SU1492255A1 - Method for continuous determination of heat of combustion of liquid and gaseous fuels - Google Patents

Abstract

The invention relates to thermal physics and can be used to determine the heat of combustion of liquid and gaseous fuels. The purpose of the invention is to improve the accuracy of determining the heat of combustion. The method is based on the implementation of a differential thermal circuit. The test fuel and oxidizer is supplied to the measuring cell of the calorimeter, its consumption is V ₁ , and the process of complete combustion of the fuel is carried out. Thermal power is diverted from the measuring and comparative cells and the heat flux is continuously recorded between equal opposite squares of the outer surface of the cells. With the help of a heat source in a comparative cell, the heat power Q ₀₁ is equal to the heat power obtained as a result of the combustion of fuel in the measuring cell. Then, the supply of fuel to the measuring cell is stopped and the fuel is supplied to the comparative cell, following the same procedure of burning the fuel and recording the flow rate V ₂ and power Q ₀₂ . The amount of heat of combustion of the fuel is determined by the formula Q = √Q ₀₁ ^. Q ₀₂ / √V ₁ ^. V ₂ 1 Il.

Description

The invention relates to thermal physics and can be used in heat and power engineering and industrial areas to determine the heat of combustion of liquid and gaseous fuels.

The aim of the invention is to improve the accuracy of determining the heat of combustion.

The drawing shows a device for carrying out the method.

The test fuel from the metering device I and the oxidizer are continuously supplied to the measuring cell 2, placed in the isothermal shell 3, and using a burner

Node 4 performs the process of complete combustion of the fuel, removing heat to the surface through the heat sink 5. Combustion products. l is vented to the atmosphere. In this case, in a measuring cell, the amount of heat Q is released per unit of time. At the same time, in thermal cell 6, heat source Q is extracted using heat source 7, which is equal to thermal power obtained as a result of combustion of fuel in the measuring cell. They compare heat fluids in the cells, for which they continuously record the heat flux Q through heat meters 8 using a recorder

9 between equal opposite areas of the outer surface of the measuring and comparative cells. Proportional to the electrical signal from the heat meters, the heat release in the cells is equalized to ensure that Q.0 is equal by adjusting the thermal power released in the comparative cell, and the compensating heat value is measured. power in the comparative cell and fuel consumption V from the metering device to the measuring cell. Then, the supply of fuel and oxidant to the measuring cell is stopped and at the same time they are started to be supplied to the comparative cell by carrying out the same process of complete combustion of fuel through the burner unit 10, by adjusting the thermal power Qg2. The heat produced in the measuring cell, the amount of compensating thermal power in the measuring cell and the fuel consumption V are measured in the comparative cell, and then the heat of the fuel is determined by the formula,,

., q 40 ° 7oog / fcb fault in determining q is reduced by 5-10 times due to the elimination of the influence of the structural asymmetry of the calorimeter thermal circuit, as well as the effect of variable contact thermal resistances.

Claims (1)

Invention Formula A method for the inherent determination of the heat of combustion of fuel, I conclude resulting in complete combustion of the test fuel in the measuring cell, diverting thermal power from the measuring and placed with it under identical conditions of the comparative cell through heat sinks, continuous recording of the heat flow between equal opposite areas of the outer surface of the cells and leveling the heat generation in the cells, distinguished by that, in order to improve the determination accuracy, fuel is additionally burned in a comparative cell with simultaneous cessation of the supply of fuel to the measuring cell, by adjusting the thermal power in the measuring cell, equalizes the heat generation in the cells and determines the heat of combustion by the formula 0  Q 01 five QO, and 0 thermal power in the comparative cell during combustion of the fuel in the measuring cell, W; heat power, measured in the measuring cell in the process of fuel combustion in the comparative cell, W;  - gaseous fuel consumption when it is burned in the measuring and comparative cells, respectively, m Vc (liquid fuel - kg / s). J 8 5 I 4-4 7 b 10Tffff / juffp. with PHUf- LlfrrO / 7A Well J N // f L