SU1589175A1 - Method of continuous determination of heat value of liquid and gaseous fuels - Google Patents

Abstract

This invention relates to thermal physics, in particular, to methods for continuously determining the heat of combustion of liquid and gaseous fuels. The purpose of the invention is to improve the accuracy of determination - due to the fact that in the comparative and measuring cells additional heat is generated on the additional heaters, compensating for the asymmetry of the differential thermal circuit from the inequality of the thermal resistances of the heat sink of the comparative and measuring cells. 1 il.

Description

The invention relates to thermophysical measurements of the properties of substances and can be used in heat power engineering, in various industries, as well as in scientific research.

The aim of the invention is to improve the accuracy of

The drawing shows a thermal circuit for the implementation of the proposed method.

The scheme contains identical measuring 1 and comparative 2 cells symmetrically located in the shell 3 of the calorimeter, on the surface of which a constant temperature is maintained by any known method. Heat transfer from cells 1 and 2 to shell 3 is carried out respectively via heat sinks 4 and 3. The cells are connected between themselves through semiconductor heat flux converters - heat meters 6, Dp of heat equalization in cells in a comparative cell with an electric heater 7 connected to the output of an adjustable highly stabilized source 8 food. Type B5-49. In the process of burning fuel, the required quantity of heat Q is released.

 Before supplying the fuel in the measuring and comparative cells, the amount of heat Q is extracted using electric heaters 7 and 9, then using the heaters 10 and II, the amount of heat corresponding to QooH is extracted in a comparative and measuring cell and, by adjusting them, heat is compensated

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the flow between the cells through the heat meters 16. Then the calibration coefficients L Q are found,

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i A variable resistor 12 maintains thermal power on an additional electric heater 10 of comparative cell Qg. (/ m. Variable resistor 13 ensures that the maintenance of thermal power on the additional electric heater of the measuring cell Qo "the main electric heater 0 of the measuring cell is intended only 5 | for electrical calibration. To obtain the thermal power JQjj on it, it is connected to the output of the electrical calibration : GO of highly stabilized source | power supply type B5-49.20

; . The proposed method is carried out in the following manner.

; Electric heaters 7 and 9 are supplied with equal heat power; QIr and heaters 11 and 10: Additional heat capacities Q and ь are allocated. By changing the values and Qgo. using variable resistors 12 and 13 ensure the equality of Qr O in magnitude 30

| proportional electric signal from heat meters, after which the position of variable resistors 12 and 13: fixed, Turn off the electric heater 9, at the same time the fuel and 35 oxidizer begin to continuously feed into the measuring cell 1 and with the help of the burner node 15, : are the complete combustion of fuel; the resulting combustion products are vented 40 to the atmosphere. In this case, the thermal power Q is released in the measuring cell, which is diverted to the isothermal shell 3 by the heat sink 4. At the same time, the thermal power Q equal to the minimum thermal power received during the combustion of the fuel and at additional heaters 10 and 11 are an additional 50.

thermal powers Qgg and Q,., the ratio between which is determined during electrical calibration, is locked down and maintained by variable resistors 12 and 13, they compare heat emissions in cells, for which they continuously record heat flux Q through heat meters 6 between equal parts of the opposite parts of the outer surface measuring and comparative cells. According to the known dependencies, the heat of combustion of the fuel under investigation is determined by the magnitude of the electrical signal obtained from heat meters.

Claims (1)

Invention Formula The method of continuous determination of the heat of combustion of liquid and gas: x fuel, which means that the measuring and comparative cells are placed under identical conditions, the fuel and oxidizer are continuously fed into the measuring cell and the process of complete combustion is carried out, the combustion products are removed and at the same time the heat flow from the comparative and measuring cells along thermal bridges to the obochka is removed, then the heat generation in the cells is equalized by adjusting the thermal power Qo in the comparative cell, distinguishing By the fact that, in order to determine the accuracy of determination, before the fuel is supplied to the measuring cell, cells are separated, the same amount of heat is compensated and the heat flux between the cells is regulated by adjusting the additional heat fluxes xq QOS, respectively, and incineration is continuously maintained in the cells  . 9o Qog and Qo ( Toplibo and oxidizer