Ground loop bypass for ground source heating or cooling
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25B-029/00
F24J-003/08
F28D-020/00
G05D-023/19
F24D-019/10
출원번호
US-0164257
(2011-06-20)
등록번호
US-9285140
(2016-03-15)
발명자
/ 주소
Melink, Stephen K.
출원인 / 주소
Melink Corporation
대리인 / 주소
Wood, Herron & Evans, LLP
인용정보
피인용 횟수 :
1인용 특허 :
21
초록▼
A ground source heat transfer system circulates transfer fluid between heat exchange units and a ground loop. The system includes a bypass which allows the transfer fluid to continue to circulate past the exchange units while bypassing the ground loop. Monitoring the conditions of the system with te
A ground source heat transfer system circulates transfer fluid between heat exchange units and a ground loop. The system includes a bypass which allows the transfer fluid to continue to circulate past the exchange units while bypassing the ground loop. Monitoring the conditions of the system with temperature sensors allows the system to selectively activate the bypass whenever diverting fluid away from the ground loop can save heat or energy.
대표청구항▼
1. A ground source heat transfer system, comprising: a ground loop positioned within a ground source;a building loop positioned within a building;a bypass positioned at least in part within the building;a heat exchange unit in thermal communication with the building loop;a fluid pump coupled to the
1. A ground source heat transfer system, comprising: a ground loop positioned within a ground source;a building loop positioned within a building;a bypass positioned at least in part within the building;a heat exchange unit in thermal communication with the building loop;a fluid pump coupled to the ground loop, the building loop, and the bypass, the fluid pump configured to: operate in a normal mode of the system to circulate a fluid between and through the ground loop and the building loop to facilitate heat transfer between the ground source and the heat exchange unit, andoperate in a bypass mode of the system to circulate a portion of the fluid within the building between and through the bypass and the building loop whereby the transfer of heat between the ground source and the heat exchange unit is reduced;first and second temperature sensors configured to measure a temperature of the fluid at different points; anda controller is configured to: compare temperature data representative of the temperature measured from the first temperature sensor to temperature data representative of the temperature measured from the second temperature sensor;switch the system from the normal mode to the bypass mode only when the compared temperature data satisfies predefined parameters;switch the system to the bypass mode only when a difference between the first temperature sensor and the second temperature sensor exceeds a predetermined heating setting reference value when the controller is in a heating setting; andswitch the system to the bypass mode only when the difference between the first temperature sensor and the second temperature sensor remains below a predetermined cooling setting reference value when the controller is in a cooling setting. 2. The system of claim 1, wherein the bypass is operable in the bypass mode of the system to divert fluid flowing out of the building loop away from the ground loop so as to directly recirculate the fluid into the building loop. 3. The system of claim 1, wherein, when the controller is in the heating setting, the controller switches the system from the normal mode to the bypass mode when a difference between the first temperature sensor and the second temperature sensor exceeds a first predetermined heating setting reference value, and the controller switches the system from the bypass mode to the normal mode when the difference between the first temperature sensor and the second temperature sensor falls below a second predetermined heating setting reference value that is lower than the first predetermined heating setting reference value; andwherein, when the controller is in the cooling setting, the controller switches the system from the normal mode to the bypass mode when the difference between the first temperature sensor and the second temperature sensor falls below a first predetermined cooling setting reference value, and the controller switches the system from the bypass mode to the normal mode when the difference between the first temperature sensor and the second temperature sensor exceeds a second predetermined cooling setting reference value that is higher than the first predetermined cooling setting reference value. 4. The system of claim 1, the bypass positioned completely within the building. 5. The system of claim 1, the fluid pump running twenty-four hours per day in either of the normal mode of the system or the bypass mode of the system such that the fluid continuously circulates through at least the building loop in the bypass mode. 6. The system of claim 1, wherein the controller is further configured to: monitor the system to detect conditions unsuitable for circulating fluid through the ground loop and divert fluid in response to the detection of said unsuitable conditions,wherein the unsuitable conditions consist of at least one of the following: the temperature of the fluid in the ground loop being colder than the temperature of the fluid in the building loop when heating is desired; the temperature of the fluid in the ground loop being warmer than the temperature in the building loop when cooling is desired; and, an off-peak period of time when usage of the heating setting or cooling setting is less than during a corresponding peak period. 7. The system of claim 6, wherein the conditions include the temperature of the fluid entering the ground loop from the building loop and the temperature of the fluid exiting the ground loop to the building loop. 8. A method for operating a ground source heat transfer system having a ground loop positioned within a ground source, a building loop positioned within a building, and a heat exchange unit in thermal communication with the building loop, the method comprising: circulating fluid between and through the building loop and the ground loop in order to facilitate heat transfer between the ground source and the heat exchange unit when in a normal mode; anddiverting fluid within the building to circulate the fluid through the building loop and at least partially bypassing the ground loop whereby the transfer of heat between the ground source and the heat exchange unit is reduced when in a bypass mode;measuring, by a first temperature sensor and a second temperature sensor, a temperature of the fluid at different points;comparing temperature data from the first temperature sensor to data from the second temperature sensor;switching between the normal mode to the bypass mode when the compared temperature data satisfies predetermined parameters;operating in the bypass mode only when a difference between the first temperature sensor and the second temperature sensor exceeds a predetermined heating setting reference value when in a heating setting; andoperating in the bypass mode only when the difference between the first temperature sensor and the second temperature sensor remains below a predetermined cooling setting reference value when in a cooling setting. 9. The method of claim 8, further comprising: monitoring the system to detect conditions unsuitable for circulating fluid through the ground loop and diverting fluid in response to the detection of said unsuitable conditions,wherein the unsuitable conditions consist of at least one of the following: the temperature of the fluid in the ground loop being colder than the temperature of the fluid in the building loop when heating is desired; the temperature of the fluid in the ground loop being warmer than the temperature in the building loop when cooling is desired; and, an off-peak period of time when usage of the heating setting or cooling setting is less than during a corresponding peak period. 10. The method of claim 8, wherein the flow rate of fluid diverted to bypass the ground loop is greater than the flow rate of fluid circulating through the ground loop when fluid is diverted. 11. The method of claim 10, wherein the flow rate of fluid circulating through the ground loop when fluid is diverted drops to zero. 12. The method of claim 10, wherein a portion of fluid continues to circulate through the ground loop when fluid is diverted. 13. The method of claim 8, further comprising: continually circulating fluid within the building loop such that the speed of fluid circulating through the building loop never drops to zero. 14. The method of claim 13, wherein the system further comprises a fluid pump operable to circulate the fluid, the method further comprising: reducing the speed of the fluid pump when fluid is diverted. 15. A ground source heat transfer system, comprising: a ground loop positioned within a ground source;a building loop;a bypass;a heat exchange unit in thermal communication with the building loop; anda fluid pump coupled to the ground loop, the building loop, and the bypass, the fluid pump configured to: run 24 hours per day in either of a normal mode of the system or a bypass mode of the system,circulate a fluid between and through the ground loop and the building loop to facilitate heat transfer between the ground source and the heat exchange unit when operating in the normal mode,circulate a portion of the fluid between and through the bypass and the building loop whereby the transfer of heat between the ground source and the heat exchange unit is reduced while fluid is continuously circulating through at least the building loop when operating in the bypass mode;first and second temperature sensors configured to measure the temperature of the fluid at different pointsa controller configured to: compare temperature data from the first temperature sensor to temperature data from the second temperature sensor;switch the system from the normal mode to the bypass mode only when the compared temperature data satisfies predefined parameters,switch the system to the bypass mode only when a difference between the first temperature sensor and the second temperature sensor exceeds a predetermined heating setting reference value when the controller is in a heating setting, andswitch the system to the bypass mode only when a difference between the first temperature sensor and the second temperature sensor remains below a predetermined cooling setting reference value when the controller is in a cooling setting. 16. A ground source heat transfer system for exchanging heat between a building environment within a building and a ground environment associated with a ground source, comprising: a ground loop positioned within the ground source and being in thermal communication with the ground environment;a building loop positioned within the building and being in thermal communication with the building environment;a bypass, the building environment, the ground environment, and the bypass being thermally separate from an ambient air environment external to the building and the ground source; anda fluid pump coupled to the ground loop, the building loop, and the bypass, the fluid pump operable in a normal mode of the system to circulate a fluid between and through the ground loop and the building loop to facilitate heat transfer between the ground environment and the building environment, the fluid pump operable in a bypass mode of the system to circulate a portion of the fluid between and through the bypass and the building loop whereby the transfer of heat between the ground environment and the building environment is reduced;a controller operable to switch the system between the normal mode and the bypass mode and to control the system in either mode; andfirst and second temperature sensors operable to measure the temperature of the fluid at different points, both temperature sensors operable to transmit temperature data to the controller, wherein the controller is operable to compare temperature data from the first temperature sensor to temperature data from the second temperature sensor and to switch the system from the bypass mode only when the compared temperature data satisfies predefined parameters;wherein, when the controller is in a heating setting, the system runs in the bypass mode only when a difference between the first temperature sensor and the second temperature sensor exceeds a predetermined heating setting reference value; andwherein, when the controller is in the cooling setting, the system runs in the bypass mode only when the difference between the first temperature sensor and the second temperature sensor remains below a predetermined cooling setting reference value.
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