Winter Weather Means An Increased Chance Of Water In Your
Gas
Winter weather is fast approaching, and some areas have already
received their first snowfalls. With the onset of colder weather,
the FAA has issued Special Airworthiness Information Bulletin
(SAIB) as a reminder about the hazards associated with water
contamination of fuel tank systems. The fuel tank system consists
of all tanks, components, lines, fittings, etc., from the fuel tank
to the engine.
This SAIB is similar to SAIB CE-10-40R1, dated July 30, 2010,
which addresses specific Cessna aircraft models, and is meant to
cover general aviation aircraft not included in SAIB
CE-10-40R1.
Water may enter the fuel tank system via any penetration in the
wing fuel tank and from moisture condensation inside the tank.
Water in the fuel may come out of solution, settle and make its way
to a drain location in the form of a blob, pea, or BB-shaped
translucent mass found at the bottom of the sampler cup. Water
suspended in the fuel may lead to a cloudy or hazy appearance in
the sampler cup. Water may have dissolved in the fuel, but the
conditions have not yet occurred to cause the water to come out of
solution and perhaps adhere to the dry tank upper surface or walls
(similar to condensation). Understanding this, all pilots, owners,
operators, maintenance, and service personnel should assume some
water exists in the fuel tank system on the airplane.
The FAA recommends pilots do the following:
- Become familiar with all drain locations on a specific model of
airplane. From model to model in a series of airplanes, the number,
type, and location of drains may not be the same. There is no
single point of drainage that can be used to check for all fuel
system contaminants simultaneously. Take the time to properly check
all drain locations, before each flight.
- With the airplane in the normal ground attitude and starting at
the highest drain location, check all drain locations for
contaminants before every flight, whether or not refueling has
occurred. Have fuel sample disposal provisions and proper lighting
at your disposal to properly check for fuel tank system
contamination.
- Drain at least one cup of fuel (using a clear sampler cup) from
each drain location.
- Drain the fuel strainer as required to completely flush its
contents in each of the fuel selector positions.
- Check for water, clarity, cloudiness, haze, proper fuel
type/grade (i.e.; 100LL is light blue in tint, jet fuel is clear or
yellowish), odor, or other contaminants.
- Allow time between fueling and draining. It takes time for any
contaminates to settle to sump area prior to draining tanks.
- If any contamination is detected in the fuel tank system,
thoroughly drain all drain locations again.
- If contamination is observed, take further samples until the
fuel appears clear, and gently rock the airplane in both the roll
and pitch axis to move any additional contaminants to the drain
points.
- Take repeated samples from all drain locations until all
contamination has been removed.
- If contaminants are still present, do not fly the airplane.
Have qualified maintenance personnel drain and purge the fuel tank
system. Remove all evidence of contamination prior to further
flight.
Take proper precautions to preclude water from entering into
your fuel tank system from an external source (washing, rain, snow,
sleet, etc.). Regularly check all external entry sites (caps,
access panels, etc.) for evidence of water ingress into the fuel
tank system. When possible store the airplane indoors. If stored
outdoors or exposed to wet conditions (washing, rain, snow, sleet,
etc.), examine the fuel tank system drains for contamination more
frequently. Particular attention should be paid to airplanes that
have been externally cleaned and/or refinished. It is advised that
pressure washing be avoided near fuel system caps/filler areas,
when washing the aircraft, and it's a good idea to remove
accumulated snow/ice from the fuel tank entry sites to prevent
ingress of water during melting.
During annual or 100-hour inspections, the FAA recommends the
following:
- Check fuel caps, cap gaskets, cap adaptors, cap adaptor
gaskets, fuel filler neck to adaptor sealer, fuel gage transmitter
gaskets, gage transmitter access covers, and upper surface
inspection covers for condition, proper sealing, security,
alignment, etc. Ensure to service and clean these areas, replacing
parts as necessary.
- Drain and flush the fuel strainer and carburetor bowl
completely.
- Inspect the interior of metal fuel tanks for signs of
corrosion, which may indicate water contamination.
- Inspect the interior of bladder tanks for wrinkles, broken or
missing hangers, etc.
- If signs of contamination are found, alert the owner and fuel
supplier of your findings for corrective action.
If aircraft has a fuel drain valve replaced with a cap or plug,
you should suspect water contamination in the respective tank.
Strongly consider having a qualified maintenance technician install
the proper drain valve prior to flight. Also, take precautions to
preclude water migration in the fuel tank system from an internal
source (free water coming out of solution). Keep fuel tanks full
when the airplane will not be operated regularly to minimize
moisture condensation within the tanks. Keep fuel tanks full
between flights, provided weight and balance limitations permit.
Limit the fuel tanks exposure to large temperature fluctuations as
much as possible. If the airplane has been exposed to sustained
wing low or unusual attitudes or a fuel tank has been run dry,
sump
contaminants may have migrated throughout the fuel tank system.
Know your fuel supplier. Regularly check and verify quality
controls are in place to ensure you receive only dry,
uncontaminated fuel from a supplier. Have on-field checks and
verify to ensure continued supply of dry uncontaminated fuel to an
operator. Gain assurance that the fuel supply has been checked for
contamination and is properly filtered before allowing the airplane
to be serviced. When ordering fuel, specifically state the exact
fuel grade and quantity needed. Be present at each and every
refueling and observe the fueling process.
Collect all sampled fuel in a safe container and dispose of
properly. Replace all safety items removed during contamination
checks. Correct all unsatisfactory conditions found during or any
examination prior to further flight.
At this time, the Federal Aviation Administration has determined
that this airworthiness concern is not an unsafe condition that
would warrant issuing an airworthiness directive (AD).