McDONNELL-DOUGLAS MD-11 OPERATING MANUAL麦道11操作手册
**** Hidden Message ***** DELTA VIRTUAL AIRLINES<BR>McDONNELL-DOUGLAS MD-11<BR>OPERATING MANUAL<BR>THIRD EDITION<BR>FEBRUARY 10th, 2005<BR>McDonnell-Douglas MD-11 Operating Manual<BR>TABLE OF CONTENTS<BR>Aircraft History ..........................................................................................................1<BR>Turbofan Engines Arrive .........................................................................................2<BR>The MD-11 Takes Off.................................................................................................3<BR>Performance Improvements....................................................................................5<BR>Boeing Buys McDonnell-Douglas in 1997 .................................................................5<BR>Delta says goodbye to the MD-11 ...........................................................................5<BR>Aircraft Specifications.................................................................................................6<BR>Recommended Equipment..........................................................................................7<BR>Fuel Loading..............................................................................................................8<BR>Alain Capt's McDonnell-Douglas MD-11 Panel ............................................................10<BR>Overhead Panel ...................................................................................................10<BR>Mode Control Panel ..............................................................................................11<BR>Forward Panel......................................................................................................12<BR>Radios And Throttle Quadrant...............................................................................13<BR>Delta Virtual Airlines Standard Operating Procedures .................................................14<BR>Before Start .........................................................................................................14<BR>Cleared for Start ..................................................................................................14<BR>After Start ...........................................................................................................14<BR>Before Takeoff .....................................................................................................15<BR>Cleared for Takeoff ..............................................................................................15<BR>After Takeoff .......................................................................................................15<BR>Descent Approach................................................................................................15<BR>Landing ...............................................................................................................16<BR>Vacating ..............................................................................................................16<BR>Shutdown............................................................................................................16<BR>Secured...............................................................................................................17<BR>Notes from the Chief Pilot ........................................................................................18<BR>Acknowledgements and Legal Stuff...........................................................................19<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 1<BR>AIRCRAFT HISTORY<BR>The MD-11’s history began in 1968, the year the Apollo space program was getting<BR>under way towards the moon, the Vietnam war was raging and hippies were doing<BR>anything they could to scandalize the country. The DC-10, a large three engine turbofan<BR>wide body aircraft, intended for medium- to long-range flights, entered production at<BR>the Douglas plant in Long Beach, California. First deliveries began in 1971 and continued<BR>until 1989. Capable of carrying from 250 to 380 passengers and a flight crew of three,<BR>(two pilots and a flight engineer) a total of 386 commercial DC-10 aircraft were<BR>delivered to 71 airline and carrier companies along with 60 KC-10 tanker /cargo models<BR>built for the United States Air Force.<BR>About the Douglas Aircraft Company - Founded in 1920 by Donald W. Douglas,<BR>the Douglas Aircraft Company built more than 45,000 aircraft including the<BR>classic DC-3 twin-engine piston transport (which served as the C-47 during World<BR>War II) and the larger DC-6 and DC-7 four engine piston transports. In the years<BR>following the war, Douglas was the leading American maker of commercial<BR>aircraft. Responding to the arrival of the Boeing 707 in the 1950s, Douglas<BR>developed the DC-8 - a successful four-engine transport capable of carrying up<BR>to 220 people, which is still in use today.<BR>During the mid-1960s, Douglas encountered financial challenges that led to its<BR>merger with the McDonnell Aircraft Corporation of St. Louis in 1967 while the<BR>DC-10 was still in the design stage. Douglas was the commercial component of<BR>that venture, while McDonnell focused more on military aircraft and helicopters<BR>(most famously the F-4 Phantom fighter). Merged, the two companies became<BR>known as McDonnell-Douglas Aircraft Corporation. This entity survived for over<BR>thirty years, until its merger with Boeing in 1997.<BR>The DC-10 went through six models – the initial version, the Series 10, was designed for<BR>high-capacity domestic routes of up to 3,330 nm. The Series 15 was designed for “hot<BR>and high” operations, while the Series 20 (which only flew in prototype form) was<BR>designed for long-range operations. The Series 30 and 40 aircraft were the true longrange<BR>workhorses, with lengthened wings, an additional centre landing gear and range<BR>of up to 5,000 nm in the Series 40.<BR>(From Jane’s Civil<BR>Aircraft)<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 2<BR>TURBOFAN ENGINES ARRIVE<BR>The 11,000 lbs of thrust produced by each of the four Pratt & Whitney JT3C waterinjected<BR>turbojet engines on the early DC-8s and 707s helped launch the passenger jet<BR>age. However, these engines had some significant drawbacks – low thrust, excessive<BR>noise and large quantities of smoke (especially with water injection!)<BR>Turbofan engines solved these problems by adding an additional “fan” in front of the<BR>engine core to blow cooler air around the core. This added thrust, and greatly decreased<BR>the amount of noise generated at high power levels. Initial turbofan jet engines included<BR>the P&W JT3D, at 18,000 lbs thrust, which powered the 707-320 and DC-8 Series 50/60<BR>and the Rolls-Royce Conway, installed on the DC-8 Series 40 and 707-436. However, the<BR>huge wide-bodied aircraft of the late 1960s needed something with even more thrust.<BR>For the DC-10 Series 10, the General Electric CF6-6 was developed, with a single engine<BR>generating 40,000 lbs (or the equivalent of all four JT3Cs on a 707-120!), or 120,000 lbs<BR>total. The Series 20 was designed around the Pratt & Whitney JT9D 45,000 lb turbofan,<BR>the same engine that powered the 747 and early 767 models. As with most other<BR>airlines, later versions had more powerful engines. The Series 30 used the 51,000 lb GE<BR>CF6-50, and the Series 40 was powered by the JT9D, rated at 53,000 lbs.<BR>In closing, the descendants of the CF6 deserve mention. GE and SNECMA moteurs of<BR>France later jointly developed the CFM56, a high bypass turbofan engine. These 18,500<BR>to 34,000 lbs thrust engines were initially designed for the United States Air Force’s KC-<BR>135 tanker re-engine program, replacing JT3C and JT3D engines. They were used in a<BR>similar fashion in the “Series 70” of the DC-8, and as original equipment on modern<BR>aircraft such as the Boeing 737 (300 series onwards), Airbus A319/A320/A321, as well<BR>as the original A340-200.<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 3<BR>THE MD-11 TAKES OFF<BR>As McDonnell-Douglas went into the design study of Series 50 and then the Series 60<BR>DC-10, they eventually decided to launch a much more advanced aircraft based on the<BR>DC-10. The DC-10-60 eventually became known as the MD-100, the MD-XXX and finally<BR>the MD-11.<BR>The MD-11 program was launched on December 30th, 1986, with the first delivery to<BR>Finnair taking place on December 7th, 1990. It brought a lot of improvements over the<BR>DC-10, including the following:<BR>􀂃 A stretched fuselage (6.68 meters longer, approximately 20 feet)<BR>􀂃 Longer wing<BR>􀂃 Winglets for better stability<BR>􀂃 Refined airfoils on wing and tail plane<BR>􀂃 More powerful engines<BR>􀂃 Strong composite parts on flaps, etc.<BR>􀂃 First all digital glass cockpit in a commercial aircraft<BR>􀂃 Two member flight crew, instead of three<BR>􀂃 Larger fuel capacity, 2,000 gal more<BR>􀂃 Longer range, up to 8,225 nm in ER version<BR>􀂃 First complete ‘fly-by-wire’ flight capabilities<BR>􀂃 Option of Propulsion Controlled Aircraft PCA<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 4<BR>The new MD-11 was large enough to fly up to 410 passengers, making it a serious<BR>competitor to the Boeing 747/777, and the Airbus A330/A340, the world’s largest<BR>commercial aircraft. The MD-11 is the largest wide body tri-jet ever built, and quite<BR>possibly the last one, since subsequent large aircraft designs have used either two or<BR>four engines.<BR>The advanced, fully computerized, six-cathode ray tube display digital flight deck, also<BR>called the “glass cockpit”, was now used to take over most of the flight engineers job.<BR>Monitoring engine performance, it has wind shear detection & guidance devices, dual<BR>flight management systems to conserve fuel and dual autopilots with fail operational<BR>capability. With these improvements, the flight crew is now reduced to the Captain and<BR>First Officer. The MD-11 was the first commercial aircraft to truly “fly – by – wire” from<BR>takeoff to landing (United States to Germany) without a pilot’s hands on the controls.<BR>Another notable improvement was the concept of a Propulsion Controlled Aircraft, or<BR>PCA. Developed by NASA and tested on an MD-11 in 1995, this revolutionary system<BR>allowed the safe landing of the aircraft with the hydraulics switched off. PCA uses the<BR>aircraft’s autopilot together with programming in the flight control computers, and<BR>operates the aircraft solely by increasing or decreasing engine thrust. Increasing thrust<BR>in all engines allows the plane to climb, decreasing allows descent, and alternating<BR>thrust in left or right engines independently, allows for turns. If a plane has a major<BR>mishap, losing its hydraulics for flaps, ailerons, rudder, or elevators, it can still<BR>potentially make a safe landing. This is not as far-fetched as it may seem, as one two<BR>separate occasions disabled DC-10 aircraft were landed based on manual control of<BR>engine thrust alone, most famously in Sioux City, Iowa in 1989. Unfortunately, it is<BR>expensive, and no MD-11 customer asked for its planes to be retrofitted with the PCA<BR>system.<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 5<BR>PERFORMANCE IMPROVEMENTS<BR>Pilots who love a career flying challenge are in love with the MD-11. Carriers think a lot<BR>of the MD-11, too. Lufthansa Cargo said the MD-11F (freighter version) is the most<BR>economical and environmentally friendly airplane on the market. It requires 25% less<BR>fuel per ton/kilometer than the Boeing 747-200F, and has much lower emission rates. It<BR>is a quiet jet, with noise levels well below the strictest sound emission regulations. The<BR>enlarged hatch and semi-automatic loading system get high marks, making it possible to<BR>load and unload cargo faster. The plane soon became popular with freight carriers.<BR>The MD-11 temporarily suffered a setback when discovered it did not meet advertised<BR>payload/range specifications. These problems were solved when McDonnell-Douglas<BR>enacted a performance improvement program (PIP) in order to reduce drag, weight,<BR>and fuel consumption. PIP was very successful, with performance improved by 8%, and<BR>fuel burn improvements were up, by up to 3%. However by the time the program was<BR>completed, the MD-11 was facing competition from comparable long-range airliners,<BR>such as the Boeing 777. Because of the additional cost of maintaining and operating a<BR>third engine, customers started to lean towards the 777.<BR>BOEING BUYS MCDONNELL-DOUGLAS IN 1997<BR>After Boeing purchased McDonnell-Douglas in 1997, production on the MD-11 was<BR>halted three years later. It was predicted by McDonnell-Douglas that well over 300 units<BR>would be built, when 195 total units actually were. Subsequently, it sold to 22 carriers.<BR>Federal Express purchased the most with 31 freighter versions, Delta Air Lines tied for<BR>second place with Varig, each having 15, and Swissair bought 14. Japan Airlines and<BR>KLM also bought 10. Many serve on long trans-oceanic routes.<BR>DELTA SAYS GOODBYE TO THE MD-11<BR>Wednesday, January the 1st 2004 was a sad day for many of us. This was the last day<BR>an MD-11 would wear the Delta colors on a scheduled flight. N807DE wearing the OC<BR>scheme landed at Atlanta from Narita, it was received with honor by the Atlanta<BR>Hartsfield Fire Fighters unit, spraying gallons of water over his shinny fuselage.<BR>After that many Delta MD-11´s where translated to the dessert awaiting a new<BR>exploiter. Luckily some of them where recently bought by FedEx (Federal Express).<BR>Although these planes wont wear the Delta scheme again we are happy to know they<BR>are going to continue flying. We will see them with a different scheme but we will know<BR>they once flew for Delta.<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 6<BR>AIRCRAFT SPECIFICATIONS<BR>TYPE MD-11P MD-11F MD-11CF MD-11 Combi<BR>LENGTH 202”<BR>WINGSPAN 169’ 10”<BR>WING AREA 3,648 ft2<BR>HEIGHT 57’ 11”<BR>EMPTY WEIGHT 291,600 lb<BR>MAX. WEIGHT 602,500 -<BR>630,500 lbs 630,500 lbs 602,500 - 630,500<BR>lbs<BR>STD. SEATING 285 - 410 None 350 - 410 181 - 214<BR>MAX. RANGE 7,630 - 8,225<BR>nm 4,450 nm 4,450 7,620<BR>nm 6,495 nm<BR>ENGINE TYPE PW4460, PW4462 or GE CF6-80C2<BR>TOTAL THRUST 180,000, 186,000, 184,000 lbs<BR>FUEL CAPACITY 38,615 gal<BR>LOWER CARGO 6,850 ft3 935 ft3<BR>MAIN CARGO None 15,530 ft3 14,508 ft3 3,590 ft3<BR>CEILING 45,000 feet MSL (FL450)<BR>CRUISE SPEED Typical FL310: Mach .74 (280 KIAS), FL360: Mach .87 (286 KIAS)<BR>MAX RANGE FL310: Mach .72, FL360: Mach .86<BR>TAKEOFF SPEED (460,000 lbs gross weight) V1=134 KIAS, Vr=150 KIAS, V2=163 KIAS<BR>MD-11P=Passenger MD-11F=Freighter<BR>MD-11CF=Convertible Freighter=P or F MD-11 Combi=P+F<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 7<BR>RECOMMENDED EQUIPMENT<BR>Delta Virtual Airlines provides 32-bit Windows aircraft fleet installer utilities for its<BR>aircraft, as part of its Fleet Library. The MD-11 Fleet Installer contains the International<BR>Flightsim Design Group (IFDG) MD-11 in a variety of Delta, Alitalia and Korean Air Lines<BR>liveries, along with an MD-11 created by Alain Capt.<BR>These aircraft models and panels are available from the Delta Virtual Airlines Fleet<BR>Library, as well as the popular flight simulation web sites http://www.flightsim.com and<BR>http://www.avsim.com/.<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 8<BR>FUEL LOADING<BR>Delta Virtual Airlines’ MD-11 has five fuel tanks, left aux, left, center, right, and right<BR>aux. Both the left and right aux tanks have a capacity of 49,574 lbs of fuel. Both left and<BR>right tanks have a capacity of 40,853 Lbs. The center tank holds 77,041 Lbs, for a total<BR>of 257,895 Lbs of fuel. With a full load of fuel the MD-11 is capable of flying over 8,000<BR>nautical miles. One gallon of Jet A fuel weighs approximately 6.70 lbs.<BR>􀂃 Range: 7,200 NM<BR>􀂃 Fuel Burn Rate Factor: 31.6 lbs/NM<BR>􀂃 Fuel Base Amount: 40,000 lbs<BR>􀂃 Fuel Loading Formula: (Fuel Base Amount + (Distance * Fuel Burn<BR>Factor)) Calculation of this formula gives you the correct amount of fuel for<BR>your trip.<BR>􀂃 As an example, for a 2000 nautical mile flight leg the Fuel Loading Formula<BR>would be (40,000 lbs + (2000NM x 31.6)) = 103,200 lbs. Please note that<BR>this does not take into account the 45 minute reserve required; approximately<BR>15,000 lbs.<BR>􀂃 To load fuel into your aircraft, select Aircraft, then Fuel and place the correct<BR>fuel amounts in the correct tanks.<BR>Look at three typical flight examples:<BR>􀂃 KMCO (Orlando, Florida) to KATL (Atlanta, Georgia) 450 nm would require<BR>approximately 54,000 lbs of fuel.<BR>􀂃 KATL to EGLW (London-Gatwick, United Kingdom) (NAT route) 4,000 nm would<BR>require approximately 166,000 lbs of fuel.<BR>􀂃 KLAX (Los Angeles, California) to NRT (Tokyo-Narita, Japan) (PACOT route)<BR>5,200 nm would require approximately 204,000 lbs of fuel.<BR>Captains ordering fuel for Delta Virtual Airlines flights should remember that more fuel<BR>equates into more drag, requiring more power. An unnecessary overabundance of fuel<BR>will only cost the company money. Fuel should be kept as close to the trip fuel required<BR>as possible. With that said, it is always the pilot's responsibility to ensure that<BR>there is enough legal fuel for the flight. Any incident that was the result of miscalculating<BR>the fuel load will always be the fault and sole responsibility of that flights<BR>captain and crew. When in doubt, take more.<BR>Delta Virtual Airlines aircraft shall always carry a minimum fuel load for the trip to the<BR>destination, and at least 60 min reserve in cruise at low altitude (Fuel Base amount) plus<BR>a 45 min reserve for diversion to the designated alternate landing site.<BR>Any trip estimations that you see in this manual are for calm winds and standard outside<BR>air temperatures. Deviation from standard winds or temperatures will result in different<BR>actual performance for your aircraft. When flying over long bodies of water, remember<BR>that in the event of pressurization problem or an engine failure that requires descent to<BR>14,000 feet MSL for passenger comfort, the fuel burn for the aircraft will increase<BR>significantly and may leave you short of your initial destination. Plan accordingly!<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 9<BR>TIP: This equation doesn’t consider wind. This is of special importance when crossing<BR>the ocean. If you fly Atlanta-Gatwick with the fuel indicated by the equation you will<BR>reach destination with enough fuel to fly to your alternate. By contrast, flying Gatwick –<BR>Atlanta, you will be having strong head winds, and this equation will surely leave you<BR>short on fuel. This is a quick way to crosscheck the fuel quantity. At cruise, the average<BR>fuel consumption of the iFDG MD-11 is 2,800 Kg/h per engine. This is approximately<BR>6,200lbs. The total average is 18,600 Lbs/h. Now you should go to the timetable and<BR>check the estimated flying time and multiply the hours by 18,600. That leaves you with<BR>a rough estimate for you flight. The following procedure should only be done when<BR>flying long flights with strong head winds.<BR>Example:<BR>Frankfurt to Atlanta. Approximately 10 hours. 4053 miles.<BR>The equation: (40,000 + (4053 * 31.6)) = 168,075 lbs.<BR>Now, we multiply our average fuel consumption by the timetable flight length.<BR>18,600 * 10 = 186,000 lbs<BR>In this situation you can see that there is a big difference between the values, if you<BR>would have loaded the fuel given by the first equation, you may have been short. Other<BR>than this situation the equation works fine, the problem is when you have a long flight<BR>with strong head winds. These winds will make your fuel consumption increase greatly.<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 10<BR>ALAIN CAPT'S MCDONNELL-DOUGLAS MD-11 PANEL<BR>OVERHEAD PANEL<BR>1. Pushback Selector<BR>2. Engine Ignition A<BR>3. Engine Ignition B<BR>4. External Power<BR>5. Battery Switch<BR>6. APU Switch<BR>7. Air Cond selector<BR>8. Air Cond on/off switch<BR>9. Engine 1 Anti-Ice<BR>10. Engine 2 Anti-Ice<BR>11. Engine 3 Anti-Ice<BR>12. Wing Anti-Ice<BR>13. Tail Anti-Ice<BR>14. Pitot Heat<BR>15. Seat Belts Selector<BR>16. Strobe Lights<BR>17. Landing Lights<BR>18. Taxi Lights<BR>19. No Smoking Selector<BR>20. Yaw-Damper<BR>21. Left Runway Turnoff Light<BR>22. Right Runway Turnoff Light<BR>23. Navigation Lights<BR>24. Logo Lights<BR>25. Beacon Lights<BR>26. Hi Intensity Lights<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 11<BR>MODE CONTROL PANEL<BR>1. Panel Flood Light Switch<BR>2. Altimeter Setting Knob (Push for<BR>Standard 29.92)<BR>3. Decision Height Setting Knob<BR>4. GPS Toggle<BR>5. Kneeboard Toggle<BR>6. Flight Director<BR>7. EHSI Mode Selector (NAV1, NAV2)<BR>8. ADF EHSI Selector<BR>9. Decrease NAV1 Course<BR>10. Decrease NAV2 Course<BR>11. Increase NAV1 Course<BR>12. Increase NAV2 Course<BR>13. Speed Selector Knob*<BR>14. Auto-Throttle Switch<BR>15. IAS Mode Select<BR>16. Mach Mode Select<BR>17. Heading Selector Knob*<BR>18. Heading Mode Select<BR>19. NAV Mode Select<BR>20. Approach Mode Select<BR>21. Autopilot Master Switch<BR>22. Altitude Selector Knob*<BR>23. Altitude Mode Select<BR>24. Wing Leveler Mode Select<BR>25. Back Course Mode Select<BR>26. Vertical Speed Selector Wheel<BR>27. Overhead Toggle Switch<BR>28. CRT 3 Toggle Switch<BR>29. CRT 4 Toggle Switch<BR>30. Throttle Quadrant Toggle Switch<BR>31. Start/Stop Crew Function<BR>32. Increase Simulation Rate<BR>33. Decrease Simulation Rate<BR>34. Skip/Reset Crew Function<BR>ITEMS WITH (*): These Knobs operate a different mode depending on left/right mouse click.<BR>Airspeed Selector Knob: Left click will engage the Hold Current IAS mode (will hold your<BR>current Airspeed, doesn’t matter if you have got any speed selected in the window), right click<BR>will engage the Maintain Selected IAS mode.<BR>Heading Selector Knob: Left click will engage the Hold Current Heading mode, right click will<BR>engage the Maintain Selected Heading mode.<BR>Altitude Selector Knob: Left click will engage the Hold Current Altitude mode, right click will<BR>engage the Maintai3n Selected Altitude mode.<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 12<BR>FORWARD PANEL<BR>CRT 1: EADI (Electronic Attitude Direction Indicator)<BR>CRT 2: EHSI (Electronic Horizontal Situation Indicator)<BR>CRT 3: Primary Engine Display. Toggles with Fuel Status Page<BR>CRT 4: Secondary Engine Display. Toggles with Configuration Page<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 13<BR>RADIOS AND THROTTLE QUADRANT<BR>1. Weight Page<BR>2. On/Off Switch<BR>3. NAV1 Ident. Switch<BR>4. COM2, COM1 Toggle<BR>5. NAV2 Ident. Switch<BR>6. On/Off Switch<BR>7. NDB Ident. Switch<BR>1. Engine Start Switches 2. Engine Fuel Cutoff Switches<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 14<BR>DELTA VIRTUAL AIRLINES STANDARD OPERATING PROCEDURES<BR>These procedures are designed so that today's crews can work together effectively and<BR>safely as well as allowing some standardization of procedures for the company. By<BR>standardizing procedures the company can budget flights better financially as flights will<BR>always be the same or at least somewhat similar.<BR>For the crews, this means that the company can schedule pilots together that have<BR>never flown together before and still maintain a safe operation. For Delta Virtual Airlines,<BR>these procedures are for the benefit of the pilots using this manual. By flying using<BR>these procedures pilots will be able to make better use of the manual and also operate<BR>the aircraft in a similar fashion company wide.<BR>NOTE: In any circumstance where company procedure conflicts with manufacturer’s<BR>recommended operation, company procedure will take precedence unless a safety factor<BR>is involved. Discretion is the responsibility of the Captain.<BR>The following procedures are intended for use with the Alain Capt panel found in the<BR>Delta Virtual Airlines McDonnell-Douglas MD-11 fleet installer.<BR>BEFORE START<BR>􀂃 Battery – ON<BR>􀂃 EICAS, EHSI, EADI, radios Power Switches – ON<BR>􀂃 Auxiliary Power Unit – ON<BR>􀂃 Air Cond (APU ON) – ON<BR>􀂃 Seat Belt & No Smoking Signs – ON<BR>􀂃 Yaw Damper – ON<BR>􀂃 Navigation & Logo Lights – ON<BR>􀂃 Set Frequencies and Courses as required for Departure<BR>􀂃 Flight Director – ON<BR>􀂃 Autopilot – Set & Disengaged (*)<BR>􀂃 Instruments – Sync & Cross Checked<BR>CLEARED FOR START<BR>􀂃 Air Cond – OFF<BR>􀂃 Beacon & Hi Int Lights – ON<BR>􀂃 Engine Ignition A or B<BR>􀂃 Engine Start Switch – ON<BR>􀂃 Start Levers – ON<BR>AFTER START<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 15<BR>􀂃 Engine Ignition – OFF<BR>􀂃 APU – OFF<BR>􀂃 Air Conditioning – ON<BR>􀂃 Anti-Ice – As Required<BR>􀂃 Pitot Heat – ON<BR>􀂃 Taxi Lights – ON<BR>BEFORE TAKEOFF<BR>􀂃 Flight Controls – Checked<BR>􀂃 Auto Throttle – ON<BR>􀂃 Flaps – Set<BR>􀂃 Stabilizer Trim – _____Units Set<BR>􀂃 Take Off Briefing – Reviewed<BR>CLEARED FOR TAKEOFF<BR>􀂃 Engine Ignition A & B – ON<BR>􀂃 Strobe & Take Off Lights – ON<BR>􀂃 Runway Turnoff – ON<BR>AFTER TAKEOFF<BR>􀂃 Engine Ignition – OFF<BR>􀂃 Flaps – UP<BR>􀂃 Gear – UP<BR>􀂃 Taxi Lights – OFF<BR>--10,000 Ft—<BR>􀂃 Landing & Logo Lights – OFF<BR>􀂃 Seat Belt Sign – OFF<BR>--CRUISE—<BR>􀂃 Runway Turnoff Light – OFF<BR>DESCENT APPROACH<BR>􀂃 Seat Belt Sign – ON<BR>􀂃 Runway Turnoff – ON<BR>􀂃 Approach Briefing – Reviewed<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 16<BR>--10,000 Ft--<BR>􀂃 Landing & Logo Lights – ON<BR>􀂃 Altimeters – Set<BR>LANDING<BR>􀂃 Engine Ignition A & B – ON<BR>􀂃 Flaps – ___, Set<BR>􀂃 Gear – Down, 4 Green<BR>􀂃 Speedbrake – Armed<BR>VACATING<BR>􀂃 Engine Ignition A & B – OFF<BR>􀂃 APU – ON<BR>􀂃 Landing & Strobe Lights – ON<BR>􀂃 Taxi Light – ON<BR>􀂃 Flaps – UP<BR>􀂃 Speedbrake – Down Detent<BR>SHUTDOWN<BR>􀂃 Parking Brake – Set<BR>􀂃 APU – ON<BR>􀂃 Start Levers – Cut Off<BR>􀂃 Seat Belt Sign – OFF<BR>􀂃 Anti-Ice – OFF<BR>􀂃 Pitot Heat – OFF<BR>􀂃 Beacon & Hi Int Lights – OFF<BR>􀂃 Runway Turnoff – OFF<BR>􀂃 Flight Director – OFF<BR>􀂃 Flaps – UP, no Lights<BR>􀂃 Speedbrake – Down Detent<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 17<BR>SECURED<BR>􀂃 Logo & Navigation Lights – OFF<BR>􀂃 Air Conditioning – OFF<BR>􀂃 EICAS, EHSI, EADI, Radios – OFF<BR>􀂃 APU – OFF<BR>􀂃 Battery – OFF<BR>When taxiing with the MD-11 keep in mind that the nose wheel is way behind your eye’s<BR>position, this means that if you want to make a 90º turn and turn so as to keep the<BR>yellow line below your head, it’s possible that your main gear wheels end up in the<BR>grass. To prevent this, wait until the yellow line is behind your head reference point to<BR>start the turn. For steep turns in the ground don’t exceed 10 knots.<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 18<BR>NOTES FROM THE CHIEF PILOT<BR>If you have flown a few large planes on flight simulator, you have probably flown some<BR>of the Boeing jets. If you want to step up the challenge to your piloting skills, then the<BR>MD-11 will do. Real world pilots who fly the MD-11 say it is a big satisfaction to fly it and<BR>land it properly. It is said to be an unforgiving plane compared to some other<BR>commercial aircraft, and there is little time to recover on a bad landing. Do the same<BR>maneuvers you did with the other aircraft, like turn too hard an angle, too much flap on<BR>approach, or forget you have speed brakes on full as you enter a turn, and the MD-11<BR>will start to fall. It does not quite “float” like the 747 or 777. It takes off fast, lands fast<BR>and stalls more easily.<BR>Weight onboard, mainly how much fuel you have loaded, makes a big difference in the<BR>way the plane climbs, turns, and handles on takeoff (and landing too – if you are<BR>carrying a lot of weight on landing). The difference between empty weight and<BR>maximum weight can be more than 300,000 lbs – more than the aircraft’s own weight.<BR>Simulator aircraft designers tend also to increase the weight already in the Flight<BR>Simulator aircraft.cfg file, in order to simulate a big load of passengers and luggage. Use<BR>your judgment, the flap and speed specs for takeoff and landing are guides, not rules.<BR>Runway length for takeoffs and landings can differ greatly depending on aircraft weight.<BR>Suggested runway length for takeoff with a full fuel load is 12,000 feet, but near empty<BR>weight you can use an 8,000-foot runway. Takeoff and landing speeds can vary as much<BR>as 25 knots or more, depending on weight and weather / wind conditions.<BR>McDonnell-Douglas MD-11 Operating Manual<BR>Page 19<BR>ACKNOWLEDGEMENTS AND LEGAL STUFF<BR>􀂃 Delta Virtual Airlines is not in anyway affiliated with Delta Air Lines or any of its<BR>subsidiaries. We are a non-profit, non-commercial organization catering to the<BR>Flight Simulation community. The real Delta Air Lines web site is located at<BR>http://www.delta.com/.<BR>􀂃 Revisions of this manual may have been made since its publishing. Please check<BR>Delta Virtual Airlines’ web site at http://www.deltava.org/ for the most up to date<BR>version.<BR>􀂃 This document is copyright 2003, 2004 by Larry Hart and Pablo Fraga. The<BR>author grants rights to Delta Virtual Airlines for electronic distribution and<BR>modification of this document.<BR>􀂃 This manual is designed for use by Delta Virtual Airlines as reference material for<BR>flight simulator pilots operating the McDonnell-Douglas MD-11 aircraft. There is<BR>no guarantee of the accuracy of this information. This is a reference for the<BR>virtual flying world and is not to be used for real world aviation.<BR>􀂃 The information in this manual has been gathered from Internet resources and<BR>from test flying the aircraft in Microsoft Flight Simulator 2002 Professional and<BR>Microsoft Flight Simulator 2004 on Microsoft Windows XP Professional. This<BR>manual makes no claim to represent Boeing, McDonnell-Douglas, Pratt &<BR>Whitney, General Electric, Microsoft, Delta Air Lines, Lufthansa, or any other<BR>party involved.<BR>􀂃 This manual is freeware and is not to be included with any 'for sale' product. :Q 回复一下~ 非常感谢楼主发布!!!! 大飞机呀 谢谢 谢谢楼主分享~~~ 感谢楼主分享! 想看,咋能看到? 感谢!!!!!!!! 感谢楼主分享
页:
[1]
2