Cooling system and method for controlling cooling system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25D-015/00
H05K-007/20
출원번호
US-0654460
(2012-10-18)
등록번호
US-8959938
(2015-02-24)
우선권정보
JP-2011-229159 (2011-10-18)
발명자
/ 주소
Ito, Junichi
Kashirajima, Yasuhiro
Inadomi, Yasuhiko
Yoshida, Tomohiro
출원인 / 주소
Hitachi Ltd.
대리인 / 주소
Antonelli, Terry, Stout & Kraus, LLP.
인용정보
피인용 횟수 :
0인용 특허 :
25
초록▼
A cooling system includes an evaporator for evaporating a refrigerant to cool an object to be cooled; a refrigerant-supply-flow-rate regulator for regulating a flow rate of the refrigerant to be supplied to the evaporator; a condenser for condensing the refrigerant by cooling the refrigerant by use
A cooling system includes an evaporator for evaporating a refrigerant to cool an object to be cooled; a refrigerant-supply-flow-rate regulator for regulating a flow rate of the refrigerant to be supplied to the evaporator; a condenser for condensing the refrigerant by cooling the refrigerant by use of a chilled fluid; and a chilled-fluid-flow-rate regulator for regulating a flow rate of the chilled fluid to be supplied to the condenser, the refrigerant condensed by the condenser being to be pressurized to be supplied to the evaporator. The chilled-fluid-flow-rate regulator regulates a flow rate of the fluid, to be supplied to the evaporator, for a temperature of the refrigerant condensed to come to a predetermined target refrigerant-liquid temperature, and the refrigerant-supply-flow-rate regulator regulates a flow rate of the refrigerant, to be supplied to the evaporator, for a temperature of the object cooled to come to a predetermined target cooling temperature.
대표청구항▼
1. A cooling system comprising: at least one evaporator, wherein each evaporator is configured to evaporate a refrigerant and to cool an object to be cooled by heat exchange between the refrigerant and the object to be cooled;a refrigerant-supply-flow-rate regulator configured to regulate a flow rat
1. A cooling system comprising: at least one evaporator, wherein each evaporator is configured to evaporate a refrigerant and to cool an object to be cooled by heat exchange between the refrigerant and the object to be cooled;a refrigerant-supply-flow-rate regulator configured to regulate a flow rate of the refrigerant to be supplied to each evaporator;a post cooling temperature measurement device configured to measure a temperature of the object cooled by each evaporator, through heat exchange with the refrigerant;a condenser configured to condense a refrigerant, evaporated by the at least one evaporator, by cooling the evaporated refrigerant through heat exchange between the evaporated refrigerant and a chilled water;a refrigerant-temperature measurement device configured to measure a temperature of the refrigerant condensed by the condenser;a chilled-water-flow-rate regulator configured to regulate a flow rate of the chilled water to be supplied to the condenser; anda dew point temperature measurement device configured to measure a dew-point temperature of air in a peripheral environment where the at least one evaporator is arranged;wherein the refrigerant condensed by the condenser is pressurized so as to be supplied to the at least one evaporator;wherein the chilled-water-flow-rate regulator is configured to regulate a flow rate of the chilled water to be supplied to the condenser such that a temperature of the condensed refrigerant is equal to a predetermined target refrigerant-liquid temperature;wherein the refrigerant supply-flow-rate regulator is configured to regulate the flow rate of the refrigerant to be supplied to each evaporator such that a temperature of the object cooled is equal to a predetermined target cooling temperature for each evaporator;wherein the chilled-water-flow-rate regulator is configured to regulate a flow rate of the chilled water to be supplied to the condenser such that a temperature of the condensed refrigerant is equal to or higher than the dew-point temperature if the target refrigerant-liquid temperature is lower than the dew-point temperature measured by the dew-point temperature measurement device. 2. The cooling system comprising: at least one evaporator, wherein each evaporator is configured to evaporate a refrigerant and to cool an object to be cooled by heat exchange between the refrigerant and the object to be cooled;a refrigerant-supply-flow-rate regulator configured to regulate a flow rate of the refrigerant to be supplied to each evaporator;a post-cooling temperature measurement device configured to measure a temperature of the object cooled by each evaporator, through heat exchange with the refrigerant;a condenser configured to condense a refrigerant evaporated by the at least one evaporator by cooling the evaporated refrigerant through heat exchange between the evaporated refrigerant and a chilled water;a refrigerant-temperature measurement device configured to measure a temperature of the refrigerant condensed by the condenser; anda chilled-water-flow-rate regulator configured to regulate a flow rate of the chilled water to be supplied to the condenser;a refrigerant pump configured to pressure the refrigerant condensed by the condenser to be supplied to the at least one evaporator;a pressure-difference measurement device configured to measure a pressure difference of the condensed refrigerant between a suction side and a discharge side of the refrigerant pump;a refrigerant pump controller configured to regulate a rotation frequency of the refrigerant pump such that the pressure difference calculated based on a measurement value of the pressure difference measurement device is equal to a predetermined differential-pressure setting value;wherein the refrigerant condensed by the condenser is pressurized so as to be supplied to the at least one evaporator;wherein the chilled-water-flow-rate regulator is configured to regulate a flow rate of the chilled water to be supplied to the condenser such that a temperature of the condensed refrigerant is equal to a predetermined-liquid temperature; andwherein the refrigerant-supply-flow-rate regulator is configured to regulate the flow rate of the refrigerant to be supplied to each evaporator such that a temperature of the object cooled is equal to a predetermined target cooling temperature for each evaporator. 3. The cooling system according to claim 2, wherein the pressure difference measurement device includes: an outlet-side pressure gauge configured to measure a pressure of the condensed refrigerant at a discharge side of the refrigerant pump, anda refrigerant-temperature measurement device provided at a suction side of the refrigerant pump;wherein the refrigerant-pump controller is configured to calculate a pressure of the condensed refrigerant at the suction side of the refrigerant pump based on a measurement value by the refrigerant-temperature and to calculate a pressure of the condensed refrigerant at the discharge side of the refrigerant pump based on a measurement value by the outlet-side pressure gauge; andwherein the refrigerant-pump controller is configured to determine, as said pressure difference, a pressure difference between the condensed refrigerant at the suction side of the refrigerant pump and the condensed refrigerant at the discharge side of the refrigerant pump. 4. The cooling system according to claim 2, wherein the cooling system includes: the condenser at a first side, and the at least one evaporator at a second side; andwherein the first side serving as a refrigerant natural-circulation type is configured such that: the first side is disposed to be higher than the second side, the refrigerant condensed at the first side is sent to the second side through a refrigerant pipe, and the refrigerant condensed by the condenser drops into the refrigerant pipe, to be pressurized in order to be supplied to the at least one evaporator. 5. The cooling system according to claim2, further comprising: a dew-point-temperature measurement device configured to measure a dew-point temperature of air in a peripheral environment where the at least one evaporator is arranged,wherein the chilled-water-flow-rate regulator is configured to regulate a flow rate of the chilled water to be supplied to the condenser such that a temperature of the condensed refrigerant is equal to or higher than the dew-point temperature if the target refrigerant-liquid temperature is lower than the dew-point temperature measured by the dew-point temperature measurement device. 6. A method for controlling a cooling system, comprising: providing at least one evaporator;evaporating, by each evaporator, a refrigerant to cool an object to be cooled by heat exchange between the refrigerant and the object;regulating, by use of a refrigerant-supply-flow-rate regulator, a flow rate of the refrigerant to be supplied to each evaporator;measuring, by use of a post-cooling-temperature measurement device, a temperature of the object cooled by each evaporator, through heat exchange with the refrigerant;condensing, by a condenser, a refrigerant evaporated by the at least one evaporator, by cooling the evaporated refrigerant through heat exchange between the evaporated refrigerant and a chilled water;measuring, by a refrigerant temperature measurement device, a temperature of the refrigerant condensed by the condenser;regulating, by a chilled-water-flow-rate regulator, a flow rate of the chilled water to be supplied to the condenser;pressurizing, by a refrigerant pump, the refrigerant condensed by the condenser to be supplied to the at least one evaporator;regulating, by the chilled-water-flow-rate regulator, a flow rate of the chilled water to be supplied to the condenser such that a temperature of the condensed refrigerant is equal to a predetermined target refrigerant-liquid temperature;regulating, by the refrigerant-supply-flow-rate regulator, a flow rate of the refrigerant for each evaporator such that a temperature of the object cooled is equal to a predetermined target cooling temperature for each evaporator;measuring, by a pressure-different measurement device, a pressure different of the condensed refrigerant between a suction side and a discharge side of the refrigerant pump; andregulating, by a refrigerant pump controller, a rotation frequency of the refrigerant pump such that the pressure difference calculated based on a measurement value of the pressure difference measurement device is equal to a predetermined differential-pressure setting value.
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.
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