SU1263972A1 - Heating plant - Google Patents

Abstract

THERMAL INSTALLATION, including a heat generator with a firebox and a gas path with a surface heat exchanger, a gas heater and a chimney placed in series along the gas, characterized in that the gas path is made in the form of two parallel branches with a surface heat exchanger in one from branches and gas heater to another.

Description

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The invention relates to heat energy and can be used in gasified boiler houses equipped with contact gas-fueled heat exchangers (heat utilizers).

The purpose of the invention is to increase the efficiency of the thermal installation.

The drawing shows a schematic of the installation.

The boiler plant contains a boom with a firebox 1 and a gas path in which an air heater .2 is connected in series, connected by air duct 3 to a firebox 1, contact heat exchanger 4, gas heater 5, gas exhaust channel 6, exhaust fan 7 and chimney 8. Circuit bypass 9 equipped with a flap 10. Contact heat exchanger 4 has a water distributor 11, a nozzle contact chamber 12, a pallet 13 and a droplet separator 14. The flue 15, connected to this air heater 2 and the contact heat exchanger 4, is equipped with a damper 16. The air path of the installation, Operated by a blower fan 17 and a flap 18.

During the operation of the plant, the products of combustion of natural gas, burned in furnace 1, enter the gas train. Here, the main part of the gases enters the air heater 2, where they are cooled, and then through the duct 15 into the contact heat exchanger 4, where they are cooled and saturated with moisture. A portion of the hot gases, taken before the air preheater 2, is directed to the bypass duct 9, and, passing through the heating side of the gas preheater 5, is cooled and fed to the inlet of the contact heat exchanger 4, where

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mixed into the main stream (cooled in air preheater 2) gases. Pass the contact chamber) 12, the gases are cooled and the ayut

5 moisture. In the drip catcher 14, part of the droplets and the spray is retained, flows into the contact chamber and merges with the flow. The gases further pass through the heated side of the gas supply heater of the heater 5, in which they are heated (dried) Ti enters the gas outlet channel 6 with the temperature required to ensure the absence of water vapor condensation

15 on the last part of the gas path. The dried gases by the exhauster 7 through the chimney 8 are emitted into the atmosphere. The blast air is supplied by the fan 17 to the air heater 2, where it is heated, and then through the air duct 3 to the furnace 1.

Water is supplied through the water distributor 11 to the contact chamber 12.

25 of the heat exchanger 4, where it is heated, then flows by gravity into the pallet 13 and then goes to the consumer. By means of the dampers 10 and 16, the redistribution of

30 gas flows when changing the boiler load or the load of the heated water consumer, by means of the damper 18 - the flow rate of the blast air is controlled.

The use of this heat installation allows to increase the efficiency by reducing the energy consumption for the drive of the exhauster and reducing capital investments in the heat exchange surface of the installation while ensuring the required drying of gases after the contact heat exchanger.

Claims (1)

HEAT INSTALLATION, including a heat generator with a furnace and a gas path with a surface heat exchanger, gas heater and chimney stacked sequentially along the gases, characterized in that, in order to increase the efficiency of the heat installation, the gas path is made in the form of two parallel branches with a surface heat exchanger in one of branches and a gas heater in another.