SU496481A1 - Device for the study of heat transfer in electric fields - Google Patents

Description

current-voltage characteristics of the thermistor, taken with and without high voltage.

FIG. 1 shows a diagram of the proposed device; in fig. 2 is an electrical measurement circuit.

On the coordinate 1 there is a hollow conductive cylinder 2 inside which a thermistor 3 is placed along the axis, stretched by means of springs between two electrical posts 4, a high voltage wire 5 is connected to the cylinder, the second pole of the source is connected to conductor thermistor 6 associated with its metal housing. Base 7 is made of electrically insulating material. The electrical circuit contains a power source 8, an adjustable resistor 9, a thermoresist 3, and measuring devices 10 and 11. You supply a high voltage to the circuit with an adjustable high voltage source.

To remove the current-voltage characteristics, an adjustable resistor 9 is used with a voltmeter Yu and an ammeter 1.1, and a stationary mode is set in the absence of a field at a certain amount of current flowing through thermistor 3. Then, a high-voltage source is turned on, the voltage of which rises to a predetermined value and through terminals 12 and 13 is fed to the circuit. In this case, the conditions of heat exchange between the thermistor and the medium change, as a result of which it begins to intensify, and the circuit goes out of a steady state. Keeping the thermistor current unchanged, a new steady-state circuit operation is achieved, which is characterized by a significantly increased voltage drop across the thermistor.

The criterion for the intensification of the heat exchange field of the thermistor can be the relative change in power dissipated by the thermistor with single

heating temperatures. To calculate the power from the thermistor at different temperatures in a given range of ambient temperatures, it is enough to draw straight lines from the origin of coordinates of the line of equal resistance in the theory of thermistors on the graph of the family of volt-ampere characteristics or equal temperatures.

The intersection points of the current-voltage characteristics with each of these direct determine the operating mode of the thermistor at the same temperature of its heating, which is determined from the temperature

specifications

Etc

edmet invented

A device for studying heat transfer in electric fields, containing a body heated by an electric current and a conductive cylindrical case coaxially arranged in relation to it, to which the high voltage source is supplied, which in order to increase the reliability and accuracy of the results , and

simplification of the technique, a semiconductor thermistor is used as the heated body, which is installed inside the hollow cylinder and is in contact with it, with one thermistor conductor

electrically connected to the housing and connected to one of the terminals of the high voltage source.

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