IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0443540
(2008-11-26)
|
등록번호 |
US-8701424
(2014-04-22)
|
우선권정보 |
JP-2008-046911 (2008-02-27) |
국제출원번호 |
PCT/JP2008/071402
(2008-11-26)
|
§371/§102 date |
20090330
(20090330)
|
국제공개번호 |
WO2009/107296
(2009-09-03)
|
발명자
/ 주소 |
- Ueda, Kenji
- Matsuo, Minoru
|
출원인 / 주소 |
- Mitsubishi Heavy Industries, Ltd.
|
대리인 / 주소 |
Westerman, Hattori, Daniels & Adrian, LLP
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
7 |
초록
▼
A turbo chiller that allows for temperature adjustment even when a target heat load is low is provided. A turbo chiller (11) is equipped with a chiller-side control unit that controls an operation so that a coolant outlet temperature is equal to a desired value. When a target heat load is lower than
A turbo chiller that allows for temperature adjustment even when a target heat load is low is provided. A turbo chiller (11) is equipped with a chiller-side control unit that controls an operation so that a coolant outlet temperature is equal to a desired value. When a target heat load is lower than or equal to a predetermined value, the chiller-side control unit outputs a target coolant flow rate, which satisfies the target heat load, of the coolant on the basis of a current coolant inlet temperature, which is a current temperature of the coolant flowing into an evaporator, and a target coolant outlet temperature, which is a coolant outlet temperature to be targeted.
대표청구항
▼
1. A refrigeration system comprising: a plurality of turbo refrigerators cooling a coolant, the plurality of turbo refrigerators including at least a first turbo refrigerator and a second turbo refrigerator;a facility-side control unit that controls a flow rate and the temperature of the coolant; an
1. A refrigeration system comprising: a plurality of turbo refrigerators cooling a coolant, the plurality of turbo refrigerators including at least a first turbo refrigerator and a second turbo refrigerator;a facility-side control unit that controls a flow rate and the temperature of the coolant; anda coolant supplying unit connected to each of the plurality of turbo refrigerators to receive the coolant from each of the turbo refrigerators to merge the respective received coolant and supply thus merged coolant to an external load, the plurality of turbo refrigerators being connected to the coolant supplying unit in parallel;each of the turbo refrigerators having a rated coolant flow rate and comprising a turbo compressor that compresses a refrigerant, a condenser that condenses the compressed refrigerant, an expansion valve that expands the condensed refrigerant, an evaporator that evaporates the expanded refrigerant and cools a coolant, and a refrigerator-side control unit that controls an operation so that a coolant outlet temperature, which is the temperature of the coolant cooled at the evaporator, is equal to a desired value;wherein a first turbo refrigerator of the plurality of turbo refrigerators is rendered in an early-activation standby mode in which the refrigerator-side control unit receives a target heat load at which the turbo refrigerator operates, wherein a heat load of the turbo refrigerator is a function of a flow rate of the coolant flowing into the evaporator;wherein the refrigerator-side control unit of the first turbo refrigerator receives a current coolant inlet temperature and a target coolant outlet temperature, wherein the current coolant inlet temperature is a current temperature of the coolant flowing into the evaporator of the first turbo refrigerator, and wherein the target coolant outlet temperature is a target temperature of the coolant at the outlet of the evaporator,wherein the refrigerator-side control unit of the first turbo refrigerator determines whether the target heat load is lower than or equal to a predetermined threshold value, and if so, the refrigerator-side control unit calculates a target coolant flow rate of the coolant flowing into the evaporator of the first turbo refrigerator so as to lower the flow rate of the coolant flowing into the evaporator to an amount below the rated coolant flow rate of the first turbo refrigerator, on the basis of the current coolant inlet temperature and the target coolant outlet temperature, such that the target coolant flow rate satisfies the target heat load, while the second turbo refrigerator maintains the rated coolant flow rate,wherein the refrigerator-side control unit in the first turbo refrigerator obtains the target coolant outlet temperature and the target heat load from the facility-side control unit and outputs the target coolant flow rate to the facility-side control unit. 2. The refrigeration system according to claim 1, wherein the refrigerator-side control unit of the first turbo refrigerator obtains a current coolant flow rate, which is a coolant flow rate in a current state, and performs an operation for stopping the operation of the first turbo refrigerator when the current coolant flow rate is lower than or equal to a predetermined value that falls below the target coolant flow rate of the first turbo refrigerator. 3. The refrigeration system according to claim 1, wherein the refrigerator-side control unit of the first turbo refrigerator obtains an evaporation pressure inside the evaporator of the first turbo refrigerator and performs an operation for stopping the operation of the first turbo refrigerator when the evaporation pressure is lower than or equal to a predetermined value. 4. The refrigeration system according to claim 1, further comprising a temperature adjusting unit which controls the temperature of the coolant, and a feedback-control output which the temperature adjusting unit responds to, wherein the sensitivity of the temperature adjusting unit to the feedback-control output is reduced according to a decrease in a current coolant flow rate. 5. A method for controlling a refrigeration system that comprises a plurality of turbo refrigerators cooling a coolant, the plurality of turbo refrigerators including at least a first turbo refrigerator and a second turbo refrigerator; a facility-side control unit that controls a flow rate and the temperature of the coolant; and a coolant supplying unit connected to each of the plurality of turbo refrigerators to receive the coolant from each of the turbo refrigerators to merge the respective received coolant and supply thus merged coolant to an external load, the plurality of turbo refrigerators being connected to the coolant supplying unit in parallel; each of the turbo refrigerators having a rated coolant flow rate and includes a turbo compressor that compresses a refrigerant, a condenser that condenses the compressed refrigerant, an expansion valve that expands the condensed refrigerant, an evaporator that evaporates the expanded refrigerant and cools a coolant, and a refrigerator-side control unit that controls an operation so that a coolant outlet temperature, which is the temperature of the coolant cooled at the evaporator, is equal to a desired value; the method comprising:rendering a first turbo refrigerator of the plurality of turbo refrigerators in an early-activation standby mode,receiving, by the refrigerator-side control unit of the first turbo refrigerator, a target heat load at which the turbo refrigerator operates, wherein a heat load of the turbo refrigerator is a function of a flow rate of the coolant flowing into the evaporator;receiving, by the refrigerator-side control unit of the first turbo refrigerator, a current coolant inlet temperature and a target coolant outlet temperature, wherein the current coolant inlet temperature is a current temperature of the coolant flowing into the evaporator of the first turbo refrigerator, and wherein the target coolant outlet temperature is a target temperature of the coolant at the outlet of the evaporator,determining, by the refrigerator-side control unit of the first turbo refrigerator, whether the target heat load is lower than or equal to a predetermined threshold value, and if so, calculating a target coolant flow rate of the coolant flowing into the evaporator of the first turbo refrigerator so as to lower the flow rate of the coolant flowing into the evaporator to an amount below the rated coolant flow rate of the first turbo refrigerator, on the basis of the current coolant inlet temperature and the target coolant outlet temperature, such that the target coolant flow rate satisfies the target heat load, and maintains the rated coolant flow rate for the second turbo refrigerator,wherein the refrigerator-side control unit in the first turbo refrigerator obtains the target coolant outlet temperature and the target heat load from the facility-side control unit and outputs the target coolant flow rate to the facility-side control unit.
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