SU1500870A1 - Method of calibrating converters of heat flow - Google Patents

Abstract

The invention relates to thermophysical measurements and can be used for express control, rejection and calibration of heat flux transducers (TFTs) in their manufacture and operation. The purpose of the invention is to improve the performance of the calibration process. This is achieved by forming a directional heat flux through the PTP by passing a stabilized current through it and measuring the generated thermoelectric power with the subsequent determination of the conversion coefficient in relation to the measured thermoelectric power to the penetrating heat flux. The PTP is calibrated to stabilize the ambient temperature, for example, in an air thermostat. The heat flux formation is carried out by passing a constant direct current through the PTP, and the conversion coefficient is calculated using the measured values of thermoEMF, current, ambient temperature and proportionality coefficient determined for each type of PTP. 1 il.

Description

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The invention relates to thermometry and can be used in the calibration of heat flux transducers.

The purpose of the invention is to improve the performance of the calibration process.

The drawing shows a device for implementing this method.

The method consists in stabilizing the ambient temperature of the calibrated heat flux converter, for example, by placing it in a thermostat with a comprehensive convective heat exchange. At a constant temperature, a constant DC current is passed through the heat flux converter (PTP) environment. By knowing the geometrical dimensions of the calibrated PTP, the conversion coefficient is determined according to the ratio obtained assuming that the average PTP temperature is equal to the ambient temperature.

The device contains a source of stabilized direct current key 2, milliammeter 3, millivolmeter 4, thermometer 5, air thermostat 6 and graduated PTP 7.

 Graduated PTP is placed in an air thermostat. When the key is closed, the stabilized direct current from the source is passed through the PTP. A temperature difference arises between the working surfaces of the PTP and, due to the Seebeck effect, thermoEMF E occurs. Measurement of electric current I with a milliammeter and temperature of the surrounding food with a T thermometer. After the PTP has reached the stationary thermal mode, the key is opened and the thermoEMF is measured with a millivoltmeter. For each type of PTP, the coefficient is proportional to

To use the measurement results and the proportionality coefficient, calculate the conversion factor A of the calibrated PTP using the ratio

A - JE / K-I-S T

0

0

5 0 5

where s emf

AND

heat sensing area

surface TAP.

The method allows to speed up the calibration process, for example, when calibrating the PTP - MTS-P (PU.390,173), the measurement time is 95-120 s, which improves the process performance.

Claims (1)

Invention Formula The method of calibration of heat flux converters by passing through it a stabilized current, measuring the generated thermo-subsequent calculation of the coefficient tl and -, with a view increase the performance of the calibration process, stabilize the ambient temperature at a comprehensive convective heat exchange of the calibrated heat flux converter and measure the temperature, pass the stabilized direct current through the converter and measure its value, determine the proportionality coefficient K and calculate the conversion factor A by And E / K 1 5 T, where E is thermoESdB} 1 is the current, AJ S is the area of heat-absorbing surface; T - ambient temperature YES, ° K-, K - coefficient of proportionality, A V / m K. 5 conversion elements, in that 0