Marine LNG Fuel Tank Container An Introduction Marine Service GmbH Hamburg, January 2014
LNG Fuel Tank Container 2
Agenda Introduction Marine Service GmbH LNG Fuel Tank Container LNG Fuel Tank Container applications The drivers behind the LNG Fuel Tank Container LNG price and availability Summary 3
Marine Service GmbH Marine Service GmbH at a glance: Hamburg-based marine consultancy firm, founded in 1958, involved in LPG & LNG since the mid 1960 s Core business is commercial and technical consultancy services for: LNG & LPG/ethylene/NH 3 shipbuilding / shipping LNG terminals / LNG FSRUs / LNG FPSOs Small scale LNG / LNG as marine fuel projects ISO 9001:2010 certified 30 office staff in Hamburg, 12 25 project managers, supervisors & engineers in site offices worldwide Family-owned, affiliated with shipping company CST 21 March 2014 Marine LNG Fuel Tank Container 4
Agenda Introduction Marine Service GmbH LNG Fuel Tank Container LNG Fuel Tank Container applications The drivers behind the LNG Fuel Tank Container LNG price and availability Summary 5
40 ISO LNG Tank Container ISO LNG tank container: IMDG container to use existing container infrastructure IGC compliant Type C tank to allow use onboard as shipboard fuel bunker Well insulated to ensure long holding time Dry break-away coupling to prevent LNG spills in case of accidental removal from the container stack 6
LNG Container Logistics Container filling station at LNG terminal Rail or road Rail or road Container terminal near filling station Container feeder Container terminal near bunker port Container feeder Rail or road Bunker Port / Container Terminal End user 7
Bunkering v/s Containers Bunkering: LNG transfer with spill risk; most LNG incidents have occurred during LNG cargo handling LNG bunkering permission in port Containerized LNG: No transfer of LNG Handling of IMDG containers is standard practice in container ports Uses existing multi-modal infrastructure 8
Agenda Introduction Marine Service GmbH LNG Fuel Tank Container LNG Fuel Tank Container applications The drivers behind the LNG Fuel Tank Container LNG price and availability Summary 9
Marine Applications Conversions: ECA compliance from 2015: Container feeders, RoRo carriers, ferries Inland waterway vessels Small bio LNG plants directly to (marine) end-user Newbuildings IMO Tier III NOx compliance from 2016: Container feeders, RoRo carriers, ferries LNG-fuelled power barges in port On-quay LNG fuelled cold ironing Power plant fuelling for stranded user communities on-shore 10
Container Feeder LNG fuel tank containers 11
LNG Fuel Tank Container Up to 20 pieces 40 LNG fuel tank containers in three stacks over the engine room LNG container hose connections in cell guides Source: Marine Service 12
LNG Container Arrangement Tank level gauges All safety valve vents ducted to vent mast in safe location Vapor header Liquid header Vent header LNG fuel handling container 13
LNG Container Connections Quick coupling for safety valve vent Local level gauge Quick coupling for vapour Quick coupling for liquid Pneumatic emergency shut-down valves 14
Specifications 40 ISO LNG fuel tank container: 33.4 m 3 LNG at 82% filling rate Up to 80 days unattended holding time Dry quick couplings for liquid, vapor and safety valves with integrated break-away couplings Pneumatic ESD valves for liquid and vapor IMDG container for sea, rail and road transport Class approved type C tank according to IGC code Suitable for stacking 6 high in container stacks Fully Ex-proof; no electric installation on the container 15
Specifications Dimensions: L x B x H: 12.192 x 2.438 x 2.591 mm Weights: Empty 13,270 kg Payload 15,000 kg (33.4 m 3 LNG @ 450 kg/m 3 ) Max. weight 30,500 kg Materials: Inner tank Steel 1.4301 Outer tank Steel 1.4301 Frame Carbon steel 16
Insulation Insulation: Vacuum insulation between inner and outer tank The inner tank is wrapped in multi-layer superinsulation reflector foil to prevent heat ingress into the inner tank The pipe connections and the supports of the inner tanks are designed for frequent and fast cool-down and filling cycles Integrated pipe coil in the inner tank for LNG cooling with liquid N 2 17
Class Approval Class approval: Bureau Veritas approved the fuel gas system in principle in July 2011 TÜV road/rail certification and testing completed within 2012. BV container type approval for the LNG fuel gas container received mid 2013. Other class approvals will be applied for soonest 18
Compliance IMO IGC-code BV - NR 529 Gas-Fuelled Engine Installations in Ships IMDG code 2011 ADR 2011 RID 2011 AD 2000 ISO 1496-3:1995 Series 1 Freight containers - specification and testing, Part 3: Tank containers for liquids, gases and pressurized dry bulk DIN EN 13530-1 to -3:2003 Cryogenic vessels - large transportable vacuum-insulated vessels 19
Gas Handling Container 20
Gas Handling Container Fuel gas supply equipment for gas engines in ER: LNG pumps LNG vaporizer Fuel gas heater LNG container pressure controller Gas handling container is fitted with: Ventilation Fire detection and fire fighting Nitrogen bottles for purging and inerting 21
Cryogenic Couplings & Hose Flexible cryogenic hose assembly with quick connectors, dry break-away coupling and vacuum monitoring Male connector Female connector with break-away coupling Double-walled flexible hose 22
Conversion Cost Conversion cost from HFO to LNG as fuel: Engine conversion/replacement Fuel storage Fuel tank containers, incl. cell guide refits Fixed tanks Fuel handling system Controls Additional fire-fighting systems Conversion budget EUR 4 7M 23
LNG Power Barge 24
RoRo Carrier 25
Agenda Introduction Marine Service GmbH LNG Fuel Tank Container LNG Fuel Tank Container applications The drivers behind the LNG Fuel Tank Container LNG price and availability Summary 26
Regulatory Drivers for LNG Emissions regulations driven shift to cleaner fuels: IMO : EU: SO x MEPC 58 Regulation 14 NO x MEPC 58 Regulation 13 SO x Directive 2005/33/EC (aligned with IMO Sulphur Tiers) NO x Directive 97/68/EC and Directive 2004/26/EC: Tier I for newbuildings from 2000 Tier II for newbuildings from 2011 Tier III to be applied in ECA s from 2016, Tier II will be applicable outside these areas 27
Regulatory Framework Marine Emission Regulations In force Regulation Description Authority Area Vessels 1 Jan 2010 2005/33/EC Fuel Sulphur content < 0.1% in EU ports & waterways 1 Jul 2010 IMO Annex VI Fuel Sulphur content < 1.0% in SECAs 1 Jan 2011 IMO Annex VI NO x emissions reduced to Tier II limits, approx. 20% below Tier I limits EU EU All IMO SECA 1 All IMO Global Newbuildings 1 Jan 2012 IMO Annex VI Fuel Sulphur content < 3.5% IMO Global All 1 Jan 2015 IMO Annex VI Fuel Sulphur content < 0.1% in SECAs 1 Jan 2016 IMO Annex VI NO x emissions reduced to Tier III limits, approx. 75% below Tier II limits IMO SECA All IMO ECA 2 Newbuildings 1 Jan 2020 3 IMO Annex VI Fuel Sulphur content < 0.5% IMO Global All 1 SECA is Sulphur Emission Control Area 2 ECA is Emission Control Area 3 Subject to a technical review to be concluded 2013 this date could be delayed 28
ECA Zones Worldwide Source : DNV, Hamburg 29
Shipping in ECA Area 2.200 vessels are operating in the North Sea and the Baltic ECA area on any given day Source : DNV, Hamburg 30
Agenda Introduction Marine Service GmbH LNG Fuel Tank Container LNG Fuel Tank Container applications The drivers behind the LNG Fuel Tank Container LNG price and availability Summary 31
LNG Pricing Approximate LNG fuel cost (30 Oct 2012): Europe (TTF): USD 10.41 / MMBTU Mark-up for LNG seller: 20% Logistics & bunkering: USD 5.00 / MMBTU Total LNG fuel cost: USD 17.49 / MMBTU Bunker fuel prices Rotterdam: IFO-380: USD 597 / ton USD 15.67 / MMBTU MGO: USD 958 / ton USD 23.66 / MMBTU 32
LNG in Europe LNG in Europe Hamburg 33
LNG Container Filling LNG container filling: Fluxys LNG in Zeebrugge operates a truck filling facility with a capability of 4,000 trucks per year Gate LNG in Rotterdam will have truck / container filling capability in 2014 Large scale LNG import terminals in the Mediterranean and small scale LNG plants in Norway have truck filling capacity 34
Well, It s Not All Good News Additional space losses: Cylindrical LNG storage tank shape Tank insulation Additional bulkheads, void spaces, access trunks, vents, etc. LNG could require up to 3-4 times as much space as MDO for the same amount of energy Fuel Comparison LNG to MDO LHV [MJ/kg] Density [kg/m 3 ] Energy density [MJ/m 3 ] MDO 42.7 900 38,430 LNG 49.5 445 22,028 MDO/LNG energy density ratio: 1.75 35
And What s More. LNG requires higher CAPEX for storage and distribution than traditional residual and distillate fuels LNG has BOG issues that require attention Most of LNG related accidents happened during LNG handling Release of un-combusted Methane contributes to Green House Effect 23 72 times more strongly than CO 2 36
Container Holding Time More than 90 days holding time of container in store 37
Agenda Introduction Marine Service GmbH The drivers behind the LNG Fuel Tank Container LNG price and availability LNG Fuel Tank Container applications LNG Fuel Tank Container Summary 38
Summary LNG technology is available and mature LNG as marine fuel is the only technically well-proven marine emissions legislation compliance strategy Distribution and storage infrastructure for LNG as marine fuel will be a major challenge and cost driver LNG Fuel Tank Container is a quickly implementable LNG as marine fuel solution that circumvents the LNG distribution issue by using existing container distribution infrastructure 39
Thank you very much for your kind attention Jochen Schmidt-Lüssmann Senior Cryogenic Engineer sl@ms-de.eu +49 172 432 9400 For more information, please contact Marine Service GmbH Mattentwiete 1, D-20457 Hamburg, Germany +49 40 36 90 3-0 ms@ms-de.eu www.ms-de.eu Alexander Harsema-Mensonides Sales Director ahm@ms-de.eu +49 174 195 6621