Apparatus for Pre-Heating Potable Water in Aircraft with Waste Heat

Abstract

An apparatus for pre-heating potable water in aircraft with waste heat includes an air to water heat exchanger having a heat exchanger housing with an inlet end that receives heat from one or more of a galley insert exhaust air inlet, a galley appliance exhaust air inlet and an air chiller exhaust air inlet. A potable water supply inlet supplies potable water to the air to water heat exchanger, which transfers heat to the potable water, and a potable water supply outlet supplies heated potable water, such as to a galley insert or galley appliance, for example. An exhaust air outlet vents cooled exhaust air from the air to water heat exchanger.

Claims

1. A method for pre-heating potable water in aircraft with waste heat, comprising: transferring heat from aircraft galley insert or aircraft galley appliance exhaust air and air chiller exhaust air to an air to water heat exchanger, the air to water heat exchanger having a heat exchanger housing including an inlet end and an outlet end, said inlet end including an aircraft galley insert or aircraft galley appliance exhaust air inlet and an air chiller exhaust air inlet connected in thermal communication with said air to water heat exchanger, said outlet end including an exhaust air outlet connected in thermal communication with said air to water heat exchanger, wherein cooled exhaust air is vented from said air to water heat exchanger; supplying, by a potable water supply inlet, aircraft potable water to said air to water heat exchanger, the potable water supply inlet connected in fluid communication with said air to water heat exchanger, wherein said air to water heat exchanger transfers heat from said aircraft galley insert or aircraft galley appliance exhaust air and said air chiller exhaust air to the aircraft potable water from said potable water supply inlet; and supplying, by a potable water supply outlet, heated aircraft potable water from said air to water heat exchanger, the potable water supply outlet connected in fluid communication with said air to water heat exchanger.

2. A method for pre-heating potable water in aircraft with waste heat, comprising: transferring heat from aircraft galley insert or aircraft galley appliance exhaust air and air chiller exhaust air to an air to water heat exchanger, the air to water heat exchanger having a heat exchanger housing including an inlet end and an outlet end, said inlet end including an exhaust air inlet connected in thermal communication with said air to water heat exchanger, said outlet end including an exhaust air outlet connected in thermal communication with said air to water heat exchanger, wherein cooled exhaust air is vented from said air to water heat exchanger; supplying, by a potable water supply inlet, aircraft potable water to said air to water heat exchanger, the potable water supply inlet connected in fluid communication with said air to water heat exchanger, wherein said air to water heat exchanger transfers heat from said aircraft galley insert or aircraft galley appliance exhaust air and said air chiller exhaust air to the aircraft potable water from said potable water supply inlet; and supplying, by a potable water supply outlet, heated aircraft potable water from said air to water heat exchanger, the potable water supply outlet connected in fluid communication with said air to water heat exchanger, said potable water supply outlet being configured to supply heated aircraft potable water from said air to water heat exchanger, the potable water supply outlet connected in fluid communication with an aircraft galley insert or an aircraft galley appliance.

3. The method of claim 2, wherein said exhaust air inlet comprises an aircraft galley insert exhaust air inlet.

4. The method of claim 3, wherein said aircraft galley insert exhaust air inlet is configured to receive heated aircraft galley exhaust air from an aircraft galley insert.

5. The method of claim 4, wherein said air to water heat exchanger is configured to transfer heat from said aircraft galley insert exhaust air to the aircraft potable water from said potable water supply inlet.

6. The method of claim 2, wherein said exhaust air inlet comprises an aircraft galley appliance exhaust air inlet.

7. The method of claim 6, wherein said aircraft galley appliance exhaust air inlet is configured to receive heated aircraft galley exhaust air from an aircraft galley appliance.

8. The method of claim 7, wherein said air to water heat exchanger is configured to transfer heat from said aircraft galley appliance exhaust air to the aircraft potable water from said potable water supply inlet

9. The method of claim 2, wherein said exhaust air inlet comprises an air chiller exhaust air inlet.

10. The method of claim 9, wherein said air chiller exhaust air inlet is configured to receive heated chiller exhaust air from an air chiller.

11. The method of claim 10, wherein said air to water heat exchanger is configured to transfer heat from said air chiller exhaust air to the aircraft potable water from said potable water supply inlet.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] FIG. 1 is a schematic diagram of the air to water heat exchanger according to the present invention.

[0012] FIG. 2 is a top plan view of the air to water heat exchanger of FIG. 1.

[0013] FIG. 3 is an end elevational view of the air to water heat exchanger of FIG. 1.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0014] Referring to the drawings, which are provided for purposes of illustration and by way of example, the present invention provides for an air to water heat exchanger 10 having a housing 12 with an inlet end 14, and an outlet end 16. The inlet end of the housing preferably includes a galley insert or galley appliance exhaust air inlet 18 for receiving galley insert or galley appliance exhaust air 20, and an air chiller exhaust air inlet 22 for receiving air chiller exhaust air 24. The outlet end of the housing preferably includes a cooled exhaust air outlet 26 for venting cooled exhaust air 28. The galley insert exhaust air inlet or galley appliance exhaust air inlet and the air chiller exhaust air inlet are connected in thermal communication with the air to water heat exchanger, and are configured to transfer heat from one or more of galley insert exhaust air, galley appliance exhaust air, and air chiller exhaust air to the air to water heat exchanger. The heat exchanger housing exhaust air outlet is connected in thermal communication with the air to water heat exchanger, and is configured to vent cooled exhaust air from the air to water heat exchanger.

[0015] The air to water heat exchanger also includes a potable water supply inlet 30 and a potable water supply outlet 32 connected in fluid communication with the air to water heat exchanger. The potable water supply inlet is configured to supply potable water to the air to water heat exchanger, and the air to water heat exchanger is configured to transfer heat from one or more of heated galley insert or appliance exhaust air and heated chiller exhaust air to potable water from the potable water supply inlet. The air to water heat exchanger includes a potable water supply outlet configured to provide a preheated potable water supply 34 from the air to water heat exchanger, such as to a galley insert or galley appliance, for example.

[0016] The air to water heat exchanger advantageously saves aircraft power by using waste heat produced by an air chiller, or a galley insert or galley appliance, such as a refrigerator, oven, water boiler, electronics, or the like, to raise the temperature of potable water supplied by the aircraft, reducing power consumption. As a consequence, the air to water heat exchanger cools the temperature of the exhaust air from the air chiller, galley insert or galley appliance, to the benefit of the aircraft environmental control system or temperature sensitive areas where the exhaust air from the air chiller, galley insert or galley appliance would be vented. The air to water heat exchanger forms part of the potable water supply system for the galley and can be drained as part of the normal galley supply system purging. The air to water heat exchanger can be an optional fixture, and preferably supplements, rather than replaces, a conventional galley insert or galley appliance water heating capability. The air to water heat exchanger potable water supply is independent of the galley faucet supply, and can be independently filtered.

[0017] It will be apparent from the foregoing that, while particular forms of the invention have been illustrated and described, various modifications can be made without departing from the spirit and scope of the invention. Accordingly, it is not intended that the invention be limited, except as by the appended claims.