SU1553780A1 - Direct contact heater - Google Patents

Abstract

The invention relates to a power system and can be used to recover heat from the waste gases of boilers, heat and power plants and other industries. The purpose of the invention is to increase efficiency by reducing the aerodynamic drag of the installation. Heating medium - waste gases enter the irrigated heat exchanger 3, come into contact with the irrigation water, heat it to a temperature close to the temperature of the wet thermometer, cool, and partial vapor condensation occurs. Then, the exhaust gases enter the heat exchanger 4, where they are cooled to 25 - 35 ° C, from which condensate is released. The cooled gases in a state of saturation enter the surface heat exchanger 6, where they are heated by the heat of the irrigation water to 30-40 ° C, as a result of which their relative humidity decreases. The irrigating water from the water trap 2 is supplied by the pump 8 to the heat exchanger 6, cooled to 5-10 ° C and fed to the irrigation of the heat exchanger 3, where it transfers heat to the heated water. This increases the thermal efficiency of the use of waste gases. 1 il.

Description

The invention relates to a power system and can be used for the recovery of heat from the waste gases of boiler plants and other industries.

The purpose of the invention is to increase efficiency by reducing the aerodynamic drag of the installation.

The drawing schematically shows a contact heater.

The contact heater contains, in the gas duct 1, one below another moisture collector 2, irrigated and additional heat exchangers 3, a heated medium, between which sprinklers 5 are placed, as well as a surface heat exchanger 6 for heating the heating medium and a circulation circuit 7 for irrigating water with a pump 8, and a heat exchanger 6 heating of the heating medium is included in the circulation circuit 7 of the irrigation water in front of the irrigators 5. The heater is provided with inlet and outlet nozzles 9 of the heating medium.

Contact heater works as follows .40

Heating medium - waste gases, for example, from the combustion of natural gas in boilers, with a temperature of 150–200 ° C, a wet thermometer temperature of 55-b5 ° C, enter the irrigated heat exchanger through the inlet 9, in contact with the irrigated water, heating it to the temperature the wet thermometer of the gases at the inlet, the water in the heat exchanger 3 is heated to a temperature close to the temperature of the wet thermometer, cooled to, from which partial condensation of water vapor occurs, and in a state of saturation contact with the heat from the non-irrigable CENI L cold condensate and fed to the irrigated additional heat.

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exchanger In the heat exchanger, the gases are finally cooled to 25-35 ° C, of which condensate is released. The low temperature of the cooled gases is determined by the low temperature of the incoming water towards them in the heat exchanger k. The intensity of heat transfer due to condensation is great and much higher than that during dry heat exchange. The cooled gases in a state of saturation enter the surface heat exchanger 6, where they are heated by the heat of the irrigation water to, as a result of which their relative humidity decreases. The heat transfer coefficient is heating water — the heated gas in the heat exchanger 6 is approximately twice as high as in the heat transfer gas-gas through the wall due to the high intensity of heat exchange from the water side.

Irrigating water from the water trap 2 with a wet thermometer temperature of 55-65 ° C is supplied by pump 8 to heat exchanger 6, where it heats the cooled gas, is cooled to 5-10 ° C and goes to the irrigation of heat exchanger 3, where it transfers heat to the heated water. Condensate that has escaped is removed from the installation. Cooling the irrigation water in the heat exchanger 6 for heating the heating medium before being supplied for irrigation allows, in addition to heating the heating medium, to reduce the portion of heat circulating between the irrigated and additional heat exchangers 3 to reduce the heat load and thereby reduce its area.

The aerodynamic resistance of the heater is reduced, since the heating medium only passes once through the heat exchanger 6 for heating the heating medium.

51553780

Claims (1)

The invention claims a heat exchanger for the heating medium and irrigation water circuit Contact heater containing pump, characterized by one above the fact that, in order to reduce the aerodyne, another moisture collector, irrigated and pre-resistance of the installation, complementary heat exchangers, heat exchanger, preheating the heating medium, between which are placed in the circulation circuit, the sprinklers, and surface warming water in front of irrigators.