The following comes from the Appendix of
the formerly restricted "Flight Manual for the B-24
Liberator", the guidebook given to Liberator fly-boys during
their training. This particular manual concerns itself with
the B-24D and it notes that "This Manual is Correct as of
September 15, 1942". |
How to Start -- Taxi-- Warm Up-- Take-Off and
Land the B-24D Airplane
THE B-24D AIRPLANE
|
The B-24 is a large airplane but it is neither difficult
nor tricky to fly. The operation of any airplane, single or
multi-engine, requires certain operations performed in a
definite sequence. This sequence, as it applies to the B-24,
is covered by a complete and explicit Pilot's Check-off
List. This Check List must be followed exactly and
intelligently. Even the most experienced Pilots can not
remember a long detailed list. The Pilot's Check List, as
included in the airplane and in this "Pilot's Flight
Manual", is for the experienced B-24 Pilots as a reminder
and a sequence check-off. Certain other ordinary routine
operations, which the experienced Pilot does instinctively,
must be performed in connection with this list and it is the
purpose of this text to fill in these gaps so that the
inexperienced Pilot who has never seen a B-24 can learn the
entire operation in detail and follow the Check-off List
intelligently. We will follow through each step from the
time the crew first approaches the airplane until the
airplane returns to the field from its flight. |
OPENING THE BOMB BAY DOORS
|
As the crew approaches the airplane the Flight Engineer
opens up by unlocking and opening a small access door on the
right side of the fuselage. Reaching in through this door he
opens the bomb doors by pulling outward on the handle of the
auxiliary bomb door valve. |
CHECKING REMOVAL OF THE PITOT COVERS
|
While this is being accomplished the seasoned and wise
Pilot steps forward to make doubly certain that the covers
on the pitot heads have been removed. He knows that these
covers can not be removed in the air and that with them "ON"
the Airspeed Indicator is inoperative. An airplane of this
size can not be operated safely by guessing airspeeds. With
the ship open, the Pilot and Co-Pilot enter first and go
forward to the cockpit. |
TURN THE FUEL VALVES "ON"
|
The Flight Engineer then enters. His first act is to
turn on the four fuel selector valves, one for each engine.
These are leveled to connect an engine to a corresponding
numbered system or to the cross-connection to which all tank
units and engines may be connected. These valves are located
overhead, forward to the main center section spar, two on
the right on the centerline controlling the flow to Engines
3 and 4, and two on the left side controlling the flow to
Engines 1 and 2. They are so numbered 1, 2, 3, and 4. |
CHECK THE QUANTITY OF FUEL IN THE TANKS
|
The Engineer next checks the fuel load. This is shown by
the two visual gauges located on the left forward face of
the bomb bay bulkhead at the rear of the flight deck. Each
gauge is connected by a two-way valve with two of the four
main fuel systems so that by operation of these valves the
quantity of fuel in each of the four systems may be
determined; 1 and 2 on the outboard gauge, 3 and 4 on the
inboard gauge. In taking a reading the Inclinometer, located
outboard of the gauges must read zero for accurate reading.
A reading off zero can cause a high percentage of inaccuracy
in the quantity of fuel aboard. The figures on the gauges
read in the U.S. Gallons. Each system should have a minimum
of 300 gallons, giving a total for the four systems of 1200
U.S. Gallons. |
THE PILOT AND CO-PILOT SEAT ADJUSTMENT
|
The Pilot and Co-Pilot in their seats adjust them for
maximum comfort by adjusting levers located outboard of each
seat. The three levers permit adjustment fore and aft, up
and down, and tilt. With the seats adjusted properly for
comfort the rudder pedal adjustment for proper length is the
next step. Each pedal adjustment ratchet is located between
the pedals. Adjustment is accomplished by pushing the
ratchet lever away from the pedal with the toe and moving
the pedal fore or aft to the proper position. Be sure the
latch is engaged properly. |
REMOVE THE CONTROLS LATCH AND CHECK THE CORRECT SURFACE
MOVEMENT AND CONTROLS VISUALLY
|
The controls lock which holds the locking lever "UP" in
the locked position is removed and the strap is stowed
securely in the overhead. It is wise to check the locking
lever in the "FULL DOWN" position to make sure it has
dropped all the way and that the lock is released. With the
controls lock released, check the movement and direction of
the controls in the normal manner by turning the wheel for
the ailerons; by exercising the wheel fore and aft for the
elevators; and by pushing each rudder pedal for the rudders.
As the Pilot turns the wheel the Flight Engineer or Co-Pilot
should check the movement of the controls visually and call
out to the Pilot the direction or movement. This check might
seem superfluous but controls have been found crossed after
re-rigging. |
ENGINES MUST BE PULLED THROUGH BY HAND BEFORE STARTING
|
Before beginning the actual starting sequence, each
engine must be pulled through by hand to check the free
turning of the engine, and to clear any oil or fuel which
may have accumulated in the combustion chambers, which if
present, would most certainly result in a damaged engine. |
BE SURE THE IGNITION SWITCHES ARE "OFF" BEFORE ENGINEER
APPROACHES ENGINES
|
Before the Engineer approaches the engines, ignition
switches must be definitely checked "OFF" and the master
ignition switch must be checked "OFF". A kick-back would
result in serious injury to the Engineer. The Engineer must
pull each propeller through six blades which completes two
full revolutions or one complete cycle. Even with the
ignition switches checked in the "OFF" position, the
Engineer should be constantly aware of the possibility of a
broken ground wire which would cause a kick-back. Keep clear
of the propeller plane of rotation while the propeller is
being pulled through. Do not become careless. The ignition
switch "OFF" can be just like the famous unloaded gun. |
SOURCE OF ELECTRICAL POWER FOR TURNING THE ENGINES
|
Power for starting the engines can be drawn (1) from the
ship itself, making use of the batteries plus the Auxiliary
Power Unit; or (2) from outside the ship, making use of a
battery cart or other outside power unit. When the ship's
batteries are used, the Auxiliary Power Unit must be running
unless it is inoperative. Without it, the direct strain of
starting is a severe load on the ship's batteries and
shortens their life. It may even do immediate damage to the
plates of the batteries. If the Auxiliary Power Unit is
inoperative, never attempt to use low batteries---they will
not start the engines and will cause fusing of the starting
solenoids as soon as they are closed. The Auxiliary Power
Unit is never used alone. It does not have enough capacity
to take care of the starter surge and the power requirements
of the starters. The main difference between starting with
the ship's power and starting with outside power as far as
operation is concerned is in the position of the battery
switches located over the master switch on the right side of
the cockpit. In case of a start with the ship's power, these
are turned "ON" connecting the ship's batteries and the
Auxiliary Power Unit with the main power circuit. In case of
a start with outside power, these battery switches are
turned "OFF" since the outside battery plug connects
directly to the main power circuit. Connection for the
outside source of power is a receptacle reached through the
same small door on the right hand side of the fuselage
forward of the bomb doors through which the auxiliary bomb
door handle is reached in first opening the airplane. |
STARTING PROCEDURE
|
For starting either with ship's power or with outside
power.
1. |
BATTERY SWITCHES IN PROPER POSITION -- These
switches located immediately over the master switch
consist of three units in the earlier and two units
in the later installations. All switches are turned
"ON" when ship's power is used for starting and
"OFF" when outside power is used. |
2. |
GENERATOR SWITCHES "OFF" -- The generator
switches located on the generator panel on the
forward face of the bomb bay bulkhead on the left
side are turned "OFF" to prevent vibration damage to
the voltage regulator. |
3. |
AUXILIARY POWER UNIT -- When the start is made
on ship's power, the Auxiliary Power Unit is
started. This unit is located on the left side under
the flight deck. If ship's batteries are fully
charged the unit may be started by priming and then
pressing the started button on the unit. The
generator then acts as a starting motor to turn the
gasoline engine of the unit. If the ship's batteries
are low, the Auxiliary Power Unit must be started by
hand and in this case the starting is accomplished
before the ship's battery switches are turned "ON".
Starting procedure for hand starting is to prime the
unit, wind the starter rope around the drum and pull
to turn the engine over. |
|
TURN "ON" ALL FOUR IGNITION SWITCHES AND THE MASTER
SWITCH
|
The IGNITION SWITCHES 4, 3, 2, and 1 and the Master
Switch, located on the right side of the cockpit at the
Co-Pilot's right hand are turned "ON". |
AUXILIARY HYDRAULIC SWITCH "ON"
|
As the Engineer leaves the airplane to stand by the
starting engines he reaches overhead on the right side ahead
of the spar and turns "ON" the Electric Switch. The
auxiliary pump furnishes hydraulic power until No. 3 Engine
is started. |
WHEEL CHOCKS
|
Wheel chocks are always used if available and are placed
in front of each wheel. |
PARKING BRAKES "ON"
|
The Pilot sets the parking brakes, even though the wheel
chocks are installed, as a further precaution to keep the
airplane from rolling when the engines are being started. |
A.C. POWER FOR INSTRUMENTS IS TURNED "ON"
|
The Alternating Current or inverter power switch located
on the left rear of the pedestal is turned "ON" to either
No. 1 or No. 2 Inverters. These inverters furnish the
Alternating Current power for electrically operated engine
instruments. |
AUTOMATIC FLIGHT CONTROL
|
Automatic Flight Control must be turned "OFF" for
take-off. If take-off is attempted with this unit connected,
free operation of the controls is impossible. A slide bar on
the top of the Automatic Flight Control Unit on the left
side of the pedestal is pulled aft to turn "OFF" all the
Automatic Flight Control Switches. |
SET ALTIMETER FOR THE FIELD BAROMETRIC PRESSURE
|
The Altimeter is set for the proper barometric reading,
as obtained from the flight operations control tower, by
turning the adjustment below the face of the dial. |
DE-ICER CONTROLS "OFF"
|
The De-Icer and the Anti-Icer Controls to the right of
the pedestal on the Instrument Panel are turned "OFF". De-Icer
operating during take-off would change the entire wing lift
characteristic and would be a hazard. |
INTERCOOLERS MUST BE "OPEN" FOR STARTING
|
The intercooler shutter switches located forward on the
pedestal in the center are placed in the "OPEN" position.
Closed intercoolers would cause overheating and detonation. |
COWL FLAPS "OPEN"
|
Cowl flaps are "OPEN" for starting to prevent excessive
temperatures. Cowl flap switches are located on the right
side of the pedestal. To operate place them in the "OPEN"
position and hold until the cowl flaps are fully "OPEN". |
PROPELLERS ARE SET TO HIGH RPM TO REDUCE CYLINDER
PRESSURES AND SHORTEN WARM-UP
|
High RPM's are desirable to hasten warm-up and to reduce
cylinder pressures. The propellers are set for High RPM by
moving the switch bar of the switch gang located on the
forward left side of the pedestal to the "INC" position and
holding it so until the four indicator lights on the center
of the Instrument Panel flash "ON". |
SUPERCHARGERS MUST BE "OFF"
|
All four supercharger controls are set in the "OFF"
position. This opens the engine exhaust tail gate. If the
engines are started with turbos "ON" and the tail gate is
closed the exhaust system would in all probability be blown
off by the usual "pop" or exhaust explosion when the engines
are starting. |
MIXTURE CONTROLS MUST BE IN THE "IDLE CUT-OFF" BEFORE
STARTING THE BOOSTER PUMPS
|
Mixture controls are placed in the "IDLE CUT-OFF"
position. If they are in any other position when the booster
pumps are started the engines will become flooded. This will
create a fire hazard and make starting difficult. |
AIRPLANE FIRE EXTINGUISHERS ARE IMMEDIATELY AVAILABLE IF
NEEDED
|
The airplane fire extinguisher valves, located to the
right of the Co-Pilot, should be checked for position so
that they can be operated quickly if needed. |
STAND BY THE STARTING ENGINE WITH A PORTABLE FIRE
EXTINGUISHER
|
The Flight Engineer or ground mechanic always stands by
the starting engine with a portable fire extinguisher. A
flooded engine could result in a fire which could be
extinguished immediately but which might otherwise be very
serious. |
NOW THE ENGINES CAN BE STARTED
|
Engines are started in the order: 3, 4, 2, and 1. They
are started in this order, which is from inboard to
outboard, so that the Engineer does not have to walk through
or toward a moving propeller when standing by with the
portable fire extinguisher. The No. 3 Engine is started
first because it has the only hydraulic pump attached to it.
The Co-Pilot, who usually starts the engines, checks
visually to see that all personnel and obstructions are
clear of the propellers, calls "ALL CLEAR" and is check
answered "ALL CLEAR" by the Engineer. |
TURN "ON" THE FUEL BOOSTER PUMPS FOR PRIMING PRESSURE
|
The four electric fuel booster pump switches, located
under the Instrument Panel to the left of Co-Pilot's Control
Panel, are turned "ON". The booster pump pressure is
required for priming the engines, in order to force fuel
through the carburetor when the electric priming solenoids
are "OPEN" for the priming switches, as the engine driven
pumps are not operating until the engine starts. The booster
pumps are further required on take-off, on landing, and at
altitudes after the fuel pressure has dropped two pounds.
Booster pumps insure a positive flow of fuel to the engine
pump because they are located directly on the tank outlets. |
ENERGIZE THE STARTER
|
While the No. 3 Engine is being primed with one hand,
the Co-Pilot holds the No. 3 Starter Energizer to "ACCEL"
with his other hand; this Starter Energizing Switch is
located below the priming switch. |
PRIME THE ENGINE CAREFULLY FOR STARTING
|
Open the No. 3 Throttle approximately 1/3; prime the No.
3 Engine. The primer switches are located below the
Instrument Panel to the left of the Co-Pilot's Control
Column and are numbered corresponding to the engines. To
prime, press the switch intermittently. By doing this the
fuel is driven into the engine intake in spurts and priming
is much more effectively accomplished than by holding the
switch "ON" for a fixed interval. From one to ten such
"shots" are required depending upon the temperature of the
engine and the outside air. |
CRANK
|
With the engine properly primed and the starter
energized the Co-Pilot now throws the meshing switch to
"CRANK". There are two types of starters on the B-24: The
earlier type where the Energizing Switch is held to "ACCEL"
for thirty seconds then released before pressing the meshing
switch, and the new type which is held to "ACCEL" for twelve
seconds and then continued in the "ACCEL" position while the
meshing switch is thrown to "CRANK". The latter type starter
is a constant energizer and keeps the engine turning as long
as the Energizing Switch is held to "ACCEL". |
PLACE THE MIXTURE CONTROLS IN "AUTO-LEAN" WHEN ENGINE
FIRES
|
After the engine definitely fires on the priming charge,
throw the mixture controls from the "IDLE CUT-OFF" to the
"AUTO-LEAN" position. "AUTO-LEAN" is used for starting,
warm-up, and taxiing, as "AUTO-RICH" or "FULL-RICH" will
cause the plugs to become fouled and the engine to load up
because of the too rich mixture. When the mixture control is
in "IDLE CUT-OFF" there is no flow of fuel to the carburetor
jets. As soon as the mixture control lever is moved from
"IDLE CUT-OFF" a valve is opened and fuel under the booster
pump pressure flows to the carburetor jets. Therefore, if
the engine does not start immediately, the mixture control
must be returned to "IDLE CUT-OFF" to prevent flooding of
the carburetor and the entire induction system. Do not
exceed 1400 RPM in :"AUTO-LEAN" on the ground as higher
speed, increased temperature and manifold pressure will
cause detonation. |
THE WARM-UP
|
On arriving at the head of the runway or the designated
warm-up area, stop the airplane and set the parking brakes. |
EXERCISE THE PROPELLERS TO CHECK THEIR FULL RANGE OF
OPERATION
|
With the throttles set for 1000 RPM on all engines
exercise the propellers throughout their entire range. The
Propeller Indicator Lights will come "ON" when the
propellers reach the limit of travel. Exercise all the way
to Low RPM high pitch and return to High RPM low pitch.
Leave them in this position for the run-up and take-off. |
ADJUST THE CONTROL TABS FOR TAKE-OFF
|
The control tabs are adjusted during the run-up for the
best take-off positions; the elevator tabs are set for 1o
tail heavy; aileron tab is set in neutral; rudder tabs are
set for 1o to 2o right udder. These
are the settings for normal conditions and loading. At this
time it is wise to check the Automatic Flight Control and
De-Icer again as well as controls for freedom of movement.
These checks become automatic with experience as they affect
the control and performance of the airplane. |
"AUTO-RICH" MIXTURE POSITION IS ALWAYS USED FOR TAKE-OFF
AND FOR FULL POWER REQUIREMENTS
|
Preparatory to the run-up the mixture controls are moved
from "AUTO-LEAN" and set in the "AUTO-RICH" position. In
"AUTO-LEAN" the engines will detonate under full power.
Completely detonating engines will stop completely and
suddenly. |
CHECK THE FUEL PRESSURE AND THEN TURN "ON" THE BOOSTER
PUMPS
|
Check the fuel pressure with the booster pumps "OFF" --
The normal reading should be from 14 to 16 pounds and then
turn then booster pumps "ON" for run-up and take-off. The
booster pump switches are the top row of switches under the
Instrument Panel to the left of the Co-Pilot's Control
Column. The engines are run-up with at least 105o
C. head temperature but not over 205o C. Engines
are run-up one at a time. |
CHECK BOTH MAGNETOS AT 2000 RPM
|
During the run-up when the engine reaches 2000 RPM both
switches are checked. A maximum of 75 RPM drop on either
magneto is allowable. After this check, open the throttles
wide against the stop. The engine supercharger will give
approximately 36 to 37 inches manifold pressure at sea
level. |
SET THE SUPERCHARGER FOR THE TAKE-OFF REQUIREMENTS
|
With the throttle wide open move the supercharger
control forward slowly to "ON". The manifold pressure
increased from the engine supercharger boost to the final
sea level take-off setting of 49 inches. The
turbo-supercharger increases the boost 12 inches by creating
a pressure, or ram, on the inlet air to the carburetor. The
turbo control stops are set at the factory for a 49 inch sea
level reading. This same run-up procedure is carried out for
all four engines. |
EXTEND THE FLAPS FOR TAKE-OFF ON NO. 3 RUN-UP
|
On the run-up of No. 3 Engine we take advantage of the
hydraulic power supply, and extend the wing flaps to the
take-off setting: either 10o or 20o
depending on take-off conditions. The Fowler flaps are set
to 10o for the best average take-off. This
setting gives maximum performance in case of engine failure.
Flaps extended 20o is the setting for maximum
take-off lift. For normal operation, however, the 10o
setting is recommended. To stop the flaps in any position
before "FULL DOWN" return the operating lever to neutral
manually. In the extreme positions the lever returns
automatically to neutral. After run-up it is better to
maintain 800 to 1000 RPM idling speed so that the engines
will not foul up. Low idling speeds cause sooty and
malfunctioning spark plugs. |
TURN GENERATORS "ON" AFTER RUN-UP
|
The four generators are cut in at the panel, located
outboard of the fuel gauges on the left forward face of the
bomb bay bulkhead. As each switch is turned to "ON" increase
the revolutions of the same numbered engine slightly to
check the charge. The generators are left "OFF" during
warm-up. If the generator switches are turned "ON" the
voltage regulator points become badly mutilated due to the
excess vibration during warm-up. |
CLOSE DOWN THE COWL FLAPS FOR TAKE-OFF
|
The cowl flaps are closed to "1/3 OPEN" for take-off.
Normally this gives ample cooling with a minimum of
resistance for take-off. For normal temperature conditions,
less than "1/3 OPEN" will not provide sufficient cooling. It
is a point to remember that on average the cowl flaps reduce
the airplane speed eight-tenths of a mile per hour at
cruising speed for each degree of cowl flap opening. With
the cowl flaps open more than 1/3, tail buffeting results. A
wider opening, therefore, is not recommended for take-off
nor in flight unless absolutely necessary due to extreme
heat conditions. |
LANDING LEVER PLACED IN "DOWN" FOR CHECK
|
After the run-up, move the landing gear lever to the
"DOWN" position again and check the kick-out pressure. It
should read from 825 to 875 p.s.i. on the Main Hydraulic
Gauge. This is located above the Pilot's Control Column.
Glance at the instrument for a last look. Check the crew
aboard and be sure that the Nose Wheel Compartment is clear.
Now all is in readiness for the take-off run. |
THE TAKE-OFF
|
Release the brakes, swing into the wind and open the
throttle slowly and evenly against the stops. Have the
Co-Pilot hold them in this position so there will be no
chance of creeping closed. The throttle frictions are
usually set lightly for take-off and landing to permit free
movement if necessary. During the take-off run the Co-Pilot
must check the supercharger pressure carefully and make any
adjustment to hold the supercharger pressures equalized at
49 inches. As the plane accelerates the Pilot should apply a
gentle back pressure on the controls to assist in lifting
the plane on the gear. The plane, with a moderate load,
leaves the ground easily at 110 MPH. This take-off speed
increases up to 130 MPH for a plane with a full load. After
leaving the ground the nose of the plane should be held down
and the take-off course maintained until the indicated
airspeed reaches 135 MPH. At this speed full control is
available in the event of an outboard engine failure, under
average conditions. |
RAISE LANDING GEAR
|
As soon as the airplane is well clear of the ground and
definitely air borne the landing gear is raised. If the
landing gear fails to retract immediately the cause is
probably air in the system, which can be eliminated by
working the operating lever through sufficient "UP" and
"DOWN" cycles to bleed it off. |
REDUCE THE POWER TO SAVE ENGINES
|
After take-off reduce the manifold pressure to 45.5
inches (the maximum allowable continuous power rating for
one hour) by retarding the turbo control lever. |
REDUCE PROPELLER REVOLUTIONS TO 2550 AND SYNCHRONIZE
PROPELLERS
|
Reduce the revolutions to 2550 with the propeller
control switches. |
RAISE THE FLAPS
|
After the landing gear lever has returned to neutral the
flaps may be raised. Do not attempt to operate the landing
gear and the flaps simultaneously; with the open center
system the valve nearest the engine pump cuts off all other
units.
Airspeed of 155 MPH must not be exceeded with flaps
extended. |
FUEL BOOSTER PUMPS "OFF"
|
The fuel booster pumps are turned "OFF" as their
auxiliary pressure is not again needed until the fuel
pressure drops 2 pounds due to altitude or until landing. |
ADJUST COWL FLAPS
|
Cowl flaps are adjusted as necessary to control engine
head temperatures not to exceed 260o C. in climb
(or under maximum power) with Mixture Controls in
"AUTO-RICH".
The maximum head temperature allowable for cruising in
"AUTO-LEAN" is 232o C. Check the engine
instruments:
Oil pressure 75 to 80 pounds;
Fuel pressure 14 to 16 pounds;
Maximum oil temperature for "AUTO-LEAN" cruising
75o C.
For full rate of power in "AUTO-RICH" a maximum
oil temperature of 85o is permitted. For
military power for five minutes 100o C.
is the maximum allowable. |
To reduce the drag the cowl flaps should be
kept as nearly fully closed as possible. High airspeed cools
better than open cowl flaps. The use of cowl flaps reduces
lift as well as increases drag; therefore, use minimum
opening which will maintain proper cooling. Do not allow
head temperature to exceed 260o for full power or
high speed in "AUTO-RICH" or 232o C. for
continuous operation in "AUTO-LEAN"
|
TURN THE AUXILIARY HYDRAULIC MOTOR "OFF" ON EXTENDED
FLIGHTS
|
The auxiliary hydraulic motor is turned "OFF" when other
than a purely local flight is being made. Thy hydraulic pump
on No. 3 Engine is capable of furnishing all the necessary
power for flight operations. The auxiliary pressure switch
has maximum and minimum setting such that the unloading
valve will not function and the electric pump when "ON" will
supply all of the accumulator charge. |
LANDING
|
As the plane approaches the field and enters the pattern
the Pilot retards the throttles and reduces the speed to 155
MPH. |
NOTIFY THE CREW SO THEY CAN PERFORM THEIR DUTIES
|
As speed is being reduced the Pilot notifies the crew
that the airplane is coming in for a landing and receives a
report that the Nose Wheel Compartment of clear of the crew
and that all is in readiness for a landing. |
TURN "ON" HYDRAULIC ELECTRIC SWITCH FOR AUXILIARY POWER
|
The auxiliary hydraulic switch is turned "ON" as the
full supply of main hydraulic power will not be available
when No. 3 engine is throttled. |
CHECK ACCUMULATOR PRESSURE TO BE SURE OF BRAKING POWER
|
Check the accumulators for proper pressure. The gauge is
located on the left of the Pilot's Control Column and should
read between 850 and 1125 p.s.i. |
TURN "OFF" A.F.C. OR "AUTOMATIC PILOT"
|
Make sure that the "Automatic Flight Control" or "Pilot"
is turned "OFF". Landing would be hazardous attempting to
overpower the automatic controls. |
CLOSE THE COWL FLAPS TO REDUCE DRAG AND RETARD ENGINE
COOLING
|
Cowl flaps are closed on the approach to prevent rapid
engine cooling in the glide and to cut down head resistance
in the event landing is refused. Open cowl flaps also lower
the lift of the wing surface directly behind them which is a
considerable area. |
PLACE THE MIXTURE CONTROLS IN "AUTOMATIC RICH"
|
The mixture controls are placed in the "AUTO-RICH"
position in the event full power might be needed. (Full
power is available only with the mixture controls in
"AUTO-RICH.") |
INTERCOOLER SHUTTERS MUST BE "OPEN"
|
Intercooler shutters are checked for "OPEN" unless they
are needed because of carburetor icing; in which case the
head temperatures must be watched carefully and the Co-Pilot
on the alert to open them immediately. |
TURN "ON" THE BOOSTER PUMPS
|
Booster pumps are turned "ON" to insure positive flow of
fuel to the engine pumps. |
THE DE-ICERS MUST BE "OFF"
|
The De-Icers must be turned "OFF" -- Be sure to check
this. When the De-Icers are operating the inflated shoes act
as spoilers as the wing approaches the stall and change the
landing behavior of the airplane. |
CHECK FOR LANDING KICK-OUT PRESSURE WITH LANDING GEAR
LEVER IN "UP" POSITION
|
Move the landing gear lever to the "UP" position to
check kick-out pressure; which should be from 1050 to 1100
p.s.i. |
LOWER LANDING GEAR WHEN SPEED IS REDUCED TO 155 MPH
|
Move the landing gear lever, located on the left side of
the pedestal, to the rear and downward to the "DOWN"
position. Lever will return to neutral when the gear is
down. As the gear is lowering check this sequence of
operation: The hydraulic pressure on the main gauge to the
left of the Pilot's Control Column builds up suddenly and
then drops; the warning light in front of the Pilot on the
Instrument Panel turns "ON"; landing gear control handle
returns to neutral. The warning horn sounds when the
throttle is closed unless the gear is latched properly in
the "DOWN" position. The return of the handle to neutral
does not mean that the latches are engaged. A surge as the
gear bottoms could cause a premature kickout. |
INSPECT ALL LANDING GEAR LATCHES VISUALLY
|
A crew member must check the gear latches to be
absolutely certain they are engaged. The nose gear latches
may be inspected from the Nose Wheel Compartment. Each of
the main landing gear latches can be seen from the rear
window on each side. They are painted a bright yellow for
immediate identification. The main landing gear latches can
not be seen with the flaps extended. |
LOWER THE WING-FLAPS HALF-DOWN FIRST
|
After the landing gear lever has kicked back to neutral
and the gear has been checked; with the speed still reduced
to 155 MPH, enter the landing lane and extend the wing flaps
20o by moving the flap lever on the right of the
pedestal to the rear. When the flap indicator reads 20o
return the flap control lever to neutral manually. This
stops the flaps in the 20o" "DOWN" position. The
flap lever only returns automatically from the extreme
positions "UP" and "DOWN". Half-down flap is recommended for
the beginning of the approach. With the flaps in this
position the lift and drag are both increased and the
attitude of the airplane affords a greater angle of vision
during landing. With the flaps partially or completely
extended the airplane is fully maneuverable but not so
responsive. |
TURBO CONTROLS ARE TURNED "OFF"
|
Turbo controls are turned "OFF" normally. When landing
at altitude they are left in a position to furnish the
required manifold pressure. Handle the throttles carefully.
With the turbo controls "ON" a backfire may blow off the
exhaust manifold as the tail gate is closed and the turbo
outlet restricts free exhaust. |
PROPELLERS HIGH RPM
|
Place the propeller control switches at "INC" RPM. This
throws the propellers in low pitch High RPM so that maximum
power will be available in case landing is refused. |
FLAPS "FULL DOWN"
|
When approaching the boundary of the landing field the
flap lever is placed in the "DOWN" position and flaps fully
extended. The lever will return automatically to neutral and
the indicator will show 40o extended flap. When
the flaps are extended fully always allow sufficient
interval of time before the final level-off, or flare, for
the airplane to settle into its new attitude to avoid
confusing the Pilot at the last minute before the flare for
landing. |
CHECK THE LANDING GEAR "DOWN" AGAIN
|
Move the landing gear lever again to the "DOWN" position
for final check. |
CLOSE THE THROTTLES AND LAND
|
When the airplane reaches the proper position over the
runway, with the throttles closed, begin the flare with
ample altitude for control response. Remember, the B-24D
Airplane has great momentum due its weight and resists
sudden change of direction. Adjust the elevator tabs to
assist in the landing and hold the airplane off the ground
as long as possible. The best landing position is the
conventional one for airplanes not equipped with tricycle
gear. Never land in a position which will allow the nose
wheel to make contact first. A three-wheel landing should be
made only when brake application is necessary immediately
upon touching the ground. |
|