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Technical Data - RRS Ernest Shackleton
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Technical Data and Scientific Specification
Detailed below is the technical data of RRS
Ernest Shackleton
as well as her facilities and equipment specification. Some scientific equipment may be installed on board for the duration of a particular scientific cruise and removed at the end. This equipment is not listed here. The information is categorised under the following headings:
Laboratory Space
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Dry lab, with computer flooring, work benches and all required facilities: 45 m²
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Wet lab, with stainless steel interior and all required facilities: 45 m²
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Preparations made for installing two container labs. (ISO 20 ft) with connection point to aft research deck area.
Research Facilities
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Telescopic crane at stern: 10 T
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ROV crane on upper deck 5 T/10 m-hydraulic and able to pick up from sea level
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Navigation information system to all lab areas
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Uncontaminated sea water supply to wet lab
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Separate HVAC for laboratories
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Slow speed and position-keeping facilities
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Track Steering and Dynamic Positioning
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12 kHz hydrographic echo sounder - monitor in dry lab
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Preparations (hull dome) made for installation of bottom mapping system (Simrad EM 12-13 kHz)
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Sonar room with void sluice valves up to 16 inch
Helicopter Facilities
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Max weight of helicopter: 10 T on wheels
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Designed for Super Puma
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Diameter of deck: 18 m
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Refuelling, navigation communication and fire fighting equipment to high standards. Upper cargo hold to be used as hangar
Accommodation
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Mess room, day rooms, exercise facilities and sauna
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Passengers' laundry facilities
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Total capacity: 80 persons including crew
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Fully air conditioned
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Hi-fog firefighting equipment
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37 cabins (1,2,3 and 4 berth)
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Hospital facilities
Electronics
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Computerised engine monitoring - ICS class
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Navigation and communication equipment to highest standards, including ECDIS, GMDSS and W1 (DnV) classification of bridge
Safety
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Built to the Norwegian Ship Control Rules, Solas and IMO
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Special Purpose Vessel A534(13) Resolution
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MOB-Boat. Survival suits for all personnel
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Fire monitoring and protection including Hi-fog for accommodation and foam guns for helicopter deck
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Intercom and public address system
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TV monitoring system to cover most areas of the vessel
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Safety manuals and QA operations system according to DnV
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SEP, incorporating IMO-ISM code
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Double hull construction
Environment
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Equipped with oily water separator, incinerator, garbage compactor and waste water treatment according to Antarctic Treaty Environmental Protocol and MARPOL
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Fuel oil storage arranged to minimise risk of accidental spills
Icegoing
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Proven design. Model tested in ice tank
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Inerta 160 - low resistance hull paint
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Patented propeller and rudder protection
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Machinery cooling stand-by arrangement
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De-icing in foreship and superstructure
Cargo Logistics
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Underdeck bale of about 3000 m³
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Container loading in forward upper hold and on forward hatch
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Plugs for 4 reader containers
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Arctic fuel in ship's fuel tanks
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Jet A-1 aviation fuel in separate tanks
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Aft hatch flush with helicopter deck (for cargo handling)
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Cargo crane - 30 T at 20 m outreach
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Decks prepared for heavy vehicles
Offshore Survey
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Dynamic Positioning - AUT R
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HPR tracking systems Hi Pap and 410
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Taut wire, interface to Artemis, DGPS and Fan Beam
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ROVcrane5Tat10m
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12 kHz hydrographic echo sounder
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Preparations (hull dome) made for installation of bottom mapping system (Simrad EM 12-13 kHz)
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Telescopic crane at stern: 10 T
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Two separate stabilising tanks
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Offshore crane: 50 T at 10 m
Main Particulars
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L.o.a. 80.0 m
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L.p.p. 72.4 m
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B. mld. 17.0 m
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Draft 6.15 m
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Draft (scantl.) 6.85 m
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Deadweight (at 6.15 m) 1800 T
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Fuel oil 1380 m³
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Freshwater 165 m³
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Aviation fuel (Jet A-1) 195 m³
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Consumption: 9.5 tons/24 h at 12 knots
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Consumption: 17 tons/24 h at 14 knots (max speed)
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Endurance: about 130 days/40,000 nautical miles
Propulsion
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2 x Bergen Diesel BRM 6 each 2550 kW at 720 rom
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Single screw C.P. propeller in nozzle from twin output/single output gearbox
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Azimuth thruster forward as emergency "take you home" propulsion
Electrical Power
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2 x 2200 kW shaft generators
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2 x 600 kW aux. generators
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1 x 150 kW emergency generator
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450 V - 60 Hz for heavy consumers
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230 V - 60 Hz for accommodation/general use
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120 V - 60 Hz for lab. space
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230 V and 120 V UPS 60 Hz for lab. spaces
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230 V and 120 V 60 Hz clean power for lab. spaces
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230 V - 50 Hz clean power for lab. spaces
Internal Regulations
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Norwegian ship control rules, SOLAS, IMO and IMO A534 (13) Resolution
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(Special Purpose Vessels) MARPOL, Antarctic Treaty
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Environmental Protocol
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Canadian Arctic Pollution
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Classed for WORLD WIDE trade
Manouvering, navigation and communication
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The vessel is equipped to high standard including:
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Dynamic positioning and separate joystick
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Conventional back-up system in wheelhouse and crow's nest
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Three radars, two gyro compasses, RDF, helicopter homing beacon, GPS navigation system, wind sensors and log
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ECDIS digital mapping system with all equipment integrated to DnV W1 approved bridge
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Navigation echo sounder, navigation sonarm hydrographic echo sounder
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Communications to GMDSS including satcom., MF/HF and VHF intercom and hailing system
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TV-monitoring with 20 cameras
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