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Integrated Emergency Management Ship-Shore coordination. Ørnulf Jan Rødseth, MSc Senior Scientist Logistics and Technical Operation MARINTEK. Contents. Background Emergencies and emergency management Emergency management systems Emergency management organisation
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Integrated Emergency ManagementShip-Shore coordination Ørnulf Jan Rødseth, MSc Senior Scientist Logistics and Technical Operation MARINTEK
Contents • Background • Emergencies and emergency management • Emergency management systems • Emergency management organisation • Support for ship-shore coordination
ITEA-DS Intelligent Tools for Emergency Applications and Decision Support Autronica AM5000 Maritime Navigation Information Services Decision Support System for ship in Degraded Condition Background – some projects
RCCL Freedom class: 3600 +1400 (2006) M/S Voyager of the Seas: 3114+1181 (1999) M/S Quen Mary II: 2620 + 1253 (2004) Background – large passenger ships
Background – environmental damage The grounding of Arisan near Runde ‘92 Prestige accident outside Galicia ‘03
Background - terrorism M/T Limburg ’02
Contents • Background • Emergencies and emergency management • Emergency management systems • Emergency management organisation • Support for ship-shore coordination
Some types of emergencies • Fire / explosion • Stranding/grounding (powered or drift), collision • Structural failure (hull, shell doors, tanks, flooding) • Pollution (oil spill, chemical spill, on or off ship) • Unlawful acts (bomb threat, violence, hijack, arson) • System failure (blackout, propulsion, steering) • Heavy weather (at sea or in port) • Man overboard • Medical emergency (injury or illness) • Other cargo related problems • Assistance other ships
Emergency management • Survivability of ship (until abandon ship) • Strength and stability • Mustering and evacuation, abandon ship • crew and passengers • Situation control • avoid escalation, fix problem • Avoid environmental discharge
Large passenger ships:What are the main problems? • Large number of persons • Many passengers to guide, unfamiliarity with ship • Many crew to co-ordinate • Panic and congestion, language difficulties • Size of ship and afflicted area • 12 passenger decks, 71 m high, 345 m long (QM II) • Landing of passengers and crew • Ship as its own lifeboat
Cargo ships:What are the main problems? • Few crew to handle situation and do management • Requires efficient ship-shore coordination • Requires easy to use onboard systems • Generally less money spent on DSS • General cargo has higher fatality rate than “higher cost” ships
DSS_DC Lessons learned • Emergency operation cargo ships: Very few people • Minimize detailed planning or operation onboard • Continuous communication with shore office • Many alternatives are explored by shore office • When to decide? Not too early, nor too late Must be supported in EMS !
Contents • Background • Emergencies and emergency management • Emergency management systems • Emergency management organisation • Support for ship-shore coordination
Contents • Background • Emergencies and emergency management • Emergency management systems • Emergency management organisation • Support for ship-shore coordination
Emergency management onboard • Bridge and ECR has overall control (ECR for engine spaces) • On Scene Commander and Damage Control Teams do local handling • Bridge and ECR continues normal operation where applicable • Passenger ships may have safety centre and/or hotel section
Emergency management on shore • Ship-shore via satellite (SAR and owner) • Owner-SAR via telephone • Specialist support for strength/stability
Contents • Background • Emergencies and emergency management • Emergency management systems • Emergency management organisation • Support for ship-shore coordination
Normal operation Shore office Ship em. Other OOW ENG ECC services OSC SAR Ship based Land based EMT ISEMS ISEMS SERS DCT Normal operation: OOW and maintenance (Engineer) Ship emergency: Emergency Management Team, On-Scene Commander and Damage Control Teams Shore office Emergency Command Centre SAR and special response teams: Via shore office and WWW Distributed Emergency Management
Ship-land communication • Global: Inmarsat, Iridium • Coast: VHF, Cellphone, WiMax • Regional: VSAT AMVER plot July 2004 Red: > 50; Blue < 4
Communication for ship-shore coordination • Available high-seas communication • VSAT: Limited areas, high data rates, low cost • Inmarsat Fleet 77: 128 kbit/s • Inmarsat Fleet 55: 64 kbit/s • Inmarsat B: 9.6 – 64 kbit/s • Iridium: 9.6 kbits/s • Basic requirements: Should be minimum 64 kbit/s • Can use VSAT as main channel, Inmarsat as backup • Main problem is transmission of CCTV images • May use still picture or dropped if VSAT is unavailable