik BrattvågShip design, Ship design, Deck Machinery DP/Automation Thrusters & Gears Steering Gears
Ålesund Hjørungavåg LongvaTraining Centre Seismic & Subsea Automation & Controls
Rolls-Royce in the Nordics
... in total abt. 4300 employees
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Training Centre Seismic & Subsea Automation & Controls
BergenEnginesSteering GearsPower Electric Systems
KristinehamnPropellers/thrusters (POD)Waterjets
KokkolaWaterjets
RaumaDeck MachineryAzimuth thrusters
Rolls-Royce Marine – Customer offerings
Ship design and integrated ship
systems
Diesel and gas engines
Propulsion systems Azimuth thrusters
Gas turbines
Steering systems Electrical podded propulsors
Automation and control (including DP)
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Waterjets Winch systemsStabilising systemsTunnel thrusters
Rolls-Royce Marine
Opportunities – Marine LNG Fuelled Power Systems
� Trigged by Fuel costs (HFO/MD versus LNG), emission legislation (IMO), availability of efficient and reliable engines and a growing gas infrastructure, the market for LNG fuelled systems is increasing.
� LNG fuelled solutions, mature technology.
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� Rolls-Royce Marine is currently offering:
� Propulsion product supplies - that includes the Bergen C and B Gas engine and MTU engine versions
� Integrated, LNG fuelled ship power systems
and
� Vessel building specifications/designs for a variety of Offshore, Merchant and Naval vessels
Rolls-Royce Wave Piercing Technology
Rolls-Royce MarineGas Fuelled Propulsion Systems –
an integrated part of the Environship Concept
Rolls-Royce PROMAS
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Rolls-Royce Gas Engines & LNG Systems
Rolls-Royce HSG – Hybrid Shaft Generator
Rolls-Royce Marine Gas Fuelled Engines
• First lean-burn, spark plug ignited gas engine delivered in 1991
• Gas engines for marine propulsion in service since 2006
• More than 600 gas engines sold world wide. Power range 1400 kW to 8500 kW
• Machinery spaces are designed gas safe in all conditions, i.e.. inherently safer design
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in all conditions, i.e.. inherently safer design
• Enclosure on all gas-carrying pipes
• In case of leakages in inner pipe gas is collected in outer enclosure and ventilated to mast
• Indication (Alarm) given to the operator or shutdown of the relevant engine –depending on leakage size (% of LEL)
Rolls-Royce Marine Gas Engines
Bergen “Lean Burn” gas engines
� 92% reduced NOx emission � 22% reduced GHG emission� 98-100% reduced SOx emission� 98% reduced particulates
� Fast load response� Robust and reliable
Gas consumption & NOx for variable versus fixed RPM
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MJ
/kW
h
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6
9
12
g/k
Wh
NO
x
MJ/kWh propellercurve MJ/kWh 1000 rpm g/kWh NOx propellercurve NOx 1000 rpm
B3540V12 emissions 750 rpm constant speed
BMEP = 18.1 bar@MCR, Energy cosp.= 7630 kJ/kWh, Methane number = 81,2 Cycle averaged values E2:
Spec. NOx:Spec. CO:
[g/kWh]1,02
1,12
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0 % 20 % 40 % 60 % 80 % 100 %
Engine Power %
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20 30 40 50 60 70 80 90 100 110
Engine load [%]
Em
iss
ion
s [
g/k
Wh
]
ISO
En
erg
y c
os
p. [M
J/k
Wh
]
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100
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CO
2 [
g/k
Wh
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Specific NOx Specific CO Specific CH4 Energy consumption [MJ/kWh] Specific CO2
Spec. CO:Spec. Methane:Spec. CO2:
1,12
419
3,76
Rolls-Royce Marine LNG Fuel Systems
� A LNG Fuel System in our context comprise a storage tank (liquid gas) and a system for gas conditioning i.e. evaporation and temperature adjustment of the gas to the consumers (gas engines).
� Related to the above RRM also supply ACON GAS, for LNG Control and LNG Safety.
� Main design requirements as per the IGC code (IMO) and Regulations of
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� Main design requirements as per the IGC code (IMO) and Regulations of Class.
ControlPowerGas
Power Control and Distribution System
Aux. Gen. Set MDO
Helicon - X3
Integrated Automation System
ACON Gas, Control & Safety
LNG Bunkering StationAux. Gen. Set MDO
LNG Fuelled Propulsion System-Typical Configuration
HSG
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Steering gear
Promas Reduction Gear Bergen B32:40V12P
PTO/PTH
Shaft generator/motor TT
Tank Connect. Space
Aux. Gen. Set MDO
TT
System solution building blocks: Compliant with regulations for redundant machinery systems
Rolls-Royce Marine
Challenges
• System Design
• Realization
• Commissioning
• Operation
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• Operation
Rolls-Royce Marine
Challenges, System Design
System Integration, A&C
• IMO and Regulations of Class set minimum standards for safety (and quality).
Interpretation and following up varies.
•
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• Verified system integration that includes all relevant system building blocks
(internal and external) and interfaces safeguard in-service performance.
• Software development and validation control – HIL testing is one option.
• Failure rate/life time expectancy for critical A&C components –
our approach through “RRM Common Controls”.
• Environmental factors (e.g. vibrations, temperature).
Rolls-Royce Marine
Challenges, System Design
LNG Fuel Systems
• RRM is relying on ”thrusted suppliers” – but evident that marine experienceis still lacking.
Substantial efforts required:
Technical Requirement Specification – project based.
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� Technical Requirement Specification – project based.
� Prequalifying process implemented for ”thrusted suppliers”.
� Enhanced support and monitoring/logging.
• Low LNG temperatures and choppy sea - a challenge for gravity feed LNG systems.
Mitigation strategies includes:
� Operational procedures.
� Cryogenic pump option – on a ”when needed” basis (patent pending).
� LNG storage tank designs (patent pending).
Rolls-Royce Marine
Challenges, Realization
� Power and control cabling quality, routing, shielding and termination by Yard – can be a challenge.
Min. requirements of Class and Owner not always aligned to specifications of OES.
� Completion of documentation and functional testing of the LNG fuel system processes as part of FAT enhance commissioning.
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processes as part of FAT enhance commissioning.
Rolls-Royce Marine
Challenges, System Commissioning
� RRM systems performance heavily impacted by Yard deliveries.
� Restricted time available for harbor and sea trials can be a challenge.
� Adaptions/Improvements of “traditional” commissioning planning and execution to reflect the complexity of the systems delivered are necessary.
� Experiences of “gas installations” by many Yards are restricted.
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� Experiences of “gas installations” by many Yards are restricted.
Rolls-Royce Marine
Challenges, Operation
• A highly efficient and flexible integrated propulsion systems impact the skills required for operating personnel.
Dedicated training is necessary
• Simulator connected training in a true environment, now available.
• Restricted group size.
• Training for normal operation and fault troubleshooting – in addition to gas basics.
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• Training for normal operation and fault troubleshooting – in addition to gas basics.
• 24/7 In-Service support
• Parts
• Service and operational support through multi-disciplined teams of service engineers, that can be instantly mobilized for on-site troubleshooting and fault rectification.
• Energy Optimisation Services – growing.
RRM, Training philosophy
E-Learning Classroom Workshop/Technical room
Simulators
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•Theoretical training for fundamental basic knowledge
•Ideal course preparation
•Theoretical training•Ideal for larger groups•Detailed system overview including drawings and functionality
room•Maintenance training on actual products
•Practical training with focus on maintenance and troubleshooting
•Provides holistic view of complete systems
•Operator training•Provides simulator experience of real life scenarios occuring at sea
Blended learning
RRM Training Locations
Bergen
Aalesund RTC
Kokkola
Rauma
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ROLLS-ROYCE TRAINING CENTRES
Brasil RTC
Singapore RTC
Kristinehamn