The present disclosure is directed to an effluent collection unit for use during engine washing.
Existing engine washing equipment includes a collecting device for capturing the wash effluent. The collecting device is transported on a trailer to an airport, towed to the aircraft, and set up behind the engine. The collecting device is not collection effective on all aircraft variations.
As described herein, there is provided an effluent collection unit for engine washing. The effluent collection unit broadly comprises a portable trailer having a plurality of sides forming an internal compartment and an effluent collection system positioned within the internal compartment for capturing engine wash water effluent when the trailer is placed in an operational configuration.
Other details of the effluent collection unit, as well as advantages attendant thereto are set forth in the following detailed description and drawings wherein like reference numerals depict like elements.
An effluent collection unit is provided that includes a rugged, compact, self-contained, transportable trailer that is easily transformed into an efficient, versatile effluent collecting device.
The effluent collection unit is intended to capture the engine water wash effluent which contains contaminates from the engine cleaning process. The effluent collector unit prevents discharge of contaminated water to the environment and allows the washing of engines at an airport gate, in a hangar, or at other locations in an airport operations area.
The effluent collection unit improves engine wash operations, logistics, safety, and performance. The effluent collection unit may be used with an integrated wash unit which prepares and distributes the engine wash water and recycles the effluent.
The effluent collection unit 10 is shown in
The trailer 12 has a front end wall 15, a pair of opposed side walls 18, and an end panel 20 having a first section 22 which forms a rear wall for the trailer and a second section 24 which forms a top panel for the trailer. Behind the front end wall 15 may exist a plurality of droplet separator panels 17 which are moved as shown in
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The trailer 12 may have tail lights 46, running lights 48, brake lights 50, fenders 52, and reflectors 54. The unit 10 may be provided with connection points and conversion kits or adapters as required for the lights.
The walls 15 and 18, the end panel 20, the platform 38, and the base 13 may be formed from any suitable waterproof and corrosion resistant material. If desired, personnel access doors or panels 21 may be provided in the walls 15 and 18 and the end panel 20 to access the internal compartment and storage areas within the compartment when the trailer 12 is in its traveling mode. The storage areas may be used to store manifolds, spares, ladders, and storage items.
Referring now to
The effluent collection system 50 may also have at least one tank 56 located in base 13 or platform 38 for receiving the effluent gathered by the collection device(s) 52. The collection device(s) 52 may be connected to the tank(s) 56 located in base 13 or platform 38 by any suitable drainage system. A pump 58 may be provided to pump effluent from the tank(s) 56 to a recycling unit or other disposal system which does not form part of the effluent collection system. The pump 58 may be a self priming pump to assist with the transfer of effluent from the tank(s) 56. Suitable fittings and hoses may be provided as needed. The tank(s) 56 may store effluent for at least two engine water wash cycles. The tank(s) 56 may be formed from a corrosion proof and leak proof material and may be protected from puncture damage as needed. The tank(s) 56 may be mounted to the base 13 or platform 38 in any suitable manner.
The effluent collection system 50 may also include a preliminary hydrocarbon adsorption or oil-water separation mechanism that serves as a primary remover of oil from the collected effluent. Lipophilic materials added to or integral with the collection devices and drains are useful. Oil adsorbing pillows, tubes or sheets that float on the effluent may also be used. Still further, skimmers may be used.
The effluent collection unit may have means 19 for removal of mist and contaminates downstream from the droplet separator panels 17 such as mist collection, mist separation, mist absorption and/or mist filtration material placed downstream from the droplet separator panels 17.
The effluent collection unit 10 if desired, may provide a method for removing effluent from the engine exhaust area. A suction hose with a quick connect pipe with tapered tip or flexible hose may be provided for extracting effluent from the engine via a pump or vacuum device.
The effluent collection unit 10 may, if desired, have a built-in adjustable ladder or platform, with non-skid coating, to allow access to the engine exhaust.
The effluent collection unit 10 may be used with a wide variety of commercial and military on-wing and tail mounted engines. The effluent collection unit may collect effluent from the bleed ports, bypass ports, etc. of the engines. If necessary, this may be accomplished with movable and/or extending panels 18, flexible shrouds, supported ducts, and/or diverter plates.
The effluent collection unit described herein has a more rugged design for use in harsh airport environments, improved operator safety, simplified operation, reduced maintenance and more efficient logistics, transportation and storage features.
The effluent collection unit 10 may be easily maneuvered when empty by one person and when full by two or more persons. Further, transfer of the effluent collection unit into its deployed position can be done quickly, i.e. less than 20 minutes.
The effluent collection unit 10 may be positioned under the centerline of the engine. The effluent collection unit 10 may be moved laterally with auxiliary wheels 60 mounted to the base 13, which auxiliary wheels may be lowered or raised. Visual indicators to assist an operator in setup and alignment may be provided.
The effluent collecting unit described herein has improved effluent collection performance and reduced environmental spill potential, improved effectiveness on a greater variety of aircraft engine applications, a compact design which improves logistics and reduces shipping storage costs and requirements, eliminates the need for additional trailers for transportation between airports, allows towing on highways and airport operations areas, prevents rain water from filling collector when stowed, reduced maintenance, ease of assembly and operation, an integrated lifting capability, oil removal from effluent and effluent removal from engine exit area, and provides storage capacity for other spares/supplies.
It is apparent that there has been provided an effluent collection unit for engine washing. While the effluent collection unit has been described in the context of specific embodiments thereof, other unforeseeable alternatives, modifications, and variations may become apparent to those skilled in the art having read the foregoing description. Accordingly, it is intended to embrace those alternatives, modifications, and variations as fall within the broad scope of the appended claims.