IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0441977
(1989-11-28)
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발명자
/ 주소 |
- Mathur Anoop (Shoreview MN) Foslien Wendy K. (Minneapolis MN)
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출원인 / 주소 |
- Electric Power Research Institute (Palo Alto CA 02)
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인용정보 |
피인용 횟수 :
97 인용 특허 :
11 |
초록
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An operating system for a dual fuel heating system having first and second heat pump stages, first and second gas furnace stages, an executive controller for tracking time increments and call control strategies at appropriate levels, a demand control for calculating the amount of time each heat pump
An operating system for a dual fuel heating system having first and second heat pump stages, first and second gas furnace stages, an executive controller for tracking time increments and call control strategies at appropriate levels, a demand control for calculating the amount of time each heat pump can be on during a predetermined time window, a data storage apparatus, a thermostat, a first predicting module for predicting non-heat pump electrical load based on a moving average, a second predicting module for predicting heat load based on a moving average, and a limiting module for setting demand limits for off-peak, mid-peak and peak periods. The executive controller is operated to initiate operation of the foregoing routines to determine, based on historical building profile information including non-heat pump electric power information the availability of heat pump power with no increase in demand charges during any given incremental interval. In a further aspect of the invention, break even points are calculated to determine the economic feasibility of increasing the demand set point incrementally in a dual fuel system. The system integrates intelligent demand logic and conventional thermostat logic algorithms into a dual fuel control system.
대표청구항
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An operating method for a dual fuel heating system having an energy profile including a demand set point, first and second heat pump stages, first and second gas furnace stages, an executive controller for tracking time increments and implementing call control strategies at appropriate intervals, a
An operating method for a dual fuel heating system having an energy profile including a demand set point, first and second heat pump stages, first and second gas furnace stages, an executive controller for tracking time increments and implementing call control strategies at appropriate intervals, a demand control for calculating the amount of time each heat pump can be on during a predetermined time window, a data storage means, a thermostat means, first predicting means for predicting non-heat pump electrical load based on a moving average, second predicting means for predicting heat load based on a moving average, limiting means for setting demand limits for off-peak, mid-peak and peak periods wherein the operating method comprises the steps of: (a) operating the executive controller to initiate operation of the demand control, the thermostat means, the first predicting means, the second predicting means, the data storage means, and the limiting means, and further operating the executive controller to assign a priority unit for heating; (b) operating the first predicting means in response to the executive controller to store non-heat pump electrical load data in a first matrix including slots for each time window and each day of the week and to keep a moving average for each slot in the first matrix; (c) operating the second predicting means in response to the executive controller to store total heat load data in a second matrix including slots for each time window and each day of the week and to keep a moving average for each slot in the second matrix; (d) operating the executive controller to determine whether there is available power for the heat pump stage in the current time window where available power is calculated as the difference between the demand set point and predicted non-heat pump power; (e) if heat pump power is not available as determined in step (d), operating the executive controller to assign the highest priority the gas furnace stage; (f) if heat pump power is available, operating the executive controller to calculate an allowable heat pump stage on time, compare the calculated allowable on-time with a specified minimum on-time and make the heat-pump the priority unit for heating if the allowable on-time is not less than the specified minimum on-time; and (g) operating the thermostat to activate the heat pump stage and the furnace stage responsively to the priorities assigned by the executive controller. An operating method for a dual fuel heating system having an energy profile including a demand set point, first and second heat pump stages, first and second gas furnace stages, an executive controller for tracking time increments and implementing call control strategies at appropriate intervals, a demand control for calculating the amount of time each heat pump can be on during a predetermined time window, a data storage means, a thermostat means, first predicting means for predicting non-heat pump electrical load based on a moving average, second predicting means for predicting heat load based on a moving average, limiting means for setting demand limits for off-peak, mid-peak and peak periods wherein the operating method comprises the steps of: (a) operating the executive controller to initiate operation of the demand control, the thermostat means, the first predicting means, the second predicting means, the data storage means, and the limiting means, and further operating the executive controller to assign a priority unit for heating; (b) operating the first predicting means in response to the executive controller to store non-heat pump electrical load data in a first matrix including slots for each time window and each day of the week and to keep a moving average for each slot in the first matrix; (c) operating the second predicting means in response to the executive controller to store total heat load data in a second matrix including slots for each time window and each day of the week and to keep a moving average for each slot in the second matrix; (d) operating the demand control to select the maximum predicted non-heat pump power as the demand limit; (e) operating the executive controller to determine whether there is available power for the heat pump stage in the current time window where available power is calculated as the difference between the demand set point and predicted non-heat pump power; (f) if heat pump power is not available as determined in step (e), operating the executive controller to assign the gas furnace stage as the highest priority unit; (g) if heat pump power is available, operating the controller to calculate an allowable heat pump stage on time, compare the calculated allowable on-time with a specified minimum on-time and make the heat-pump the priority unit for heating if the allowable on-time is not less than the specified minimum on-time; and (h) operating the thermostat to activate the heat pump stage and the furnace stage responsively to the priorities set by the executive controller.
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