SU879524A1 - Method of measuring thermoelectric converter efficiency - Google Patents

Description

The invention relates to electrical engineering and is intended to determine the efficiency of thermoelectric converters.

A known method of measuring the efficiency of a thermoelectric converter, based on the direct measurement of the power of the heat flux at the input and output electric power of the converter fl].

This method has insufficient accuracy, since it does not take into account heat losses that are not associated with thermo-15 electrical conversion.

The closest technical solution to the invention is a method for measuring the efficiency of a thermoelectric converter by supplying a heat flux to the receiver of the converter and then taking into account all the factors affecting the efficiency of the converter [2].

This method is either complicated, since there are a large number of factors leading to a decrease in the efficiency of the converter, 30 or it is not accurate enough when only a few factors are taken into account.

The aim of the invention is to improve the accuracy of measuring the efficiency of a thermoelectric converter.

This goal is achieved by the fact that in the method of measuring the efficiency of a thermoelectric converter, which consists in supplying a thermoelectric converter of a heat flux to the receiver, the resistance of the converter load is adjusted until the maximum electric power at the input of the thermoelectric converter is reached and the relative temperature of the receiver is measured, then the load resistance is disconnected and again measure the relative temperature of the receiver T ^, the coefficient of useful d the action of the thermoelectric transducer C is determined by the formula

The drawing shows an electrical diagram of a device that implements the invention. >

The heat flux 1 heats the receiver 2 of the thermoelectric converter 3 loaded on a resistor 4 connected in series with the switch 5. The electric power meter 6 is connected to the output of the thermoelectric converter

3. Relative temperatures. Tu and T of the receiver 2 are measured with a galvanometer 7 connected to a thermosensitive element, for example, to a part of a thermoelectric transducer.

The device works as follows.

The heat flux 1 is supplied to the receiver 2 and the resistance of the load resistor 4 is adjusted to obtain the maximum electric power at the output of the thermoelectric converter 3. When the maximum electric power is reached, the relative temperature Tu of the receiver 2 is measured; in this case, heat flux 1 is divided into three parts: loss, heating of receiver 2 and conversion to electric power at the output of thermoelectric converter 3. Then, resistor 4 is turned off with switch 5 and the age temperature Tj> of receiver 2 is re-measured. In this case, heat flux 1 is divided by two parts: loss and heating of the receiver 2. The efficiency of the thermoelectric converter is determined from the ratio

Claims (2)

The invention relates to electrical measuring equipment and is intended to determine the efficiency of thermoelectric converters. A known method for measuring the efficiency of a thermoelectric converter based on direct measurement of the heat input power and electrical output power of the fl3 converter. This method is not accurate enough because it does not take into account heat loss that is not associated with thermoelectric conversion. The closest technical solution to the invention is a method for measuring the efficiency of a thermoelectric converter by applying a heat flux converter to the receiver and then taking into account all factors affecting the efficiency of the 2J converter. Such a method is either complex, since there are a large number of factors leading to a decrease in the efficiency of the converter. or not sufficiently accurate considering only a few factors. The aim of the invention is to improve the accuracy of measuring the efficiency of a thermoelectric converter. The goal is achieved in that the method of measuring the efficiency of a thermoelectric converter, consisting in applying a thermoelectric heat flow converter to the receiver, regulates the load resistance of the converter to achieve maximum electrical power at the input of the thermoelectric converter and measures the relative temperature T of the receiver, then the load resistance the relative temperature of the receiver Tj is turned off and measured again; th action thermoelectric converter | is determined by the formula 1-1 - iV. In the drawing, an electrical circuit of the device realizing the invention is shown. The heat flux 1 heats the receiver 2 of the thermoelectric converter 3, loaded on the resistor 4 connected in series with the switch 5. The electric power meter 6 is connected to the output of the thermoelectric converter 3. Relative temperatures. T, and T2 of receiver 2 are measured with a galvanometer 7, connected to a thermosensitive element, for example, with a portion of a thermoelectric converter. The device works in the following way. A heat flux 1 is applied to the receiver 2 and the resistance of the load resistor 4 is adjusted to obtain the maximum electric power at the output of the thermoelectric converter 3. When the maximum electric power is reached, the relative temperature T, the receiver 2; the heat flux 1 is divided into three parts: loss, heating of the receiver 2 and conversion to electrical power at the output of the thermoelectric converter 3. Then switch 5 turns off the resistor 4 and re-measures the age temperature Tj of the receiver 2. At the same time, the heat flux 1 is divided into two parts: losses and heating of the receiver 2. The efficiency of the thermoelectric converter is determined from the ratio AND 1 - -51. I 2. Since the accuracy of measuring the relative temperature is great and the implementation of the invention does not require a source with a calibrated electrical power, the proposed method has a higher accuracy compared to the known methods for measuring the efficiency of thermoelectric converters. consisting in supplying a thermoelectric heat flux converter to the receiver, which distinguishes so that, in order to improve the measurement accuracy, the load resistance of the converter is controlled until the maximum electrical power is reached at the output of the thermoelectric converter, the relative temperature of the receiver T is measured, then the load resistance is turned off and the relative temperature of the receiver Tj. is again measured The connections of the thermoelectric converter are determined by the formula: And g -. I t 2 Sources of information taken into account during the examination 1. A. Okhtin. et al. Methods for measuring the characteristics of thermoelectric materials and converters, M., Nauka, 1974, p. 14-15. 2. Gorodetsky A.F. and others. Fundamentals of physics of semiconductors and semiconductor devices. Novosibirsk, 1966, p. 318.