Flying the Bf 109: Two experts give their reports (part 1 of 2)
By Mark Hanna and Eric Brown – Flight Journal, December 1999
MARK HANNA: The Bf 109 is, without a doubt, the most satisfying and challenging
aircraft I 11ve ever flown. So how does it fly and how does it compare with other WW II
fighters? To my eye, the aircraft looks dangerous, both to the enemy and to its own pilots.
Its "difficult" reputation is well-known, and right from the outset, you are aware that it
needs to be treated with a great deal of respect. When you talk to people about the 109,
all you hear is how you are going to wrap it up on takeoff or landing!
As you walk up to the 109, you are at first struck by its small size, particularly if it is
parked next to a contemporary American fighter. Closer examination reveals a crazy-
looking, knock-kneed undercarriage, a very heavily framed, sideways-opening canopy with
almost no forward view in the three-point attitude, a long rear fuselage and tiny tail
surfaces.
A walk around reveals ingenious split radiator flaps and ailerons with a lot of movement
and rather odd-- looking external mass balances. It also has independently operating
leading-edge slats. These devices should glide open and shut on the ground with the
pressure of a single finger. Other unusual features include the horizontal stabilizer that
doubles as the elevator trimmer and the complete absence of a rudder-trim system.
Overall, the finish is a strange mix of the innovative and archaic.
Entering the cockpit
To enter the cockpit, you climb on board and gently lower yourself downward and forward
while holding on to the windscreen. Once inside, you are almost lying down as you would
be if driving a racecar. The cockpit is narrow, and if you have broad shoulders (don't all
fighter pilots?), it is a tight squeeze. Once strapped in-itself a knuckle-rapping affair-you
can take stock.
First impressions are of its simplicity. From left to right, the co-located elevator-trim and
flap-trim wheels fall easily to hand. You need several turns to get the flaps fully down to
10 degrees, and the idea is that you can crank both together. In practice, this is a little
difficult, and I tend to operate them independently.
Coming forward, you see the tailwheel locking lever. This either allows the tailwheel to
caster or it locks it dead ahead. Next is the throttle quadrant, which consists of a huge
throttle handle and the manual propeller pitch control. Forward and down on the floor is
an enormous and very effective ki-gas primer with a T-shaped handle. Directly above this
and in line with the canopy seal is the red hood-jettison lever. Pulling this releases two
very strong springs in the rear part of the canopy and causes the rear section to come
loose and, therefore, the whole main part of the hood is unhinged and can be pushed
away into the airflow. Looking directly forward you see, clustered together, the standard
instrument panel with the vertical-select magnetos on the left, starter and booster coil
slightly right of center and engine instruments all grouped on the right-hand side. This
aircraft's instrumentation is all German apart from the altimeter.The center console under the main instrument panel consists of a 720 channel radio, VOR,
ADF and E2B compass. Just to the left of the center console, close to your left knee, is the
undercarriage up/down selector and the mechanical and electrical undercarriage position
indicator. On D-FEHD, this is a two-- button selector. Select the undercarriage up or down
position by lifting the guard and simply pushing the relevant button. Radiator flaps are
controlled by a four-position selector-"Zu," "Auf," "Auto" and "Ruhe" (rest).
The right side of the cockpit has the electrical switches, battery master, boost pumps,
pitot heat, and that's it! There is no rudder trim or rudder-pedal adjust; also, the seat can
be adjusted only during preflight and offers a choice of only three settings. If you are any
bigger than me (six feet tall), it all starts to get a bit confined. Once you are strapped in
and comfortable, close the canopy to check your seating position. If you haven't flown the
109 before, you usually get a clout on the head as you swing the heavy lid over and
down. Nobody sits that low in a fighter!
D-FEHD has a beautiful "Galland hood" that offers a much improved view compared with
the earlier, heavier-frame canopy.
Up,up and away, almost
I'm sitting as high as I can, and my head is touching the canopy. I am not wearing
goggles, as they scratch and catch the hood if they are up on your head. A large bone
dome is out of the question and, in my opinion, is a flight-safety hazard in this aircraft.
Hood positively locked-push up on it to check. Oil temperature is 50 degrees, coolant
temperature is greater than or at 70 degrees. Brakes ON (there is no parking brake), stick
back, and power gently up to 30 inches and 2,100rpm. Exercise the prop at least twice,
with the rpm falling back to 1,800 each time; keep an eye on the oil pressure. The noise
and vibration levels have now increased dramatically. Power back to 1,800rpm and check
the mags. Insignificant drop on each side. You must hurry, as the coolant temperature is
at 98 degrees C and going up; you have to get rolling to get some cooling air through the
radiators. Pre-takeoff checks: elevator trim set to +1 degree, no rudder trim, throttle
friction tight. This is vital, as you will need your left hand for various services immediately
after takeoff. Mixture is automatic, pitch to fine. Fuel cock is ON, both boost pumps are
ON, pressure is good, primer is locked. Flaps crank down to 20 degrees for takeoff.
Radiator flaps checked at full open; if you take off with them closed, you will certainly boil
the engine and are guaranteed to crack a head. Gyros set to Duxford's runway.
Instruments: temps and pressures all in the green for takeoff. Radiator is now 102
degrees. Oxygen, you don't have; hood rechecked down and locked; harness tight and
secure; hydraulics, no check. Controls full and free, tailwheel locked. Got to go-105
degrees. There's no time to hang around and worry about the takeoff. Here you go!
Airborne
Power gently up and keep it coming smoothly up to 40 inches. Keep the tail down initially,
and keep it straight by feel rather than any positive technique. Tail is coming up now, and
the rudder is becoming effective. Unconscious corrections to the rudder are happening all
the time. It's incredibly entertaining to watch the 109 lift off the ground; the rudder
literally flashes around!This little fighter is now bucketing along, accelerating rapidly. As the tail lifts, there is a
positive tendency to swing left. This can easily be checked; however, if you are really
aggressive in lifting the tail, the left swing tendency is difficult to stop and happens very
quickly. Now the tail is up, and you can vaguely see where you are going. It's a wild,
rough ride on grass, and with all the noise and the smoke from the stacks, it's exciting.
Quick glance at the airspeed indicator (ASI): 160km/h, a light pull-back on the stick, and
you're flying!
Hand off the throttle, select FLUG on the undercarriage selector. The mechanical
indicators motor up very quickly, and you feel and hear a "clonk, clonk" as the gear comes
home. A quick look out at the wings, and you can see that the slats-fully out-are starting
to creep in as the airspeed increases and the angle of attack reduces. With 230km/h and
an immediate climbing turn-up, you enter the downwind leg just in case you need to put
the airplane down in a hurry. The Old Flying Machine Company's SOP is always to fly an
orbit overhead of the field to allow everything to stabilize before venturing off-this has
saved at least one of our airplanes.
Start to frantically crank up the flaps and increase the airspeed through 250km/h; power
back to 33 inches and 2,300rpm for the climb. Plenty of airflow through the narrow
radiators now, so close them and remember to keep a watchful eye on the coolant gauge
for the next few minutes until the temperature has settled down. With the radiator flaps
closed, the aeroplane accelerates positively. As you climb, you're aware of holding in a
little right rudder to keep the ball in the middle, but the foot loads are light, and it's no
problem. Level off and power back to 30 inches and 2,100rpm. The speed has picked up
to the 109's cruise of about 400km/h, and now the ball is right in the middle, and no
rudder input is necessary.