Device and method for measuring the coefficient of performance of a heat pump
First Claim
1. A device for measuring the coefficient of performance of an electrically operated heat pump having a supply air stream and a return air stream, comprising:
- means for measuring the temperature differential between said return air stream and said supply air stream and generating a first signal having a frequency proportional to the temperature difference of said streams;
means for measuring the operating energy input to said heat pump and generating a second signal having a frequency proportional to said energy input;
means for determining the ratio of said first signal frequency to said second signal frequency and generating a third signal having a frequency proportional to said ratio; and
a programmable counting means for counting the cycles of said third signal over a preselected time period to register counts according to a preselected counting increment for each of said cycles of said third signal so that the registered count value at the end of said time period is directly indicative of the coefficient of performance of said heat pump over said time period.
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Accused Products
Abstract
A method and instrument is provided which allows quick and accurate measurement of the coefficient of performance of an installed electrically powered heat pump including auxiliary resistance heaters. Temperature sensitive resistors are placed in the return and supply air ducts to measure the temperature increase of the air across the refrigerant and resistive heating elements of the system. The voltages across the resistors which are directly proportional to the respective duct temperatures are applied to the inputs of a differential amplifier so that its output voltage is proportional to the temperature difference across the unit. A voltage-to-frequency converter connected to the output of the differential amplifier converts the voltage signal to a proportional frequency signal. A digital watt meter is used to measure the power to the unit and produces a signal having a frequency proportional to the input power. A digital logic circuit ratios the temperature difference signal and the electric power input signal in a unique manner to produce a single number which is the coefficient of performance of the unit over the test interval. The digital logic and an in-situ calibration procedure enables the instrument to make these measurements in such a way that the ratio of heat flow/power input is obtained without computations. No specialized knowledge of thermodynamics or electronics is required to operate the instrument.
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Citations
7 Claims
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1. A device for measuring the coefficient of performance of an electrically operated heat pump having a supply air stream and a return air stream, comprising:
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means for measuring the temperature differential between said return air stream and said supply air stream and generating a first signal having a frequency proportional to the temperature difference of said streams; means for measuring the operating energy input to said heat pump and generating a second signal having a frequency proportional to said energy input; means for determining the ratio of said first signal frequency to said second signal frequency and generating a third signal having a frequency proportional to said ratio; and a programmable counting means for counting the cycles of said third signal over a preselected time period to register counts according to a preselected counting increment for each of said cycles of said third signal so that the registered count value at the end of said time period is directly indicative of the coefficient of performance of said heat pump over said time period. - View Dependent Claims (2, 3, 4, 5)
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6. A method of determining the coefficient of performance of a heat pump system having a supply air stream in a return air stream, said heat pump being selectively operable and a refrigerant heating mode and a resistance heating mode, comprising the steps of:
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measuring the temperature differential between said return air stream and said supply air stream while said system is operated in said resistance heating mode to determine a calibration relationship between heat flow and said temperature differential for said system over a preselected time period; measuring the temperature differential between said return air stream and said supply air stream for an interval equal to said preselected time period while said system is operated in said refrigerant heating mode; measuring the operating energy input to said system while said system is operated in said refrigerant heating mode for a period equal to said preselected time period; and producing a ratio value of the measured values of steps 2 and 3 according to said calibration relationship of step 1 as a direct indication of the coefficient of performance of said system.
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7. A method of determining the coefficient of performance of an electrically operated heat pump system having a supply air stream and a return air stream, said system being operable in a refrigerant heating mode and a resistance heating mode, comprising the steps of:
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operating said system in said resistance heating mode; generating a first signal having a frequency proportional to the temperature differential between said supply air stream and said return air stream while operating said system in said resistance heating mode; generating a second signal having a frequency proportional to the operating power input to said system; generating a third signal having a frequency proportional to the ratio of said first signal to said second signal; counting the cycles of said third signal and registering the counts over a selected time interval; operating said system in said refrigerant heating mode; generating a fourth signal having a frequency proportional to the temperature differential between said return air stream and said supply air stream; generating a fifth signal having a frequency proportional to the power input applied to said system; generating a sixth signal having a frequency proportional to the ratio of said fourth signal to said fifth signal; counting the cycles of said sixth signal and registering the count in the increments equal to the reciprocal of the registered count in step five over a period equal to said selected time interval as a direct indication of the coefficient of performance of said system in said refrigerant heating mode.
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Specification