Energy reducing retrofit method for a constant volume HVAC system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01F-003/02
F24F-007/00
F24F-003/14
F24F-011/00
F24F-011/02
F24F-013/06
F25B-029/00
F25B-049/00
F25D-017/04
G05D-003/12
G05D-023/00
출원번호
US-0544960
(2009-08-20)
등록번호
US-8515584
(2013-08-20)
발명자
/ 주소
Miller, Danny
Sipe, Justin
출원인 / 주소
Transformative Wave Technologies LLC
대리인 / 주소
Graham & Dunn PC
인용정보
피인용 횟수 :
18인용 특허 :
25
초록▼
An energy-reducing method and apparatus for retrofitting a constant volume HVAC system, with or without an economizer, that provides heating, cooling, and ventilation to occupants within a building space. The present invention includes the introduction of a programmable logic controller and variable
An energy-reducing method and apparatus for retrofitting a constant volume HVAC system, with or without an economizer, that provides heating, cooling, and ventilation to occupants within a building space. The present invention includes the introduction of a programmable logic controller and variable frequency drive (VFD) that takes control of the existing fan, heating, cooling, and optional economizer operation. The controller is programmed for the reduction of fan speed in the heating and cooling modes. The reduction of the fan speed in the ventilation mode when the 100% operation is not needed saves significant energy of the existing constant volume HVAC system where the fan motor is designed to run 100% of the time. The fan speed may be further reduced upon a reduction in sensed occupancy levels of the space, such as with a CO2 sensor. Additionally, the fan speed may be reduced in the heating and/or cooling mode to further reduce energy consumption. The controller may also be programmed and equipped with sensors to allow simultaneous mechanical compressor cooling and economizer free cooling operation, for the operation of the economizer in response to the monitoring of outside air and return air to determine the preferred source for cooling operations, to keep the outside air damper closed during the unoccupied heating modes such as morning warm-up, and/or to provide fault detection. The retrofit method and apparatus may be employed in a stand-alone or networked version.
대표청구항▼
1. A method reducing energy consumption comprising: retrofitting a single zone, constant volume HVAC system that provides one or more of the following: heating, cooling, or ventilation to an indoor space within that single zone, the indoor space having at least partial occupancy, wherein the heating
1. A method reducing energy consumption comprising: retrofitting a single zone, constant volume HVAC system that provides one or more of the following: heating, cooling, or ventilation to an indoor space within that single zone, the indoor space having at least partial occupancy, wherein the heating, cooling, or ventilation is based on preset conditions or on occupancy command and wherein the preexisting HVAC system consists of a fan assembly, including a fan and a fan motor; a thermostatic device that references temperature of the indoor space served by the single zone, constant volume HVAC system; and heating and/or cooling assembly having equipment control terminations;providing a programmable logic controller that can receive input from the pre-existing thermostatic device and send heating, cooling, and ventilation instructions to the pre-existing fan assembly for ventilating the indoor space, and to a pre-existing heating assembly that can send heat to the indoor space, and to a pre-existing cooling assembly that can send cooling to the indoor space; andoperably connecting the programmable logic controller to the pre-existing equipment control terminations;providing a variable frequency drive (VFD), controlled by the programmable logic controller, and operably connecting it to the pre-existing fan motor;operating the HVAC system in a ventilation mode, a heating mode, and/or a cooling mode, all modes controlled by the programmable logic controller based on an input from a provided occupancy sensor;operating the pre-existing fan motor at a reduced speed during the ventilation mode when the less than maximum ventilation is required; andproviding fault detection via a discharge air sensor and/or current status switch, including detection of fan fault, heat/cool (temperature-based) fault, and energy consumption fault; andthe fan fault and heat/cool (temperature-based) fault are interconnected and the fan fault detection is run first and then the heat/cool (temperature-based) fault detection is run and the energy consumption fault is independent of the fan fault and the heat/cool (temperature-based) fault detection. 2. The method according to claim 1 wherein the fan motor is operated at a reduced speed during the heating and/or cooling mode. 3. The method according to claim 1 wherein the fan speed is reduced in the range of 10% to 90% in the ventilation mode. 4. The method according to claim 2 wherein the fan speed is reduced in the range of 1%-30% in the heating and/or cooling mode. 5. The method according to claim 1 wherein the occupancy sensor to determine occupancy levels within the building indoor space and sending the sensed occupancy level to the programmable logic controller; and operating the fan motor at a reduced speed during the ventilation mode when the occupancy level requires less than maximum ventilation. 6. The method according to claim 5 wherein the fan speed is reduced in the range of 10% to 90% in the ventilation mode in response to the sensed occupancy needs. 7. The method according to claim 1 wherein the programmable logic controller and VFD are incorporated into a single unit. 8. The method according to claim 1 further comprising providing a central processor and an interconnection in order to network one or more programmable logic controllers. 9. The method according to claim 8 wherein the interconnection is wireless. 10. A method reducing energy consumption comprising: retrofitting a single zone, constant volume HVAC system that provides heating, cooling, and/or ventilation to an indoor space within that single zone, the indoor space having at least partial occupancy, wherein the heating, cooling, and/or ventilation is based on preset conditions or on occupancy command and wherein the preexisting HVAC system consists of a fan assembly, including a fan and a fan motor, a thermostatic device that references temperature of the indoor space served by the single zone, constant volume HVAC system; heating and/or cooling assembly having equipment control terminations; andan economizer comprised of at least one outside air damper and one return air damper with an associated damper actuator;providing a programmable logic controller that can receive input from the preexisting thermostatic device and send heating, cooling, and ventilation instructions to the preexisting fan assembly for ventilating the building space in a ventilation mode, and to the preexisting heating assembly that can send heat to the building space in a heating mode, and to the preexisting cooling assembly that can send cooling to the building space in a cooling mode, and to the system economizer in an economizer mode; andoperably connecting the programmable logic controller to the preexisting equipment control terminations;providing a variable frequency drive (VFD), controlled by the programmable logic controller, and operably connecting the VFD to the preexisting fan motor;providing an occupancy sensor to determine occupancy levels within the indoor space and sending the sensed occupancy level to the programmable logic controller for at least the ventilation mode, the heating mode, and/or the cooling mode;providing an input sensor and an output sensor to sense respective outside air condition and return economizer air and that the sensors communicate their sensed conditions to the programmable logic controller;operating the fan motor at a reduced speed during the ventilation mode when the occupancy level requires less than maximum ventilation;operating the fan motor at a reduced speed during the heating and/or cooling mode; andoperating the HVAC system in the ventilation mode, the heat and/or cooling mode, and the economizer mode, wherein all modes are controlled by the programmable logic controller based on an input from the provided occupancy sensor;providing a discharge air sensor and/or a current status switch, including detection of fan fault, heat/cool (temperature-based) fault, and energy consumption fault in order to provide fault detection to the HVAC system; andthe fan fault and heat/cool (temperature-based) fault are interconnected and the fan fault detection is run first and then the heat/cool (temperature-based) fault detection is run and the energy consumption fault is independent of the fan fault and the heat/cool (temperature-based) fault detection. 11. The method according to claim 10 wherein further energy savings are gained by the operation of the economizer in response to the monitoring of outside air and return air to determine the preferred source for cooling operations. 12. The method according to claim 10 wherein further energy savings are gained by closing the at least one outside air damper during the unoccupied heating modes. 13. The method according to claim 10 wherein further energy savings are gained by integrating the economizer and cooling operations. 14. The method according to claim 10 wherein the fan speed is reduced in the range of 10% to 90% in the ventilation mode. 15. The method according to claim 10 wherein the fan speed is reduced in the range of 1%-30% in the heating and/or cooling mode. 16. The method according to claim 10 wherein the programmable logic controller senses one of the following: temperature, enthalpy, or dew point in the economizer mode. 17. The method according to claim 10 wherein the programmable logic controller and VFD are incorporated into a single unit. 18. The method according to claim 10 further comprising providing a central processor and an interconnection in order to network one or more programmable logic controllers. 19. The method according to claim 18 wherein the interconnection is wireless. 20. The method according to claim 1 wherein the energy consumption fault is run continuously. 21. The method according to claim 10 wherein the energy consumption fault is run continuously.
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