Direct facility coolant cooling of a rack-mounted heat exchanger
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H05K-007/20
F24F-011/00
F25D-017/02
F25D-031/00
F24F-003/14
출원번호
US-0706568
(2012-12-06)
등록번호
US-9474186
(2016-10-18)
발명자
/ 주소
Campbell, Levi A.
Chu, Richard C.
David, Milnes P.
Ellsworth, Jr., Michael J.
Iyengar, Madhusudan K.
Simons, Robert E.
출원인 / 주소
INTERNATIONAL BUSINESS MACHINES CORPORATION
대리인 / 주소
Chiu, Esq., Steven
인용정보
피인용 횟수 :
1인용 특허 :
10
초록▼
A method is provided for dissipating heat from a rack. The method includes: disposing a coolant-cooled heat exchanger within the rack, and providing a coolant control apparatus. The coolant control apparatus includes at least one coolant recirculation conduit coupled in fluid communication between a
A method is provided for dissipating heat from a rack. The method includes: disposing a coolant-cooled heat exchanger within the rack, and providing a coolant control apparatus. The coolant control apparatus includes at least one coolant recirculation conduit coupled in fluid communication between a facility coolant supply and return, wherein the facility coolant supply and return facilitate providing facility coolant to the heat exchanger. The control apparatus further includes a coolant pump(s) associated with the recirculation conduit(s) and a controller which monitors a temperature of facility coolant supplied to the heat exchanger, and redirects facility coolant, via the coolant recirculation conduit(s) and coolant pump(s), from the facility coolant return to the facility coolant supply to, at least in part, ensure that facility coolant supplied to the heat exchanger remains above a dew point temperature.
대표청구항▼
1. A method of facilitating dissipating heat from an electronics rack, the method comprising: disposing a coolant-cooled heat exchanger within the electronics rack, the coolant-cooled heat exchanger facilitating dissipation of heat generated within the electronics rack; andproviding a coolant contro
1. A method of facilitating dissipating heat from an electronics rack, the method comprising: disposing a coolant-cooled heat exchanger within the electronics rack, the coolant-cooled heat exchanger facilitating dissipation of heat generated within the electronics rack; andproviding a coolant control apparatus external to the electronics rack, the coolant control apparatus comprising: at least one coolant recirculation conduit coupled in fluid communication between a facility coolant supply conduit and a facility coolant return conduit of a facility housing the electronics rack, the facility coolant supply conduit facilitating a flow of facility coolant to the coolant-cooled heat exchanger within the electronics rack, and the facility coolant return conduit facilitating exhausting of the facility coolant from the coolant-cooled heat exchanger of the electronics rack, the at least one coolant recirculation conduit being coupled between the facility coolant supply and return conduits external to the electronics rack;at least one coolant pump associated with the at least one coolant recirculation conduit, the at least one coolant pump facilitating controlled recirculation of one portion of the facility coolant in the facility coolant return conduit directly to the facility coolant supply conduit through the at least one coolant recirculation conduit to selectively raise a temperature of the facility coolant supplied by the facility coolant supply conduit to the electronics rack, while another portion of the facility coolant in the facility coolant return conduit continues to exhaust through the facility coolant return conduit past the at least one coolant recirculation conduit; anda controller, the controller monitoring the temperature of the facility coolant supplied by the facility coolant supply conduit to the electronics rack, and when the monitored facility coolant temperature is below a dew point temperature, the controller automatically controlling the at least one coolant pump to provide a partial recirculation of the facility coolant, via the at least one coolant recirculation conduit, from the facility coolant return conduit to the facility coolant supply conduit as needed to raise the monitored facility coolant temperature above the dew point temperature to ensure that the facility coolant to the coolant-cooled heat exchanger within the electronics rack remains above the dew point temperature. 2. The method of claim 1, wherein providing the coolant control apparatus further comprises providing the coolant control apparatus with a flow control valve, the flow control valve being associated with the facility coolant supply external to the electronics rack, the at least one recirculation conduit being coupled in fluid communication with the facility coolant supply conduit downstream of the flow control valve, between the flow control valve and an inlet to the electronics rack comprising the coolant-cooled heat exchanger, and the controller automatically controlling the flow control valve to control a flow of the facility coolant within the facility coolant supply conduit, wherein the controller automatically adjusts the at least one coolant pump and the flow control valve to, at least in part, ensure that the facility coolant reaching the coolant-cooled heat exchanger remains above the dew point temperature, and ensure a sufficient flow of the facility coolant to the coolant-cooled heat exchanger within the electronics rack from the flow control valve combined with the at least one coolant recirculation conduit. 3. The method of claim 1, wherein providing the coolant control apparatus further comprises providing a differential pressure sensor coupled between the facility coolant supply conduit and the facility coolant return conduit, the differential pressure sensor sensing a pressure differential between the facility coolant supply conduit and the facility coolant return conduit, the sensed differential pressure facilitating maintaining, by the controller, facility coolant flow through the coolant-cooled heat exchanger within the electronics rack, and wherein the differential pressure sensor is coupled between the facility coolant supply conduit and the facility coolant return conduit external to the electronics rack, downstream of where the at least one coolant recirculation conduit couples in fluid communication with the facility coolant supply conduit and an inlet to the electronics rack comprising the coolant-cooled heat exchanger. 4. A method for dissipating heat from an electronics rack comprising: controllably recirculating one portion of facility coolant passing through a coolant-cooled heat exchanger associated with the electronics rack, the controllably recirculating comprising recirculating the one portion of facility coolant through at least one coolant recirculation conduit coupled in fluid communication between a facility coolant supply conduit and a facility coolant return conduit of a facility housing the electronics rack, the facility coolant supply conduit and the facility coolant return conduit facilitating a flow of facility coolant through the electronics rack comprising the coolant-cooled heat exchanger, the at least one coolant recirculation conduit being coupled between the facility coolant supply and return conduits external to the electronics rack;wherein the controllably recirculating comprises controlling at least one coolant pump associated with the at least one coolant recirculation conduit to facilitate controlled recirculation of the one portion of facility coolant from the facility coolant return conduit to the facility coolant supply conduit through the at least one coolant recirculation conduit to selectively raise a temperature of the facility coolant supplied by the facility coolant supply conduit to the electronics rack, while another portion of the facility coolant in the facility coolant return conduit continues to exhaust through the facility coolant return conduit past the at least one coolant recirculation conduit; andmonitoring the temperature of facility coolant to the coolant-cooled heat exchanger and incrementally adjusting a flow control valve associated with the facility coolant supply conduit to incrementally increase or decrease cooled facility coolant flow from the facility coolant supply conduit to the coolant-cooled heat exchanger as needed to, at least in part, ensure that facility coolant passing through the coolant-cooled heat exchanger remains above a dew point temperature, wherein the at least one coolant recirculation conduit couples in fluid communication with the facility coolant supply conduit downstream of the flow control valve, between the flow control valve and an inlet to the electronics rack comprising the coolant-cooled heat exchanger, and provides only part of the flow of facility coolant in the facility coolant supply conduit fed to the electronics rack comprising the coolant-cooled heat exchanger. 5. A method of facilitating dissipating heat from an electronics rack, the method comprising: disposing a coolant-cooled heat exchanger within the electronics rack, the coolant-cooled heat exchanger facilitating dissipation of heat generated within the electronics rack; andproviding a coolant control apparatus, the coolant control apparatus comprising: at least one coolant recirculation conduit coupled in fluid communication between a facility coolant supply conduit and a facility coolant return conduit of a facility housing the electronics rack, the facility coolant supply conduit facilitating a flow of facility coolant to the coolant-cooled heat exchanger within the electronics rack, and the facility coolant return conduit facilitating exhausting of the facility coolant from the coolant-cooled heat exchanger of the electronics rack;at least one coolant pump associated with the at least one coolant recirculation conduit, the at least one coolant pump facilitating controlled recirculation of one portion of the facility coolant in the facility coolant return conduit directly to the facility coolant supply conduit through the at least one coolant recirculation conduit to selectively raise a temperature of the facility coolant supplied by the facility coolant supply conduit to the electronics rack, while another portion of the facility coolant in the facility coolant return conduit continues to exhaust through the facility coolant return conduit past the at least one coolant recirculation conduit; anda controller, the controller monitoring the temperature of the facility coolant supplied by the facility coolant supply conduit to the electronics rack, and when the monitored facility coolant temperature is below a dew point temperature, the controller automatically controlling the at least one coolant pump to provide only a partial recirculation of the facility coolant, via the at least one coolant recirculation conduit, from the facility coolant return conduit to the facility coolant supply conduit as needed to raise the monitored facility coolant temperature above the dew point temperature to ensure that the facility coolant to the coolant-cooled heat exchanger within the electronics rack remains above the dew point temperature.
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이 특허에 인용된 특허 (10)
Knodel Bryan D. (San Angelo TX) Kooy Richard J. (Western Springs IL), Apparatus and method for cooling using aqueous ice slurry.
Chu,Richard C.; Ellsworth, Jr.,Michael J.; Porter,Donald W.; Schmidt,Roger R.; Simons,Robert E., Apparatus and method for facilitating cooling of an electronics rack employing a heat exchange assembly mounted to an outlet door cover of the electronics rack.
Campbell, Levi A.; Chu, Richard C.; Ellsworth, Jr., Michael J.; Iyengar, Madhusudan K.; Simons, Robert E., Cooling system and method utilizing thermal capacitor unit(s) for enhanced thermal energy transfer efficiency.
Campbell, Levi A.; Chu, Richard C.; Ellsworth, Jr., Michael J.; Iyengar, Madhusudan K.; Simons, Robert E., Dehumidifying and re-humidifying air cooling for an electronics rack.
Corso Anthony B. (Cincinnati OH) Elliott G. Mark (Hudson OH), Real time remote sensing pressure control system using periodically sampled remote sensors.
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