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INTERTANKO,ATHENS 13th April

INTERTANKO,ATHENS 13th April. PROPULSION ALTERNATIVES, LNG By Wilhelm Magelssen Associate Members Committee. Propulsion power for LNG carriers. Engine Power (kW). 21 knots. 40 , 000. 20 knots. 19 knots. 30 , 000. 20 , 000. Size (m3). 125 , 000. 150 , 000.

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INTERTANKO,ATHENS 13th April

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  1. INTERTANKO,ATHENS 13th April PROPULSION ALTERNATIVES, LNG By Wilhelm Magelssen Associate Members Committee

  2. Propulsion power for LNG carriers Engine Power (kW) 21 knots 40,000 20 knots 19 knots 30,000 20,000 Size(m3) 125,000 150,000 175,000 200,000 Source: MAN B&W

  3. Thermal efficiencies Source: MAN B&W

  4. Handling of boil-off gas • Use as fuel in boilers • Accumulation during voyage • Use as fuel in gas engines • Use as fuel in gas turbines • Re-liquefaction • Burn in oxidizer (incinerator)

  5. Means for disposal of boil-off gas Steam turbine propulsion: • Two boilers + main and auxiliary condenser Gas engine propulsion: • One oxidizer with redundant auxiliaries Diesel engine propulsion: • One re-liquefaction unit + one oxidizer Gas turbine propulsion: • One oxidizer with redundant auxiliaries

  6. Propulsion alternatives for LNG carriers • Steam turbine/dual fuel steam boilers • Dual fuel high pressure gas/diesel engine • Dual mode low pressure gas/diesel engines • Low pressure gas engines and diesel engines • Gas turbine & combined gas turbines/diesel engines • Diesel engine/boil-off re-liquefaction

  7. Steam Turbine Propulsion - Simplified Economiser Flue gas uptake Super-heater Downcomers Deareator Furnace Boiler casing Water wall Red gear H.P Shaft Feed pumps L.P Main Condenser Condensate pumps

  8. DNV Rules for gas fuelled engine installations • The Rules define two concepts for safety against gas hazards in machinery spaces: • Inherently gas safe machinery space The two-barrier concept as known from the IGC Code with an additional requirement for fitting excess flow shut-off in the gas supply • ESD protected machinery space Single wall gas piping accepted.Applicable for low pressure gas engines only

  9. Gas engines - piping • Low pressure gas engines have gas supply piping which is difficult to arrange with complete jacketing • There are no low pressure gas engines on the market at present having fully jacketed gas piping. However,Wärtsilä, is claiming that they are in the position in the near future

  10. ESD Rule conditions (Emergency Shut Down) • Conditions for acceptance of ESD protected machinery space: • Gas supply pressure to be < 10 bar • Automatic de-energising of all sources of ignition on detecting of low concentration of gas and shut-off of gas supply to the engine room • Automatic shut-off of gas supply on loss of engine room ventilation, detection of fire or excess gas flow

  11. ESD protected engine rooms • Because of the shut-down requirement for anESD Protectedengine room, the power generation for propulsion and manoeuvring must be divided between two or more engine rooms independent of each other

  12. Dual Mode Gas/Diesel Engines

  13. ESD protected engine rooms

  14. Diesel engines + Re-liquefaction

  15. Re-liquefaction plant for LNG boil-off • At present there is experiences only from one shipboard LNG re-liquefaction plant (NYK) • Power consumption is high (3,5-5,0 MW) • For LNG cargo tanks with permitted filling ratio of 99.5% (spherical) overfill protection arrangements should be considered

  16. LNG carrier with oxidizer

  17. Coastal LNG carrier: “Pioneer Knutsen” • delivered 2004, 1100 m3 cargo carrying capacity • 2 x engines for gas fuel only + 2 diesel engines , - diesel electric propulsion • 2 pods for main propulsion • redundant propulsion

  18. Gas Turbines • Rolls Royce MT30 • 36 MW flat rated @26C • 42% thermal efficiency • 201 g/kWhr on gas • Dual fuel capable

  19. Steam Turbine Propulsion – Engine Room Arr’t Cargo Tank

  20. Gas Engines/Electric Propulsion – Engine Room Arr’t + Cargo Tank ~ ~ Reduced length

  21. General Arrangement – Gas Turbines

  22. Gas emissions from LNG carriers Source: ALSTOM Emissions: Tonnes / year / ship

  23. Economics of LNG Re-liquefaction andSlow Speed Diesel Propulsion • Low Fuel Consumption for Propulsion, but power required by the re-liquefaction plant adds another 10 – 20 tons of heavy fuel oil • Unknown Initial Cost for the Re-liquefaction Plant, but Assumed to be Significant • High Power Requirements for Re-liquefaction, in the order of 3-5 MW at max. load

  24. Economics of Dual Fuel Gas/Diesel Engines/Gas Turbines and Electric propulsion • Electric Propulsion Plants Require Higher Initial Costs • Gas/Diesel Engine Plants Have Lower Fuel Consumption - Thermal Efficiency 42-44% v.s. 31-33% for Steam Propulsion • Gas/Diesel Engines Have Higher Maintenance Costs • Fuel Cost Savings for Gas/Diesel Plants Increase With Higher Fuel Oil Price

  25. LNG carrier propulsion - Conclusion • The traditional steam turbine propulsion has served LNG carriers well for over 30 years • Future operating modes will require flexibility and efficient propulsion plants able to accommodate different ship speeds • Operating economy and environmental issues have to be considered carefully when selecting propulsion power plant • Safety and redundancy are important features required from the propulsion power plant

  26. Offshore re-gasification and discharge

  27. Experienced personnel, - a serious challenge ! .. insufficient supply of competent people may have a knock-on effect on other shipping sectors ?

  28. LNG Trade in cold Climate • Cold climate: Is this the future environment for LNG carriers? What kind of impact will this have on the Propulsion system?

  29. End of Presentation Thank you!

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