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Antarctic Support Group C Dickson Chan / Brett Johnson / Kaman Lau / Bertha Luk / Josefa Wivou Aircraft Evaluation & Design Appraisal Project Tuesday, 24 October 2006 Lecturers: Mr. John Page Mr. Zoran Vulovic
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Antarctic Support Aim: Investigate the possibility of providing specialist air support to activities in the Antarctic…... - Support the Tourist Trade and Scientific Exploration - Provide Search and Rescue & Medivac Capability - Select aircraft capable of operating in the extreme environment
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− Antarctica – In Brief − Market Research − Mission Requirements − Regulatory Requirements − Aircraft Analysis − Planned Aircraft Operations − Financial Projection − Questions Presentation Outline
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Terrain 5 th largest continent Terrain: 98% thick continental ice sheet 2% barren rock Average elevations: 2000 to 4000 m 11% of Antarctica are Glaciers and floating ice shelves Antarctica in brief
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Weather / Climate - Coldest, Windiest and Driest Continent Antarctica in brief
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General Facts Home to various national scientific research base 11 ice runways and 22 skiways These facilities do not meet ICAO standards Very few transport systems within Antarctica Antarctica in brief
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Our Focus – 2 Key Areas Look at existing air support for Antarctica Examine Scientific and Tourist Market Market Research
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Existing Air Operations to Antarctica Market Research
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Scientific Market Examined Australia, Japan, New Zealand & USA science bases Opportunities to serve Australia’s Research Activities (Australian Antarctic Division - AAD) Identified AAD needs: high speed service from Antarctica to Australia Market Research
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Tourist Market consists of: Airbourne / Over-flight Tourism (by air, no landing, e.g. Qantas) Vessel Trips (tourists stay onboard shipping vessels) Actual Landings (mostly via shipping vessels) Limited Accommodations Available on Antarctica Market Research Cost of tour packages range from $19,000 to $59,000usd Majority of tours are ship-based
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Antarctic Tourism Data (1 of 2) Market Research
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Antarctic Tourism Data (2 of 2) Market Research
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Base of Operation (Australian Mainland) Examined various locations – selected Hobart Benefits Location (closest major Australian city to Antarctica) Existing base of Antarctic community + organisations Existing infrastructures (e.g. ports / research centres) Market Research
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Base of Operation (Antarctic Mainland) Examined various Australian bases – selected Casey Benefits Location (closest to Hobart) Purpose built blue-ice runway for larger aircraft Hub of all Australian Antarctic bases Market Research
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Our Operating Model Tourists will: Travel by Air on one sector to or from Antarctica and then travel on the remaining sector by sea on shipping vessel Market Research
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Air Operator Certificate (e.g. aerial work to and from Australian Antarctic Territory) Environmental Restrictions Crew Provisions (3 flight crew required) ETOPS Regulatory Requirements
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Inter-continental The Aircraft should be able to: -Improve existing capability for urgent / critical re-supply missions -Compliment the AAD’s existing air support capabilities Mission Requirements
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Major requirements (Inter-continental) Range (at least 3443km; preferably > 7000km) Speed (Hobart – Casey in less than 6hrs) Payload (2 to 5 tonnes) Capacity (5 to 10 passengers; scientists given priority to fly) Weather (operate at -30°C; max cross-wind limit > 20 knots) Fuel (Jet B grade fuel) Mission Requirements
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Search and Rescue / Medical Evacuations Very different requirements SAR requires STOL / VTOL capability + trained ground staff Medical Evacuations requires fast aircraft with good ground access, and also enough space for medical equipments / stretchers on board Conclusion: Not feasible to provide Search and Rescue Focus will be on providing Medivac services Mission Requirements
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Other requirements (Inter-continental) Navigation instruments Ground accessibility (e.g. for convenient loading) Noise footprint (the smaller the better!) Aircraft with more than 2 engines (avoid ETOPS restrictions) Mission Requirements
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Inter-continental mission Examined potential candidates for the mission Existing inter-continental aircraft: Lockheed LC-130F Hercules Ilyushin IL-76 Lockheed C-5 Galaxy Too large for our mission requirement Selected Dassault Falcon-900EX Aircraft Analysis
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Falcon 900EX – Summary Designed as a large intercontinental business jet 16 -18 passengers 3 x Honeywell TFE731-60 Turbofan engines Max fuel capacity: 11,865 Litres 2 man cockpit Aircraft Analysis
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Falcon 900EX – Summary Ground turn radius of 14.55m Tri-cycle type landing gear with anti-skid system 2 independent hydraulic systems (3000 lb/sq in) 3 engine-driven pumps Heated bleed air anti-icing for wing leading edges, intakes and centre engine duct Aircraft Analysis
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Falcon 900EX – Dimensions External Length: 20.21m Height: 7.55m Wingspan: 19.33m Baggage Door: Height – 0.75m / Width – 0.95m Passenger door: Height – 1.72m; Width 0.8m Aircraft Analysis
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Falcon 900EX - Dimensions Internal Cabin: Length – 10.11m; Height – 1.88m; Width – 1.91m Rear Baggage Compartment Volume: 3.8 m 3 Aircraft Analysis
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Falcon 900EX – Performance Long range cruise: Mach 0.75 Range: 8334km Payload: 2796kg MTOW: 21,900kg Max Cruise altitude: 51,000ft Operating Temp: -54°C to 50°C Take-off run: 1,590m Landing run: 724m (thrust reverser on centre engine) V approach – approx. 109 kts Aircraft Analysis
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Falcon 900EX – Benefits -Meeting all the mission requirements -Operates more efficiently and effectively than larger aircraft -Reduced reliance on long-range weather forecasting -Environmental benefits: only requires refuelling in Antarctica by exception, reducing costs of transporting fuel -Ability to be used in emergency response or medivac -Ability to carry small amounts of time-critical cargo Aircraft Analysis
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Airfield + additional requirements − Casey (Wilkins Aerodrome) − Glacial blue ice runway surface − Airfield: 4000m long & 200m wide − Elevation: 750m ASL − Requires backup ground-based APU and fuel stockpile Planned Aircraft Operations
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Flight Schedule − Return flights take 1 day − Depart Hobart at 1700, Arrive Casey by 2300 (day light) − Depart Casey at 0100, Arrive Hobart by 0500 43 return flights (Summer 2007-2008) for tourists / scientists 6 return flights (Winter 2008) for scientists Planned Aircraft Operations
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Financial Projections
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− Antarctic Air-link: Hobart - Casey − Most suitable aircraft: Falcon 900EX − Enhance existing air-transport capability − Expect Growth in Scientific and Tourist Markets − Profitable Operations − …………………… Questions? Conclusion & Questions
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