SU883658A1 - Calorimetric method of measuring consumption - Google Patents

Description

one

The invention relates to a measurement technique, in particular to thermal flow measurement methods, can be used in industries that use a large number of gases of different properties, for example, in the manufacture of integrated circuits by gas diffusion, control and regulation of the supply of gaseous catalysts, as well as with various laboratory research x.

A calorimetric method for measuring flow is known, based on the heating of the measured flow and measuring the effect of this heating, depending on the flow. In this method of measurement, the flow rate is determined from the heat balance equation made up for the heater and the flow to be measured. Since this equation also includes heat losses to the environment, these losses must be taken into account when measuring 1.

The most technically advanced invention of the invention is a method for measuring the flow rate, based on measuring the power of the heating, and the temperature difference between the measured flow at the inlet and outlet

measuring site and measuring the heat loss to the environment by temperature differences in the heat of the heater. For the purpose of both sintering stationary hydrodynamic and thermal conditions, the measurement of the flow temperature is carried out at some distance from the heater, since the length of the measuring section

10 more than the length of the heater. The distance from the input temperature sensor to the heater is selected from the condition that the temperature of the measured flow, wall and environment is equal. The distance from the heater to the output terminal of the modulator 15 is chosen from the condition that the temperature of the measured flow and the wall 2 are equal.

Claims (2)

The disadvantage of this method is the measurement of heat loss only to 20 at the site of the heater, and not at the entire measuring site. With a decrease in the flow rate of the measured heat loss from the sections between the inlet and outlet thermal sensors and the heater increases, as the temperatures of the measured flow and the walls in these areas grow. These heat losses are not taken into account when determining the flow rate using the heat balance equation of the left balance in a known manner. Therefore, this method of measuring expenditure cannot be applied to measure small expenses. The purpose of the invention is to expand the range of measurement of calorie consumption by the 1 st method to the area of consumption; The goal is achieved by the fact that in the calorimetric method of measuring the flow, based on the fact that the measured flow is heated and the temperature difference between the input and output of the measuring section is measured, and the difference between the measuring section of the flow rate is measured by the difference flow rate and heat capacity, and the temperature difference between the auxiliary flow at the inlet and outlet of the measurement section is measured. The drawing shows a calorimetric flow meter for the proposed method. The flow meter contains a measuring tube 1 on which an electric heater 2 is wound and temperature sensors 3 and 4 are installed. A measuring section with a heater is enclosed in a jacket 5, temperature sensors b are placed at the inlet and outlet, and the proposed method is carried out as follows. the measuring tube 1 and control its heating by thermal sensors 3 and 4. The auxiliary stream with the known flow rate and heat capacity, for example air, is passed through the outer p head. Since the jacket covers the entire measurement area, all the heat supplied by the heater 2 is distributed between the measured and auxiliary streams. The heat balance equation in this case can be written in the form of the amount of heat given off by an electric heater} the amount of heat obtained by the measured flow; the amount of heat received by the flow in the jacket (auxiliary (1m of the opening flow, the terms in the right-hand side of equation (1)), we get the magician в in n5nLLn I Sc - heat capacity measured where Cft, th., and auxiliary flowsJ С „are the costs measured itj, bt are the temperature differences of the measured and auxiliary flows at the inlet and outlet of the measuring section. From equation (2) we get the formula for calculating the flow of the measured flow, PHC (-SnbnDbn, C, dc. (3) As can be seen from the formula, to determine the flow of the measured flow Gg with known power, heater, flow rate and heat capacity auxiliary flow is sufficient to measure the temperature difference between the measured and auxiliary flows at the inlet and outlet of the measuring section. The advantage of the proposed method in comparison with the known one is that the measurement range significantly increases in the area of low flow rates, and The horizontal characteristic over the entire range remains calculated. This circumstance makes it possible to reject individual calibration of each flow meter on the measured medium. a large amount of gas and liquid flows in wide ranges.The application of the proposed method for various laboratory studies is promising. , pilot plants, monitoring and regulation of gaseous and liquid catalysts and chemical production. Claims The calorimetric method of measuring the flow rate is based on the fact that the measured flow is heated and the temperature difference between the inlet and outlet of the measuring section is measured, and the flow rate, differing in that, in order to extend the measuring range to small flow rates, the entire measuring section is blasted with an auxiliary flow with a known flow rate and heat capacity, and the temperature difference between the auxiliary flow at the inlet and outlet of the measuring section is measured. Sources of information taken into account during the examination 1.Frenkel BA Measurement of small and micro expenses of petrochemical products, productions. M, TsNIITENEFTEKHIM, 1973, p. 55-60. 2. Azimov, R.K., et al. Heat exchange measuring transducers. FAN, -1974, pp.29-32 (prototype).