SU1425474A1 - Method of measuring temperature of gas flow - Google Patents

Abstract

The invention relates to thermometry and allows to improve the accuracy of determining the temperature of the gas stream and simplify the measurement process. A device for measuring the temperature of the gas stream contains a pipe 3 of the measuring channel and thermal converters 4 and 5, the junctions of which are connected to the pipe 2 of the measuring channel. The device is introduced into the gas flow, the measuring channel is cooled, the temperature of the wall T0 of the measuring channel is measured, the gas is sucked through the measuring channel, the temperature of the cooled gas TI and To is measured using thermocouples 4 and 5. Then the cooled gas suction rate is measured and the temperature of the cooled gas T | and Tj in the same cross sections, after which the gas flow temperature is determined by the formula T.T. ,, (T, -Tet) () 1 C1 1 J -ZliL t.t. 7 FH-t.g and 2 silt (L

Description

4 S

sd

four

The invention relates to thermometry and can be used to measure the temperature of a gas.

The method of measuring the temperature of a gas is based on measuring the temperature of a thermocouple flowing around the gas stream at - two different values of its velocity.

The purpose of the invention is to improve the accuracy of determining the temperature of the gas stream and simplify the measurement process.

FIG. 1 shows a device for Yu implementation of the method, a general view; in fig. 2 is a section A-A in FIG. 1 (in the area of the working area).

Perratura cooled walls. The wall temperature is, for example, 300 K.

Suction is turned on, while the measured gas flows through pipe 2 of the measuring channel at a speed of, for example, 70 m / s, and the gas temperature decreases along the length of the suction channel due to intensive cooling. Thermocouples 4 and 5 move to the cross section of the inlet pipe 2 measuring channel.

Thermal converters 4 and 5 are displaced until the temperature of the first downstream thermoconverter 4 approaches the temperature at which the ash begins to soften. For example, with a device for measuring temperature

The gas stream contains water cooled. meter pipe 2 measuring channel d body 1, pipe 2 measuring channel, 20 mm and the depth of thermocouples along the channel for 4d and 7d temperature thermocouples 4 and 5 are respectively 1700 K and Ta 1518 K. For a section of the channel 4d

3 installation channels, with the pipe 2 20 Reynolds criterion JRei 2, for the measuring channel and the pipe 3 of the installation section of the channel with a length of 7d - Re2 3.88X

X 10. Change the gas suction rate through pipe 2 of the measuring channel, for example, to a value of 50 m / s and measure the temperature of thermal converters 4 and 5 TI 1600 K

Thermocouples 4 and 5 slide in T2 1373 K, for a channel section of length

to the maximum working area depth, 4d Reynolds Ref. 1.55-10 dl

pipe 3 of the installation channel, two thermal converters 4 and 5. Thermal converters 4 and 5, whose junctions are led out into pipe 2 of the measuring channel, are placed in the pipe

channel in the working area are conjugated to form a common channel.

The method is carried out as follows.

then cooling is turned on and the device is introduced into the test zone of the furnace or combustion chamber, where the gas temperature is about 2000 K. The thermoconverter 4 is recorded, which determine the temperature of the pipe wall 2 of the measuring channel, since in the absence of suction the gas temperature in the suction channel is equal to 30

Channel section length 7d - Re2 3 / J23X X 10.

The values of Rei, Reg, Ref, Re2 lie within the same flow regime, therefore, the conditions of heat exchange in the channel for both cases are the same. T, T2, TI T2 determine the value of Tg by the formula:

T, Tag + (T, -ToT) () T, -T.t

Tr-Formula Invention

- T., Tet In ---

Dennog measure that with laziness measure

A method for determining the temperature of a gas stream by introducing a device with a measuring channel into the gas stream, cooling the cooled walls. The wall temperature is, for example, 300 K.

Suction is turned on, while the measured gas flows through pipe 2 of the measuring channel at a speed of, for example, 70 m / s, and the gas temperature decreases along the length of the suction channel due to intensive cooling. Thermocouples 4 and 5 move to the cross section of the inlet pipe 2 measuring channel.

Thermal converters 4 and 5 are displaced until the temperature of the first downstream thermoconverter 4 approaches the temperature at which the ash begins to soften. For example, when the diameter of the pipe 2 measuring channel d 20 mm and the deepening of thermal conversion 4d Reynolds criterion Ref 1.55-10 dl

0

1P

Channel section length 7d - Re2 3 / J23X X 10.

The values of Rei, Reg, Ref, Re2 lie within the same flow regime, therefore, the conditions of heat exchange in the channel for both cases are the same. T, T2, TI T2 determine the value of Tg by the formula:

if -Tag

T, -T.t

T, -tcg

- T., Tet 7 tG-Tst In --- In-s ---

ig ICT

gas in two sections along the length of the measuring channel, characterized in that, in order to increase the accuracy of temperature determination and simplify the measurement process, the suction rate is cooled

lays the measuring channel, measuring 45 This gas through the measuring channel, from the temperature of the wall of the measuring channel, then sucking the gas through the measuring channel and measuring the temperature, cool the temperature of the cooled gas in the indicated sections and determine the temperature T of the gas flow by the formula

InTLlTlL 1 child

t, Tet + (T, -Tag) (- --Sl) Mr. Tst

T-TSH

where he-wall temperature gauge- 5T | T2 temperature in two sections of the channel; measuring channel when changed1 | , B - temperatures in two sections due to the suction rate. measuring channel;

 The gas through the measuring channel, measure the temperature of the cooled gas in the specified cross sections and determine the temperature T of the gas stream by the formula

In;

T, -Tt

tg-t7t

InTLlTlL

Phie.g

Claims (1)

The claims ⁴⁰ The method of determining the temperature of the gas stream by introducing a device with a measuring channel into the gas stream, cooling the measuring channel, measuring 45 the temperature of the wall of the measuring channel, then suctioning the gas through the measuring channel and measuring the temperature of the cooled gas in two sections along the length of the measuring channel, characterized in that , in order to improve the accuracy of determining the temperature and simplify the measurement process, change the rate of suction of the cooled gas through the measuring channel, measure the temperature chilled gas in the indicated sections and determine the temperature T _{g of the} gas stream by the formula T _g -T _with t + (Tj -Tag) / Τι_ — Tag Ch-Tc7 where Te · is the temperature of the channel; Τι, Т ₂ - temperature of the measuring wall of the measuring Τι * Т ₂ * - temperature of measuring speed in two sections of the channel; in two sections of the canal with a change in the pump. Compiled by V. Agapov Editor V. Petrash Order 4758/37 Tehred I. Veres Corrector O. Kravtsova Circulation 607 Subscription VNIIIPI of the USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushskaya nab., D. 4/5 Production and printing company, Uzhhorod, st. Project, 4