Have you ever wondered how aircraft engines are washed and why it is important to do so? If yes, then this series of articles is made for you. We will address the basics of engine wash, why it is essential to monitor it with adapted tools, and how it impacts the Exhaust Gas Temperature (EGT).
Learn more about engine wash in this three-part series:
So, let’s kickstart our journey with a quick recap on the basics of aircraft engine wash.
Aircraft engines are regularly washed to improve their performance. Engines are operated in salty, sandy, or dusty environments. In addition, objects such as insects or birds are ingested and leave residue on the engine parts that affect their efficiency. Moreover, the combustion process often emits fine particles in the air that are later ingested by the engines and deposited on engine parts and surfaces. Aircraft engines then need to be regularly washed to be in the optimal state for improved performance.
Related article >> Three benefits of Aircraft Performance Monitoring to improve your operations.
Companies that provide aircraft engine wash services promote a reduction of the overall fuel consumption of the engine. When this is achieved, CO2 emissions are also reduced. Engine wash is a win-win situation for the environment and for optimal aircraft performance.
The process of washing the engine aims to eliminate dirt, grease, and lubricant buildup. If not cleaned regularly, the residue will become aggregation points for other external particles, speeding up the fouling process.
The engine wash operation cleans the engine compressor rotor blades and stator vanes on which particles deposit, modifying the airflow and deteriorating the engine performance.
The most common way to wash the aircraft engine is to use water with limited mineral parts, such as demineralized water or water with restricted chloride content. A detergent product can also be added, and even glycol to cope with low temperatures. With the support of a compressor washing rig, the water is propelled at high pressure through spray nozzles into the engine running at dry motoring mode.
In any case, the operation must respect the procedures defined by the OEM (Original Equipment Manufacturer). These procedures are defined in the aircraft's AMM (Aircraft Maintenance Manual) or in the EMM (Engine Maintenance Manual).
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The engine’s nacelle is sometimes opened to let the water drain off. The process is composed of several washes and rinses with a final short engine run to dry the parts.
Some alternate and potentially more efficient processes have emerged these past years with water-based solutions being replaced by foam-based tailored solutions, and even by dry ice blasting, detaching the dirt from the engine parts surfaces.
Engine wash can be performed on-wing during a long turnaround as the operation takes a couple of hours, and sometimes less than one hour depending on the process. It can also happen during other maintenance checks with specific operations on the engine. Because water is used for cleaning, the engine wash can’t be performed when the outside air temperature is too low.
Engines are usually washed approximately every hundred cycles, corresponding to a couple of times a year for commercial aircraft. A clean engine results in better fuel efficiency which means it should be cleaned as often as possible to ensure the engine’s best performance. However, engine wash comes at a cost. One of the roles of the Maintenance teams is to evaluate the trade-off between the fuel savings and costs associated with an engine wash operation. This point is discussed in the second article dedicated to aircraft engine wash: How to optimize your aircraft engine wash schedule using data?
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