航空 发表于 2010-8-14 11:20:52

AIRBUS A319/320/321 Technical Ground School Study Guide技术理论学习指南

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航空 发表于 2010-8-14 11:21:13

2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>Technical Ground School Study Guide<BR>AIRBUS A319/320/321<BR>2009 – 2010<BR>Updated : 04/18/09<BR>Send corrections/comments to:<BR>Bob Sanford, E-mail: busdriver@hky.com<BR>Part 1 (Prior to Class)<BR>Pneumatics/Air Conditioning/ Pressurization<BR>1. When would the LO selection on the PACK FLOW selector be used?<BR>PACK FLOW Selector (A319/320)<BR> LO: if number of pax is less than 90 or for long haul flights.<BR> HI: for abnormally hot and humid conditions.<BR> NORM: for all other operating cases.<BR>ECON FLOW Selector (A321)<BR> ON: ECON FLOW if number of pax is less than 140.<BR> OFF: for normal flow<BR>2. If bleed air is being supplied by the APU or if one pack fails, what will the pack flow rate be?<BR>During single pack operation or if the APU is supplying bleed air for air conditioning, pack controllers select high<BR>flow (A319/320) or normal flow (A321) automatically, regardless of selector position.<BR>3. With the LDG ELEV selector in AUTO, what altitude is used for landing field pressurization reference?<BR>FMGS data is used.<BR>4. When is the RAM AIR pushbutton used?<BR>During flight, if both packs fail, or in case of smoke in the cabin, a ram air inlet may be opened allowing ambient<BR>air to enter the mixing unit.<BR>5. Can external air be used to supplement low APU bleed pressure?<BR>No<BR>6. When operating pressurization in AUTO, if the pilot suspects the selected controller is malfunctioning,<BR>how can he swap controllers?<BR>Select the other system by switching the MODE SEL pb to MAN for at least 10 seconds, then return it to AUTO.<BR>7. Is cargo heat provided to the forward cargo compartment?<BR>No, although a portion of the avionics cooling air is exhausted through the cargo underfloor.<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>Ice and Rain Protection<BR>1. On approach, when should WING anti-ice be selected OFF?<BR>Wing anti-ice operation:<BR> Select WING ANTI-ICE ON after thrust reduction altitude<BR> Normally, WING ANTI ICE should be selected OFF at the FAF<BR> If in severe icing conditions, WING ANTI-ICE may be left ON for landing<BR>2. When will probe heat automatically come on?<BR> On the ground, low power is applied to the heaters when at least one engine is operating.<BR> In flight, the heating system automatically changes to high.<BR> The probe heaters can be activated manually prior to engine start by placing the PROBE/WINDOW HEAT<BR>pb ON.<BR>Note: The TAT probes are not heated on the ground.<BR>3. What part of each wing is anti-iced with pneumatic bleed air?<BR>The three outboard slats on each wing.<BR>4. What happens to the heat at the drain masts when the aircraft is on the ground?<BR>On the ground, the heat is reduced to prevent injury to ground personnel.<BR>5. What happens when Wing Anti-Ice is on and a bleed leak is detected?<BR>They close automatically:<BR> Upon touchdown,<BR> If a leak is detected, or<BR> If electrical power is lost.<BR>6. What affect does Engine Anti-Ice have on engine performance?<BR>The N1 limit for that engine is automatically reduced, and if necessary, the idle N1 is automatically increased for<BR>both engines in order to provide the required pressure. Additionally, continuous ignition is activated for that engine.<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>Autoflight<BR>1. What would cause a red AUTOLAND light to illuminate below 200'?<BR>The following situations, when occurring below 200’ RA with the aircraft in LAND mode, trigger the flashing<BR>AUTOLAND red warning, and a triple-click warning:<BR> Both APs OFF below 200’ RA<BR> Excessive deviation in LOC (1/4 dot above 15’ RA) or GLIDE (1 dot above 100’ RA). In addition, LOC and<BR>GLIDE scales flash on the PFD.<BR> Loss of LOC signal (above 15’ RA) or loss of GLIDE signal (above 100’). In addition, FD bars flash on the<BR>PFD. The LAND mode remains engaged.<BR> The difference between both radio altimeter indications is greater than 15’.<BR>Go-Around is mandatory during a CAT II/III approach if AUTO LAND caution light illuminates during the approach.<BR>2. What is Thrust Lock?<BR>The thrust lock function prevents thrust variations when the autothrust system fails and disengages.<BR>The thrust lock function is activated when the thrust levers are in the CL detent (MCT with one engine out) and:<BR> The pilot disengages A/THR by pushing the A/THR pushbutton on the FCA, or<BR> The A/THR disconnects due to a failure.<BR>When thrust lock is active:<BR> “THR LK” flashes amber on the FMA<BR> ECAM “ENG THRUST LOCKED” flashes every 5 seconds<BR> ECAM displays “THR LEVERS … MOVE”<BR> A single chime sounds and the MASTER CAUTION light flashes every 5 seconds. All warnings cease when<BR>the thrust levers are moved out of the detent.<BR>The thrust is locked or frozen at its level prior to disconnection. Moving the thrust levers out of the CL or MCT<BR>detent suppresses thrust lock and allows manual control by means of the thrust levers.<BR>3. What is TOGA Lock?<BR>TOGA thrust is frozen and thrust lever movement will have no effect.<BR>To cancel TOGA LK, disconnect the autothrust.<BR>ALPHA FLOOR protection commands TOGA thrust regardless of the positions of the thrust levers. This protection is<BR>available from lift-off to 100 feet RA on approach.<BR>ALPHA FLOOR calls up the following indications:<BR> “A FLOOR” in green surrounded by a flashing amber box on the FMA and in amber on the E/WD as long as<BR> floor conditions are met.<BR> “TOGA LK” in green surrounded by a flashing amber box on the FMA when the aircraft leaves the  floor<BR>conditions. TOGA thrust is frozen and thrust lever movement will have no effect.<BR>Note: ALPHA FLOOR is inhibited:<BR> Under alternate or direct flight control law.<BR> In case of engine failure with flaps extended<BR>4. What should be done if GPS primary is lost during an RNAV approach?<BR>A go-around is mandatory.<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>5. When is the predictive windshear detection available?<BR>The Predictive Windshear system operates when the aircraft is below 1,500’ AGL. It scans the airspace within 5<BR>nm forward of the aircraft for windshears. When a windshear is detected, a warning, caution, or advisory message<BR>appears on the PFD and (depending on the range selected on the ND) an icon appears on the ND. Predictive<BR>windshear warning and caution are associated with an aural warning. During takeoff, both warnings and cautions<BR>are available within 3 nm. Alerts are inhibited above 100 knots and up to 50’. During landing, alerts are inhibited<BR>below 50’.<BR>When the WINDSHEAR switch is in AUTO, the Predictive Windshear function is activated. Windshear areas are<BR>detected by the antenna scanning below 2,300’ RA, even if the transceiver selector is set to OFF, and displayed on<BR>the ND if below 1,500’.<BR>Predictive windshear aural alerts have priority over TCAS, EGPWS, and other FWC aural warnings. They are<BR>inhibited by windshear detection by FAC (Reactive) and stall warning aural messages.<BR>The Airbus Reactive Windshear Detection function is available during takeoff from liftoff to 1,300 feet AGL, and<BR>on approach from 1.300 feet AGL to 50 feet AGL, when aircraft configuration is 1 or greater.<BR>When a FAC detects windshear conditions, it triggers a warning:<BR> “WINDSHEAR” in red on both PFD’s (for at least 15 seconds)<BR> An aural warning, “WINDSHEAR, WINDSHEAR, WINDSHEAR”<BR>6. How do I confirm that I have actually ARMED the ILS approach for the flight director or autopilot to<BR>capture?<BR> FMA column 2 (second line): G/S (blue)<BR> FMA column 3 (second line): LOC (blue)<BR>7. How is the Go Around mode engaged?<BR>When at least one thrust lever is placed in the TOGA detent, the slats/flaps lever is at least in position 1, and:<BR> the aircraft is airborne or<BR> the aircraft has been on the ground for less than 30 seconds.<BR>8. Will the G/S mode engage without the LOC mode engaged?<BR>No<BR>9. What is the speed referenced when the FMA displays SRS during a normal takeoff?<BR>Speed Reference System is a vertical mode which controls pitch to maintain a speed defined by SRS guidance<BR>(provided V2 is inserted in the MCDU PERF TO page, the slats are extended, and the aircraft is on the ground). It<BR>engages automatically when the thrust levers are set to TOGA or MCT/FLX detent. It disengages manually when<BR>another vertical mode is engaged, or automatically when the aircraft reaches acceleration altitude or an FCU<BR>selected altitude.<BR>The pitch guidance maintains airspeed at V2 + 10 knots. If an engine failure is detected, pitch guidance maintains<BR>the greater of V2 or current speed. Additionally, the mode protects against high pitch attitude and provides a<BR>minimum climb rate.<BR>10. What is the speed referenced when the FMA displays SRS during a go-around?<BR>During go-around, the reference speed is Vapp or the speed which existed at go-around initiation, whichever is<BR>higher. Go-around mode combines the SRS vertical mode and the GA TRK lateral mode.<BR>11. Can the autopilot be engaged with both flight directors off?<BR> If the autopilot is engaged when both flight directors are OFF, the autopilot will engage in either HDG V/S<BR>or TRK FPA mode depending on which mode is selected on the FCU.<BR> If an autopilot is engaged with at least one FD ON, the autopilot will engage in the active FD mode(s).<BR>12. An amber THR LK flashes on the FMA. What does this indicate?<BR>Thrust Lock function is active - See question 2 above.<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>Hydraulics<BR>1. When will the YELLOW ELEC pump operate automatically?<BR>When the lever of the cargo door manual selector valve is moved to OPEN or CLOSE.<BR>2. When will the RAT deploy automatically?<BR>If both AC bus 1 and 2 are lost and the airspeed is above 100 kts, the RAT automatically deploys and pressurizes<BR>the Blue hydraulic system, which drives the hydraulically driven emergency generator. Pressing the EMER ELEC<BR>PWR MAN ON pb has the same effect.<BR>3. What is the purpose of the priority valve in the Blue Hydraulic System?<BR>The priority valve cuts off hydraulic power from the heavy load using units.<BR>4. What system pressure is indicated on the Triple Pressure Indicator?<BR> ACCU PRESS – pressure in the yellow brake accumulators.<BR> BRAKES – yellow pressure delivered to the left and right brakes, as measured upstream of the servo<BR>valves.<BR>5. The yellow system has an engine driven pump, what other means do we have to pressurize the<BR>yellow system?<BR> Yellow electric pump<BR> Power Transfer Unit<BR> Hand pump for cargo doors<BR>6. What occurs to the yellow hydraulic system functions when a cargo door is being opened or closed?<BR>The other Yellow system functions are inhibited (except alternate braking and engine 2 reverser).<BR>7. After emergency gear extension do the gear doors remain open?<BR>Yes<BR>8. Can the RAT be deployed manually?<BR>The RAT MAN ON pb is used to deploy the RAT manually. Activating this pb will only pressurize the blue system,<BR>but will not activate the emergency generator.<BR>Landing Gear<BR>1. What is the maximum gear extension speed VLO?<BR>250 KIAS<BR>2. Is nose wheel steering available after emergency gear extension?<BR> Non-enhanced: No<BR> Enhanced: Yellow hydraulic system is used by NWS and will be available after a landing gear manual<BR>extension.<BR>3. What does the RED ARROW on the landing gear selector lever indicate?<BR>Illuminates if the landing gear is not locked down when the aircraft is in the landing configuration, and a red<BR>warning appears on the ECAM.<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>4. Is it possible to extend the gear at any speed (high speed, for example)?<BR>A safety valve shuts off hydraulic power to the gear when indicated airspeed is above 260 knots. The valve opens<BR>again when the airspeed decreases below 260 knots, provided the gear lever is placed down.<BR>5. What does the red UNLK light in the LDG GEAR indication panel mean?<BR> Illuminates red if the gear is not locked in the selected position.<BR> Illuminates green if the gear is locked down.<BR>6. What is the maximum gear retraction speed VLO?<BR>220 KIAS<BR>7. What is the maximum gear extended speed VLE?<BR>280 KIAS/0.67M<BR>8. What is the maximum gear extension altitude?<BR>25,000 feet<BR>9. When using the rudder pedals for nose wheel steering during takeoff, the steering angle starts to<BR>reduce at what speed and progressively reduces to zero degrees at _130_ knots?<BR>The BSCU receives inputs from the captain's and F/O's steering handwheels (which are algebraically summed),<BR>rudder pedals, or autopilot. When using the handwheels, nosewheel steering angle is reduced above 20 knots<BR>ground speed. As speed increases, the angle decreases progressively to 0° at 70 knots. When using the rudder<BR>pedals, nosewheel steering angle is reduced above 40 knots ground speed. As speed increases, the angle<BR>decreases progressively to 0° at 130 knots.<BR>10. When the towing control lever is in the tow position, a green NW STRG DISC message is displayed<BR>on ECAM. What happens to the message after the first engine is started?<BR>The message changes to amber.<BR>Brakes<BR>1. What is the purpose of the brake check accomplished immediately after the aircraft starts moving?<BR> To check brake efficiency,<BR> That green pressure has taken over, and<BR> Yellow pressure is at zero on the brake pressure triple indicator.<BR>2. After touchdown, with autobrakes selected, what control surface must move before autobraking will<BR>begin?<BR>Automatic braking is activated when the ground spoilers extend.<BR>Note: During a rejected takeoff below 72 knots, the autobrakes will not activate since the ground spoilers do not<BR>extend below that speed.<BR>3. Does the alternate brake system have the same capabilities as normal brakes?<BR>Braking capability is the same as normal brakes, except autobraking is not available.<BR>4. Where does the crew look to confirm that the parking brake is ON?<BR>The BRAKES pressure gauges on the triple indicator.<BR>5. What is the maximum allowable brake temperature for takeoff?<BR> 300° C (Brake fans OFF)<BR> 150° C (Brake fans ON)<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>6. How many brake systems are on the aircraft?<BR> Normal (Green)<BR> Alternate (Yellow)<BR> Parking Brake (Yellow system or accumulator)<BR>7. What speed must be met or exceeded during rejected takeoff for Autobrakes to activate?<BR>72 knots<BR>8. Which hydraulic system does the parking brake use?<BR>Yellow hydraulic system or accumulators supply brake pressure.<BR>Flight Controls<BR>1. What is the result if both side-sticks are moved at the same time and neither takes priority during<BR>flight with the autopilot OFF?<BR>Both green CAPT and F/O SIDE STICK PRIORITY lights flash and a “DUAL INPUT” audio voice message is given<BR>every 5 seconds as long as both pilots operate their sidesticks simultaneously.<BR>2. When does full ground spoiler extension occur?<BR>Full ground spoiler extension automatically at touchdown of both main gear or in the case of a rejected takeoff<BR>(speed above 72 knots) when:<BR> Both thrust levers are at idle (if the ground spoilers are ARMED), or<BR> Reverse thrust is selected on at least one engine with the other thrust lever at idle (if the ground spoilers<BR>are not ARMED)<BR>3. What is indicated by the low energy warning "SPEED, SPEED, SPEED"?<BR>When change in flight path alone is insufficient to regain a positive flight path (thrust must be increased).<BR>Available in CONF 2, 3, or FULL, between 100’ and 2,000’ RA when TOGA not selected.<BR>4. In general, how do you recognize that you are in Mechanical Law and how does it affect you?<BR>A red “MAN PITCH TRIM ONLY” warning appears on the PFD. Pitch control is achieved through the horizontal<BR>stabilizer by using the manual trim wheel. Lateral control is accomplished through the rudder pedals.<BR>5. When does partial ground spoiler extension occur?<BR>Partial ground spoiler extension occurs when:<BR> Reverse thrust is selected on at least one engine with the other at or near idle, and<BR> One main landing gear strut is compressed.<BR>6. Can the rudder be manually trimmed with the autopilot engaged?<BR>The rudder trim rotary switch has no effect when the autopilot is engaged.<BR>7. Explain, in general terms, High Angle of Attack protection.<BR>When the angle of attack exceeds alpha prot, elevator control switches to alpha protection mode in which angle of<BR>attack is proportional to sidestick deflection. However, alpha max will not be exceeded even if the pilot applies full<BR>aft deflection.<BR>8. Is automatic pitch trim available in alternate law?<BR>In alternate law, automatic pitch trim is available and yaw damping (with limited authority) is also available. Turn<BR>coordination is lost.<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>9. How can the aircraft be controlled in mechanical backup?<BR>Pitch control is achieved through the horizontal stabilizer by using the manual trim wheel. Lateral control is<BR>accomplished using the rudder pedals. Both controls require hydraulic power.<BR>10. After touchdown, what should the stabilizer trim do?<BR>Stabilizer trim is automatically reset to zero as the pitch attitude becomes less than 2.5°.<BR>Instruments/Navigation/Communication<BR>1. If a TERR pb FAULT light illuminated, would that affect the basic GPWS modes?<BR>This amber light illuminates, along with an ECAM caution, if the terrain detection function fails. The terrain is not<BR>shown on the ND. The basic EGPWS modes 1 to 5 are still operative.<BR>2. With the RDCR GND CTL pushbutton in AUTO when does the CVR and Digital Flight Data Recorder<BR>(DFDR) energize?<BR>At the first engine start.<BR>3. If ACP #1 (Captain's) should fail, how would the pilot restore communications?<BR>Select CAPT 3 on the Audio Switching panel. The captain uses his acoustic equipment and the third occupant’s ACP.<BR>4. Is the radar display available in all modes of the ND selector on the EFIS Control Panel?<BR>Any ND mode except PLAN.<BR>5. Does the EGPWS use radar signals to "ground map" terrain?<BR>The enhanced function is based on a worldwide terrain database. It provides Terrain Awareness Display (TAD)<BR>which predicts terrain conflict and displays the terrain on the ND, and Terrain Clearance Floor which triggers a<BR>warning. The TAD function computes a caution and warning envelope ahead of the aircraft and when the<BR>boundaries of this envelope conflict with the database terrain information, it generates alerts.<BR>6. Why is it very important to maintain a 'lights out' condition on the ECAM control panel during flight?<BR>To ensure any current cautions or warnings are displayed immediately on the ECAM.<BR>7. If the upper ECAM screen fails, will the crew still be able to see E/WD data?<BR>E/WD has priority over the SD. If the upper ECAM screen fails (or is selected off), E/WD data is automatically<BR>transferred to the lower screen.<BR>8. If all systems were working normally, and a crewmember wanted to remotely tune a VOR through<BR>the RMP, would that have any effect on the FMGC NAV functions?<BR>The RMP NAV key engages the radio navigation backup mode. It takes control of the VOR, ILS, (MLS, and ADF not<BR>installed) receivers away from the FMGC and gives it to the RMP.<BR>9. How do we know the ILS has been properly tuned and identified?<BR>ILS identification is decoded by the ILS receiver, and displayed in magenta on the lower left of the ND.<BR>10. What does the amber "=" sign mean on the airspeed tape?<BR>This symbol shows the VFE corresponding to the next flap lever position.<BR>11. Where is the information normally displayed by DMC #1? DMC #2?<BR> DMC 1: PFD 1, ND 1, upper ECAM DU<BR> DMC 2: PFD 2, ND 2, lower ECAM DU<BR> DMC 3: Spare which can replace DMC 1 or DMC 2<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>12. Which RMP is functional in the emergency electrical configuration?<BR>Only RMP 1 is operational in EMER ELEC CONFIG.<BR>13. What would a steady FAULT light in the #1 IR indicate?<BR>Non-Enhanced:<BR>FAULT<BR> Steady: The respective IR is lost.<BR> Flashing: Attitude and heading information may be recovered in ATT mode.<BR>ALIGN<BR> Steady: Respective IR is operating normally in align mode.<BR> Flashing<BR>Enhanced:<BR>IR pb:<BR> OFF: Inertial data output disconnected.<BR> FAULT Light: Illuminates amber ECAM caution triggered when a fault affects the respective IR.<BR> Steady: The respective IR is lost.<BR> Flashing: Attitude/heading information may be recovered in ATT mode.<BR>IR 1 (2) (3) Mode Rotary Selector<BR> OFF: The MSU is not energized. ADR and IR data are not available.<BR> NAV: Normal mode of operation Supplies full inertial data to aircraft systems.<BR> ATT: IR mode supplying only attitude and heading information when the system loses its ability to<BR>navigate. The heading must be entered through the MCDU and must be reset frequently (approximately<BR>every 10 minutes).<BR>14. What would a flashing IR FAULT light indicate?<BR> Non-enhanced: Attitude and heading information may be recovered in ATT mode.<BR> Enhanced: Illuminates amber ECAM caution triggered when a fault affects the respective IR.<BR>15. What is green dot speed?<BR>Engine-out operating speed in clean configuration. This green dot appears when the aircraft is flying in the clean<BR>configuration, showing the speed corresponding to the best lift-to-drag ratio.<BR>16. The Inertial Reference (IR) provides what information to the PFD?<BR> Attitude<BR> Heading<BR> Track<BR> Flight Path Vector<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>Part 2 (On cycle - In Class)<BR>Electrical<BR>1. What does the EMER GEN red FAULT light indicate when illuminated?<BR>This light illuminates red if the emergency generator is not supplying power when AC BUS 1 and AC BUS 2 are not<BR>powered.<BR>2. What does the amber FAULT light in either BAT 1, BAT 2 pushbutton indicate?<BR>The charging current for the corresponding battery is outside limits. In this case the battery contactor opens.<BR>3. What does the FAULT light indicate in the AC ESS FEED pushbutton?<BR>The AC ESS BUS is not electrically supplied.<BR>4. Are there any procedures in the Pilot's Handbook, which direct us to use the EMER GEN TEST switch?<BR>None that I know of.<BR>5. What is the purpose of the static inverter?<BR>In the event of total AC power loss, if the aircraft speed is above 50 kts, an inverter is connected to the HOT BAT 1<BR>bus and inverts DC current to single phase AC current which is supplied to the ESS AC bus. This switching will<BR>occur regardless of the position of the BAT pbs. If the airspeed is less than 50 kts, both BAT pbs must be in auto<BR>position for the switching to occur.<BR>6. What does the AVAIL light in the EXT PWR pb mean?<BR>AVAIL light illuminates green if:<BR> External power is plugged in, and<BR> External power parameters are normal.<BR>7. If an IDG is disconnected in flight, can it be re-connected?<BR>Pressing the IDG pb disconnects the IDG from its driveshaft. Only maintenance personnel can reconnect it.<BR>8. What is the normal source of power for the AC ESS BUS?<BR>The AC ESS bus is normally powered by AC BUS 1 through the AC essential feed contactor.<BR>The AC ESS FEED pb allows the pilot to transfer the AC ESS bus power source from AC BUS 1 to AC BUS 2.<BR>Note: In case of total loss of main generators, the AC ESS BUS is automatically supplied by the emergency<BR>generator or by the static inverter if the emergency generator is not available.<BR>9. What is the AUTO function of the GALLEY pb?<BR>Main galley, secondary galley, and in-seat power supply are supplied. The main galley (A319/320), all galleys<BR>(A321), and in-seat power supply are shed automatically when:<BR> In flight: only one generator is operating<BR> On the ground: only one generator is operating (All galleys are available when the APU GEN or EXT PWR is<BR>supplying power)<BR>10. Can the APU generator power all busses on the ground?<BR>The APU can supply the entire electrical system on the ground.<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>Fire Protection<BR>1. If a cargo smoke detector fails, does that render the system inoperative?<BR>If one smoke detector fails, the system remains operational with the other detector.<BR>2. When are the cargo fire bottle squibs armed?<BR>When the Smoke Detection Control Unit issues a smoke warning.<BR>3. If an APU fire occurs on the ground, what must be done to shut down the APU and extinguish the fire?<BR>On the ground, detection of an APU fire causes automatic APU shutdown and extinguisher discharge. In flight,<BR>there is no automatic APU shutdown, and the extinguisher must be manually discharged.<BR>4. How many fire extinguisher bottles are available for fighting an engine fire?<BR>Two<BR>5. How many cargo smoke detectors must sense smoke to issue a warning?<BR>Both cargo compartments are equipped with smoke detector loops. The forward compartment contains two smoke<BR>detectors in the A319/320 and four smoke detectors in the A321. In the A319/320, the aft compartment contains<BR>two loops with two detectors each. In the A321, the aft compartment contains three loops with two smoke<BR>detectors in each. A Smoke Detection Control Unit issues a smoke warning when two smoke detectors of one loop<BR>detect smoke. If one smoke detector fails, the system remains operational with the other detector.<BR>Cargo smoke is indicated by an aural CRC, the illumination of the MASTER WARN and CARGO SMOKE light on the<BR>CARGO SMOKE panel.<BR>One extinguisher bottle supplies one nozzle in the forward compartment and two nozzles in the aft compartment.<BR>The agent is discharged by pressing either the FWD or AFT DISCH pb.<BR>If the cargo smoke warning is activated in either compartment, the associated isolation valves close and the<BR>extraction fan stops.<BR>6. What is required for a fire warning to be indicated in an engine or APU?<BR>Each engine is equipped with two identical detection loops (A &amp; B) each of which contain three heat sensing<BR>elements and a computer (Fire Detection Unit). The sensing elements are located in the pylon nacelle, engine core,<BR>and fan section. The FDU issues a fire warning when both loops detect an overheat in a particular area. If one loop<BR>fails, the fire warning system remains operational with the other loop. A fire warning is also issued if both loops fail<BR>within 5 seconds of each other.<BR>The ECAM will issue appropriate messages if any component of the detection system fails. An engine fire is<BR>indicated by an aural CRC, the illumination of the ENG FIRE pb, and MASTER WARN lights.<BR>Each engine is equipped with two fire extinguishers which are discharged by pressing the associated AGENT DISCH<BR>pb on the respective engine FIRE panel.<BR>7. What external indications may be received in the event of an APU fire while on the ground?<BR> The red APU FIRE light illuminates and an external warning horn sounds<BR> The APU fire extinguisher discharges automatically 3 seconds after the appearance of the fire warning.<BR> The light extinguishes when the fire has been extinguished.<BR>8. In case of lavatory smoke, would you get a warning in the cockpit?<BR>Lavatory smoke is indicated by:<BR> Aural CRC<BR> Illumination of MASTER WARN light<BR> Red ECAM SMOKE LAVATORY SMOKE<BR>9. How do you know when the engine fire extinguisher bottle has discharged?<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>AGENT DISCH illuminates amber when its fire extinguisher bottle has lost pressure.<BR>APU<BR>1. What are the altitude limits for APU generator and bleed air?<BR> APU generator – 100% load up to 25,000 feet (Note: APU GEN is available up to 39,000 feet).<BR> APU Bleed – Maximum altitude for APU bleed operation is 20,000 feet.<BR>2. When would the APU MASTER SW pb FAULT light illuminate?<BR>This amber light illuminates and a caution appears on the ECAM when an automatic APU shutdown occurs.<BR>3. If an APU fire occurs in flight will the APU shut down automatically?<BR>APU will automatically shut down due to fire on the ground only.<BR>4. The APU START pb green AVAIL light signifies that what?<BR>This light illuminates when N is above 99.5% or 2 seconds after N reaches 95%.<BR>5. Will the APU bleed valve close automatically during climb? Will it reopen during descent?<BR>No<BR>6. With battery power only, what would an APU fire test look like?<BR> APU FIRE pb illuminated<BR> SQUIB and DISCH lights illuminated<BR>7. Can the APU be shut down from outside the aircraft?<BR>APU SHUT OFF pb on External Power Panel.<BR>8. Can you name some of the possible reasons for an APU auto shutdown?<BR> Fire (on ground only)<BR> Air inlet flap not open<BR> Overspeed<BR> No acceleration<BR> Slow start<BR> EGT overtemperature<BR> No flame<BR> Reverse flow<BR> Low oil pressure<BR> High oil temperature<BR> ECB failure<BR> Loss off overspeed protection<BR> Underspeed<BR> DC power loss<BR>Powerplant<BR>1. How is autothrust disconnected to avoid thrust surges?<BR>Autothrust instinctive disconnect pb.<BR>2. How is the FADEC powered?<BR>The system has its own alternator rendering it independent of the aircraft electrical system when N2 is above a set<BR>value. If this alternator fails, the FADEC automatically switches over to aircraft electrical power.<BR>3. Continuous ignition is provided automatically when:<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR> ENG ANTI ICE is selected ON<BR> Engine flameout is detected in flight<BR> The EIU fails<BR>4. Name some reasons that a manual start may be required?<BR>After aborting a start because of:<BR> Stall<BR> EGT overlimit<BR> Low start air pressure<BR>When expecting a start abort because of:<BR> Degraded bleed performance due to a hot condition or at a high altitude airfield.<BR> A mature engine in hot condition or at a high altitude airfield.<BR> Marginal performance of external pneumatic power.<BR> Tailwind greater than 10 knots.<BR>5. What takes place when we push the MAN START button?<BR> The start valve opens if the ENG MODE selector is set to CRANK or IGN/START and N2 &lt; 20%.<BR> Both pack valves close during the start sequence.<BR> The blue ON light illuminates.<BR>Note: The start valve closes automatically when N2 ≥ 50%.<BR>6. What is an indication that the start sequence is complete?<BR>At ISA sea level (2-4-6-6):<BR> N1 approximately 19.5%<BR> EGT approximately 390°C<BR> N2 approximately 58.5%<BR> FF approximately 600 lb/hr<BR> Gray background on N2 indication disappears.<BR>7. What is the minimum oil quantity for dispatch?<BR>13 quarts<BR>8. Operationally, which engine do we start first? Why?<BR>Engine 1 is started first under the assumption it will be a single engine taxi. This will ensure engine driven Green<BR>hydraulic pump pressure will be available for normal brakes and nosewheel steering.<BR>9. If the #1 ENG MAN START pb is depressed, will the engine begin to motor?<BR>The start valve opens if the ENG MODE selector is set to CRANK or IGN/START and N2 &lt; 20%.<BR>10. Is there a mechanical connection between the thrust levers and the engines?<BR>There is no mechanical connection between the levers and engines. The position of each lever (TLA) is<BR>electronically measured and transmitted to the FADEC, which computes the thrust rating limit.<BR>Fuel<BR>1. Can fuel be suction fed to the engines?<BR>If the wing tank pumps fail, suction feeding is possible only from the inner wing cells (A319/320), or the wing tank<BR>(A321).<BR>2. The outer wing tank transfer valves (A319&amp;320) automatically open when the wing inner cell fuel<BR>quantity drops to _1,650_ pounds?<BR>3. When and how is fuel normally transferred from the outer to inner wing tanks?<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>The wing tank transfer valves automatically latch open when the wing inner cell fuel quantity drops to 1,650 lbs<BR>thus allowing the outer cell fuel to drain into the inner cell. The transfer valves open simultaneously in both wings<BR>and remain open until the next refueling operation. During steep descents and acceleration/deceleration, the<BR>transfer valves may open prematurely and trigger a LO LVL warning.<BR>4. Can either wing tank feed either or both engines?<BR>The crossfeed valve permits one engine to be fed by both sides, or both engines to be fed from one side. The valve<BR>is operated by two electric motors.<BR>5. What is the normal fuel feed sequencing?<BR>A319/320: Normal fuel feed sequencing is automatic. When there is fuel in all tanks, the center tank feeds the<BR>engines first (even though the wing tank pumps operate continuously).<BR>With the fuel MODE SEL pb in AUTO, the center tank pumps operated for two minutes after both engines are<BR>started to confirm center tank pump operation prior to takeoff. After takeoff, the center tank pumps restart when<BR>the slats are retracted and continue to operate for five minutes after the center tank is empty or until the slats are<BR>extended.<BR>With the MODE SEL pb in MAN, the center tank pumps operate continuously. The crew must select the CTR TK<BR>PUMP pbs OFF when the center tank is empty.<BR>A321: The fuel transfer system controls the flow of fuel from the center tank to the wing tanks, which feed the<BR>engines. The tanks empty in the following sequence:<BR>1. ACT transfers fuel into the center tank<BR>2. Center tank transfers fuel into the wing tanks<BR>3. Wing tanks<BR>With the MODE SEL pb in AUTO, the Fuel Level Sensing Control Unit (FLSCU) has automatic control of the transfer<BR>valve. When the transfer valve is open, fuel from the wing tank pumps flows through the jet pump and creates<BR>suction. This suction moves the fuel from the center tank to the related wing tank. The FLSCU automatically closes<BR>the associated center tank transfer valve when the wing tank is full. The transfer valve reopens the center tank<BR>transfer valve when the engines have used 550 lbs of wing tank fuel.<BR>With the ACT pb in AUTO, automatic control of the transfer occurs after takeoff at slats retraction. It is initiated if<BR>the center tank high level sensor has been dry for 10 minutes and fuel remains in either ACT. Fuel transfer from<BR>the ACTs to the center tank is made by pressurizing the ACT, closing the ACT vent valves, and opening the air<BR>shut-off and inlet valves. ACT2 transfers first.<BR>With the MODE SEL in MAN, the center tank transfer valves open. Wing tank overflow must be prevented by<BR>selecting the CTR TK XFR pbs OFF when the wing tanks are full. They must also be selected OFF when the center<BR>tank is empty.<BR>During transfer, if the center tank high level sensor gets wet, transfer from the ACT stops. The transfer valve opens<BR>when the center tank high sensor is dry for ten minutes.<BR>IDG cooling is accomplished by fuel. Some fuel from the high pressure pump passes through the IDG heat<BR>exchanger and returns to the respective wing outer cell (A319/320) or wing tank (A321) through a fuel return<BR>valve. The fuel return valve is controlled by the FADEC which regulates IDG temperature.<BR>A319/320: If the outer cell is full, the recirculated fuel overflows to the inner cell. To prevent wing tank overflow<BR>when the center tank is supplying fuel, the center tank pumps automatically stop when the wing inner cell is full.<BR>This allows the wing tanks to feed the engines until approximately 1,100 lbs of fuel has been used from the<BR>applicable wing tank(s); at which time the center tank pumps resume operation.<BR>MODE SEL FAULT (A319/A320/A321): Amber light illuminates, and ECAM caution appears when center tank has<BR>more than 550 lbs of fuel and the left or right wing tank has less than 11,000 lbs.<BR>ACT FAULT (A321): Amber light illuminates and ECAM caution appears when the center tank has less than 6,614<BR>lbs of fuel and one ACT has more than 550 lbs of fuel.<BR>6. What is the maximum fuel imbalance between the left and right wing tanks (outer + inner)?<BR>2009 – 2010 TGS Study Guide<BR>___________________________________________________________________________________________<BR>____________________________________________________________________________________________<BR>Unofficial Airbus Study Site www.airbusdriver.net<BR>Outer Tank maximum allowed imbalance is 1,168 lbs<BR>Exception: The maximum outer wing tank imbalance (one full/one empty) is allowed provided:<BR> The fuel content of one side (outer + inner) is equal to the content of the other side (outer + inner), or<BR> On the side of the lighter outer tank, the inner tank fuel quantity is higher than the opposite inner tank<BR>quantity, up to a maximum of 6,614 lbs. higher.<BR>7. How can you know when the crossfeed valve is fully open?<BR>The X FEED pb OPEN light illuminates green when the valve is fully open.

超子 发表于 2010-8-21 20:16:44

好东西,收藏了。。。。。。。。

yangy2397 发表于 2010-9-7 13:50:34

技术理论学习指南

技术理论学习指南

chendu1987 发表于 2010-9-7 23:02:50

谢谢!!!

Lee999 发表于 2010-9-20 13:23:09

谢谢哈,呵呵呵

blueguard2007 发表于 2010-11-28 10:34:31

谢谢楼主分享

abcdv 发表于 2010-12-3 13:45:41

回复 1# 航空 的帖子

想看一看。

jw32 发表于 2010-12-3 21:01:50

资料很及时,呵呵

32jd 发表于 2011-1-20 17:48:27

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