SU467241A1 - The method for determining the relative emissivity of solids - Google Patents

Description

A good radiation coefficient can be calculated.

1L2 (Ga-PI (Gh-Gr

2

((Gz-G1) - (,) SA-G,)

Oct

Practically, the proposed method is as follows:

The first state of heat balance is natural when the test body is washed with a heated gas stream. With a steady state thermocouple, body temperature TI is measured.

The second heat balance state is obtained by additionally heating the test body from the heater with the gas flow remaining unchanged. When establishing the equilibrium state, the body temperature TZ and the heating power P. are measured.

The third state of heat balance is obtained in the same way as the second, but with a different consumed heating power P2 and corresponding temperature of the body T3.

The size of the heat exchange surface of the test body is chosen such that it is very small compared to the surface of the walls of the vessel or pipeline.

The intensity of heating of the test body is selected by tataim, so that the temperature range is optimal, at which the heat transfer coefficient a and the relative radiation coefficient 2 remain constant.

If accept

 K: And

/ Sa then

one

the formula will be as follows: 21. () P- (Ki) P

a, Р-Т (К, -1) (i-K,) - (Ki-l) (-К,) Subject of the invention

The method of determining the relative ratio of the solids-descent of solids under conditions of convective heat exchange, based on a change in the state of thermal balance between the body and the environment, such as gas flow and the walls of the cup, and measuring the body temperature by the contact method, characterized in that In order to increase accuracy, body temperature is measured in three states of its heat balance, two of which are arbitrarily set by heat removal or supply, and the third is due to convective and radiant heat transfer. and, according to receptive data, they find the desired radiation coefficient.