SU593087A1 - Heat flow measuring method - Google Patents

Description

I

This invention relates to the field of thermal measurements.

A known method of measuring heat flux by passing it through thermoelements connected to a battery, measuring thermoelectric power factor and then determining the heat flux value using the calibration characteristic of battery 1.

However, the known method has the disadvantage that a measurement error occurs due to the difference between the thermal conductivity of a thermoelectric battery and the thermal conductivity of the medium. At the same time, the heat flux passes through the thermoelectric battery-heat meter, which is greater or less than that which would pass through the same layer, in the absence of a heat meter.

There is a method of measuring heat flux by passing it through a thermoelectric battery-calorimeter, measuring its TEDS 2, according to which, to reduce measurement error, the effective thermal conductivity of the calorimeter is adjusted to achieve an equal thermal conductivity of the calorimeter and medium.

However, the known method has the disadvantage that using it requires the preliminary measurement of the thermal conductivity of the medium, which complicates the process of measuring the heat flux, and in some cases it is impossible to measure the thermal conductivity of the medium with the required accuracy, which ultimately leads to a decrease in the accuracy of the heat flux measurement.

Technically, the closest to the proposed method is a method of measuring heat flux by passing it through concentrically located thermoelements connected in a battery,

measuring the TETS of the battery and the subsequent determination of the value of the heat flux pe of the calibration characteristic of the battery 3.

However, the known method has the disadvantage that the resulting error, due to the distorted ;; the measured heat flux of the thermoelectric battery-calorimeter does not allow to obtain the required measurement accuracy. The aim of the invention is to improve the

measurement accuracy, for which periodically the thermoelements of the central and peripheral parts of the battery are switched on or counter, and when the battery is switched on, the battery TETS is measured, and if so, the current passes through the thermoelements, its value is adjusted until the battery's measured temperature indicator , will not become zero, after which the heat flux value is determined by the calibration characteristic of the battery.

The heat flux is measured as follows. The central and peripheral parts of the thermo-electric battery-calorimeter are switched on and the direction of the lithium current of the calorimeter is determined by the TEDS symbol. The central and nepferrial parts of the heat meter are switched according to and the initial current is passed through the heat meter. Periodically, the counter-central and peripheral parts of the heat meter are switched and the differential temperature differential coefficient is measured. The current is adjusted until the differential temperature coefficient is zero. The absence of the temperature difference between the central and peripheral parts of the heat meter indicates that the effect of heat conduction of the heat meter is equal to that of the environment. The thermopower of the calorimeter is measured and, by its graduation characteristic, the magnitude of the heat flux is determined with higher accuracy than in the known methods.

Formula and 3 o brie n A method for measuring the heat flux, which includes passing the tested tenl flux through concentrically located

thermoelements connected to the battery, measurement of the thermoelectric power of the battery and the subsequent determination of the heat flux value by its calibration characteristic, which is

By the fact that, in order to improve the measurement accuracy, the thermocouples of the central and peripheral parts of the battery are periodically counter-polarized and, when they are turned on again, they measure the TEM of the battery and, if they agree, pass current through the thermoelectric elements, in case of a counter-on, it will not become zero, after which the heat flux value is determined by the gradient-wiring characteristic of the battery.

And soto ni ki and n f about rmatsii taken into account iri expertise

i. Gerashchenko, O. A., et al. Thermal and Temperature Measurements. Reference Guide. “Naukova Dumka, Kiev, 1965, p. 212.

2. USSR author's certificate Lo 162981. l. G 01 K 17./08, 1963.

3. USSR author's certificate N ° 264734, l. G 01 K 17/08, 1968.