Pay particular
attention to the highlighted paragraphs!
Those That Have
and Those That Will….
What you can do before the engine fails
by Michael W. Brown
Reprinted with permission from FAA Aviation News
Less than a century ago, when powered flight was in
its infancy, any pilot possessing the skill and good
fortune needed to amass flying time was well practiced
in handling mechanical (particularly engine) failures.
This was due to the comparatively primitive state of
the technology at the time that afforded aviators many
opportunities to perfect these talents. Fortunately,
as time marched on, aviation made advancements in engine
design and manufacturing. Today, in-flight engine failures
have evolved from an operational norm, to an event that
occurs at intervals measured in the thousands of hours.
Still, when engines do fail, they have an annoying and
potentially tragic tendency to do so at the most inopportune
time. Of course “inopportune” could be any
time other then when sitting on the ramp. However, the
degree of inconvenience tends to be inversely proportional
to the volume of air beneath you—the lower you
are, the fewer your options, the greater the nuisance.
For this reason, a great deal has been written on how
best to manage engine-out emergencies (in a single-engine
aircraft) at lower altitudes, particularly during take-off.
Although a century’s worth of aviation literature
has left few parts of this discussion uncovered, it
can be argued that any experience adds to the sum total
of our knowledge.
Not long ago, I found myself with the opportunity to
add my own first hand account to this existing reserve
of knowledge. Because I had the good fortune to weather
such an emergency unscathed, I was able to gain a lesson
of immeasurable value. While you may never find yourself
behind a malfunctioning power plant, my hope is that
insights and lessons gained during my incident will
help you should you experience an engine failure.
That Fateful Day
It was a late summer afternoon (forgive the poetic prose),
and my friend and I were on a short final to Runway
5 at our home airport. As luck would have it, the airplane
on the runway had missed its intended turn-off and would
not be clear in time for us to land. The situation was
easily handled, as we executed a go-around and began
our climb. At some point between 450-500 feet above
ground level (AGL), the engine, which until that moment
had run perfectly, suddenly experienced a significant
power loss. The onset of the engine failure was so sudden
and dramatic as to leave little doubt that we would
be landing sooner, rather than later.
At this point, we began a left turn back toward the
runway. There was only a slight crosswind, and a left
turn took us away from the right traffic pattern (and
another aircraft now on downwind). We now found ourselves
over the intersecting runway, and although an abbreviated
downwind-base-final turn to Runway 12 was possible,
we elected to continue the turn back to Runway 23. We
had the altitude, and Runway 23 had the virtue of greater
length and more open space adjacent to each side, including
a generous overrun area that would later prove quite
useful.
As we took a 45-degree cut (following our 180-degree
turn) toward our modified base-to-final, we saw a Mooney
departing upwind. Fortunately, we made visual contact,
and it was no factor as we began our final turn toward
the runway. We landed with less than a third of the
runway remaining. Through normal braking, we were able
to slow down to approximately 25-30 knots before departing
the runway end. The overrun area provided an obstruction-free
field for us to complete our landing roll. No metal
was bent, and nobody was hurt. As engine failures go,
the event proved rather benign. We later found the culprit
to be a piece of insulation that came loose from the
air box and found its way into the carburetor.
Lessons Learned
Although I would like to claim cunning and skill, the
fact is success resulted as much from good
fortune as superior airmanship. The weather conditions
were beautiful with good visibility and ceiling and
very little wind or turbulence. We were also fortunate
to have enough altitude to provide us with several potentially
life-saving options. Combine these with a lack of other
air traffic, the engine’s mode of failure (no
thrown rods, no oil on the wind screen), and the runway
length and overrun area, and clearly the deck was stacked
in our favor. This point was not lost on me as I began
analyzing the emergency and each of the events that
followed. As a result, I was able to draw several conclusions.
First, the addition of a second pilot may be a blessing
or a curse, depending on how you manage your resources.
Although I was pilot in command (that was determined
before the flight), my friend (also a rated pilot) was
flying the aircraft at the time of the incident. While
the temptation to assume
control was great, his management of the situation warranted
no such change. For me to take over at that time would
have only made a bad situation worse. Instead, I undertook
the role of monitor, keeping a
close eye on the airspeed indicator and turn coordinator,
while watching out for traffic and managing other cockpit
duties. This left the other pilot with only one responsibility
—to fly the airplane.
If there are two rated pilots
on board, it is imperative that each knows his or her
role in the event of an emergency. Perhaps the
pilot conducting the take off is not the best person
to fly the airplane should an engine fail at lower altitudes.
Two hundred feet AGL is the worst moment to have such
a debate, and, in an engine out scenario where time
is precious, you cannot waste it discussing who will
fly the airplane. Determine when; if, and how control
of the aircraft will be transferred before take off.
If you are not the one flying the airplane, there are
several things you can do to help facilitate a safe
outcome. First, help in locating a suitable landing
site. Next, watch for traffic and make radio calls as
time allows. Also, help the pilot flying by calling
out airspeeds and watching the turn coordinator. If
necessary, remind the pilot flying to keep the ball
centered. Finally, since you are not flying the airplane,
you are free to start securing the aircraft once committed
to a landing (fuel and electrical systems- off, door-
ajar, etc.).
A second point worth mentioning, the
desire to do no harm to the aircraft is far more intense
than you might imagine. Do not let this dictate your
actions. In retrospect, I was amazed that during
the event, which lasted less than a minute, I could
not recall any thought being given to my own peril.
However, I vividly remember how much I wanted to avoid
damaging the airplane. While your fate and that of the
aircraft’s are very much intertwined, just remember
a crumpled landing gear or bent propeller is a small
price to pay for minimizing the risk of personal injury.
Next, for most general aviation
(GA) pilots, 80-90% (or more) of their flying is done
from the same four or five airports. Given this, spend
some time surveying the terrain around these airports
from the air. For each runway end, locate the
open spaces that may serve as potential off-airport
landing sites. For unfamiliar airports, you may note
such things during your arrival (as workload and conditions
permits). Calculate where you can land and give some
thought to your arrival. Armed with this information,
you can have a mental strategy in place should a problem
occur.
To that end, you should review this strategy before
every departure. Most multi-engine pilots are taught
to conduct pre-departure briefings
in case of an emergency, but this is often not
the case for those flying singles. The
goal is to be “spring loaded” to execute
your plan should it become necessary. Keep in
mind you’re planning for a worst-case scenario,
and a dent-free airplane is not the goal—walking
away from the airplane is. When developing a plan, remember
to consider factors such as weather (density altitude,
wind, etc.), runway length, airport environment, and
of course the aircraft. They all impact your strategy.
Finally, the airspace below 500
feet AGL is no place to trouble shoot engine difficulties.
If everything was working a minute ago while you were
on the ground, there is probably little you can do to
remedy the problem once you’ve departed. You may
have time to engage the auxiliary fuel pump and perhaps
switch fuel tanks, but that’s likely to be it.
Time and effort committed to any other actions is potentially
dangerous and should probably be avoided. Instead, focus
your energies on flying the aircraft and preparing for
the inevitable landing.
Other Considerations
To turn back or not to turn back—there
are many variables (wind speed and direction, airport
configuration, runway length, air and ground traffic,
the airplane being flown, etc.) that will influence
your answer, but again, time will not be on your side
in an emergency. Should disaster strike below 500 feet
AGL, a turn back to the runway is likely ill advised.
However, you may have a perpendicular runway, taxiway,
or open field that requires only a 90 degree turn to
reach it. If this is part of your prearranged escape
plan, make certain to include it in your pre-departure
check. Knowing if other traffic is on such movement
areas could prove extremely important if called upon
to put your plan into practice. Above
500 feet (again, this is not a magic number), you may
be able to turn back under the right set of circumstances.
Just remember, it’s
better to make a controlled landing into a small space
than an uncontrolled crash into an open field—or
anywhere else for that matter.
Another potentially difficult
situation comes with a partial versus a complete engine
failure. If the power loss is complete and/or the failure
is catastrophic, it is much easier to mentally commit
to an emergency landing. On the other hand, if
the engine is making at least some power, the temptation
is to press on and attempt a normal landing.
Of course, the advantage of a partial engine failure
is the remaining power may provide options that might
otherwise not exist. However, this may compel you to
abandon an advantageous landing site in favor of something
better, like a runway. Unfortunately,
partial engine failures have a tendency to become complete
engine failures. While no pilot wants his or
her flight to end somewhere other than an airport, the
open field or highway median rejected one minute may
prove better than the crowded parking lot or apartment
complex facing you the next.
So what should you do? If the only option(s) available
to you are unfavorable, meaning that in your judgment
serious injury or loss of life is inevitable, use whatever
power you may have to find a more suitable landing site.
However, if you have a “sure thing” and
you feel you can land and walk away, by all means take
it. Don’t think about how
you’ll explain your actions to the flight
school or insurance company, and in particular, don’t
waste time worrying about the FAA’s response.
You have both the authority and
responsibility to deviate from the regulations to the
extent required to address the emergency. Contrary
to popular opinion, the FAA has no process in place
that’s worth dying to avoid. If you can say in
all good conscience “I was losing power and landing
here afforded my passengers and I the best chance of
survival while minimizing the threat to persons on the
ground,” how can anyone second-guess that?
The Bottom Line
Every flight, at its most basic
level, is an exercise in risk management. Anything
you can do to identify and mitigate those risks improves
your chances of successfully managing an emergency,
particularly the loss of an engine during take off.
While a little luck will go a long way, the more you
plan, the less good fortune you’ll need.
In a scenario such as the one I’ve described,
your goal is to minimize the time spent in what I like
to call “No man’s land.” That is,
the period of time where you have no suitable or definitive
location to land in the event of an engine failure.
With proper planning, you may be able to reduce that
time down to zero. In other cases, you may find the
time spent in no man’s land is uncomfortably long—20
or 30 seconds.
For example, take a Cessna 172 departing a 7,000-foot
strip on a typical spring day. Given the take-off and
landing performance of this aircraft, coupled with the
runway length, plus any runway safety areas, you may
determine that following an engine failure you can land
straight ahead from a height of 200 feet AGL. In your
pre-departure briefing, you could say, “Engine
failure on the runway—power to idle and brake
while maintaining directional
control. Engine failure below 200 feet—power to
idle, pitch for the recommended glide speed, land the
airplane and brake as appropriate.” You may have
determined that an open farm field south of the airport
would make a suitable landing site. If you calculate
it is possible to reach that field once you are above
200 feet AGL, you may now have an escape plan that encompasses
your flight from takeoff roll to 500 feet AGL.
From that point forward, you may choose the field, a
turn back to the runway, or fly a normal pattern, whichever
is most appropriate. Since my engine-out episode, now
at every 100 feet, I call out (verbally or mentally)
where I’m going if the engine quits. I do this
until reaching an altitude at which I figure a reasonably
normally pattern may be flown in an emergency. I find
this helps to maximize my state of mental preparedness,
and at any given time, I know exactly where I’m
going should the engine fail. I may not always like
my options, but I know what they are. As a result, no
time will be wasted.
This brings me to my final point. The
FAA uses four seconds as the period of time required
to react in an emergency. While this is not a great
deal of time, it is long enough for airspeed to erode,
altitude to be lost, and an excessive rate of descent
to be established. Four seconds is enough to glide another
300-400 feet, open a door, switch fuel tanks, or turn
several degrees. Given this, your actions must be immediate
and precise. As a wise instructor once told me, “Move
with deliberate speed, and avoid panic speed at all
costs.” To that I would add, there’s no
substitute for thorough preflight planning.
Editor’s Note: Pilots should review the takeoff
and emergency procedures for their aircraft before each
flight as part of their takeoff planning.
Michael W. Brown is an Aviation Safety Analyst in
Flight Standards Service’s General Aviation and
Commercial Division
Return
To The Top
