Condenser ice removal for environmental control system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64D-013/06
F25B-029/00
출원번호
US-0713012
(2012-12-13)
등록번호
US-9022319
(2015-05-05)
발명자
/ 주소
Ji, Changdae
출원인 / 주소
Hamilton Sundstrand Corporation
대리인 / 주소
Carlson, Gaskey & Olds, PC
인용정보
피인용 횟수 :
0인용 특허 :
18
초록▼
Environmental control system bleed air is cooled by a heat exchanger. A fan pulls ambient air from a ram inlet duct across the at least heat exchanger and to an outlet. An air cycle machine drives the fan. The bleed air passes downstream of the at least heat exchanger to a compressor, and then drive
Environmental control system bleed air is cooled by a heat exchanger. A fan pulls ambient air from a ram inlet duct across the at least heat exchanger and to an outlet. An air cycle machine drives the fan. The bleed air passes downstream of the at least heat exchanger to a compressor, and then drives a first stage turbine. The first stage turbine has an outlet communicating with a condenser, and then a second stage turbine. An icing control system taps hot air downstream of the compressor. An add heat valve is selectively moveable between a first position blocking flow from the tap passage. A second position where it passes air from the tap passage to the condenser inlet, and to a point downstream of the condenser and to the second stage turbine. In a third position, the valve only communicates air from the tap passage into the condenser.
대표청구항▼
1. An environmental control system comprising: an inlet duct for receiving inlet hot at least one heat exchanger in a path of the hot air between the inlet duct and an outlet to cool the hot air, a fan to pull ram air for cooling the hot air across the at least one heat exchanger;first and second st
1. An environmental control system comprising: an inlet duct for receiving inlet hot at least one heat exchanger in a path of the hot air between the inlet duct and an outlet to cool the hot air, a fan to pull ram air for cooling the hot air across the at least one heat exchanger;first and second stage turbines for driving said fan, the hot air passing downstream of the at least one heat exchanger to be compressed by a compressor, and then driving said first stage turbine, said first stage turbine having an outlet communicating with a condenser, and said condenser having an outlet communicating with said second stage turbine; andan icing control system including a tap passage tapping hot air downstream of said compressor, the tapped hot air passing to an add heat valve, the add heat valve being selectively moveable between three positions, including a first position where the add heat valve blocks flow from said tap passage into a condenser line leading to an inlet to said condenser, a second position where the add heat valve passes air from said tap passage both into said condenser line, and further to a point downstream of said condenser and passing to said second stage turbine, and a third position wherein said add heat valve only communicates air from said tap passage into said condenser line leading to said condenser inlet. 2. The system as set forth in claim 1, wherein a temperature sensor upstream of said condenser is relied upon at least in part to determine which of said three positions is appropriate. 3. The system as set forth in claim 1, wherein there is at least a first and second of said heat exchangers, and air downstream of said compressor passing into said second of said heat exchangers, and air in said second of said heat exchangers passing through a reheater, and then across said first stage turbine. 4. An aircraft comprising: an aircraft body, a ram air system including an outer opening on an outer surface of said aircraft body; andan environmental control system including a source of hot air for passing through at least one heat exchanger, and ram air driven by a fan across said at least one heat exchanger, to be compressed by a compressor, and then driving a first stage turbine, said first stage turbine having an outlet communicating with a condenser, and said condenser having an outlet communicating with a second stage turbine, an icing control system including a tap passage for tapping hot air downstream of said compressor, and the tapped air passing to an add heat valve, the add heat valve being selectively moveable between three positions, including a first position where the add heat valve blocks flow from said tap passage into a condenser line leading to an inlet to said condenser, a second position where the add heat valve passes air from said tap passage both into said condenser line, and further to a point downstream of said condenser and passing to said second stage turbine, and a third position wherein said add heat valve only communicates air from said tap passage into said condenser line leading to said condenser inlet. 5. The aircraft as set forth in claim 4, wherein a temperature sensor upstream of said condenser is relied upon at least in part to determine which of said three positions is appropriate. 6. The aircraft as set forth in claim 4, wherein there is at least a first and second of said heat exchanger in the path of the hot air, and air passing to said compressor passing into said second of said heat exchangers, and said air in said second of said heat exchangers passing through a reheater, and then across said first stage turbine. 7. A method of operating an environmental control system for use on an aircraft including the steps of: (a) delivering hot air from a source, through at least one heat exchanger, and downstream of the at least one heat exchanger to a compressor, and then to a turbine drive system;(b) passing ambient air from outside of said aircraft into an inlet duct, across the at least one heat exchanger, and through a fan pulling the ambient air to use for hot air cooling;(c) selectively tapping air downstream of said compressor through a tap passage to an inlet of said condenser, and also to an inlet for a second stage turbine in the turbine drive system, with a valve movable between three positions based upon conditions, and said valve being moved between a first position at which the valve blocks flow from said tap passage to both the inlet to the condenser, and to the second stage turbine, a second position where the valve allows flow of the air from the tap passage to both said condenser inlet and to said second stage turbine, and to a third position at which the valve blocks flow to the second stage turbine, but allows flow to said condenser inlet.
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