SU1539491A1 - Installation for recovering the heat of outgoing gases - Google Patents

Abstract

The invention relates to a power system and can be used in a closed heat supply system. The purpose of the invention is to increase efficiency. In the contact heat exchanger 1 is heated circulating chemically purified water, as well as part of the air entering the boiler room. Another part of the air is heated in the surface heat exchanger 11, which leads to a decrease in the relative humidity of the air in front of the fan 13. The connection of the air surface heat exchanger 11 in front of the water surface heat exchanger 12 prevents the circulating water pipeline from freezing. The joint execution of surface and contact heat exchangers also leads to a reduction in capital costs, reducing the installation area. 1 il.

Description

The invention relates to a power plant · and can be used for heat recovery of boilers

Closed heating system.

The purpose of the invention is improving efficiency.

.The drawing shows the installation of heat recovery of flue gases.

The installation comprises a contact heat exchanger 1, made in the form of a vertical casing, divided by a gate 2 into the lower air And upper gas chambers 3 and 4, each equipped with inlet and outlet pipes 5-8 of air and gas, as well as a tray 9 and a spray device 10, communicated between with the help of series-connected first and. the second surface heat exchangers 11, 12 and the contact heat exchanger 1 installed respectively in the lower and upper chambers 3, 4. Moreover, the first surface heat exchanger 11 is connected to an air source, for example, the atmosphere, by the heated medium at the inlet, and to the outlet pipe 6 of the lower chamber at the outlet 3, the second surface heat exchanger 12 is connected via a heated medium to a liquid source, for example, a fence from a reservoir, and a spray device 10 through chemical water treatment (not shown). Installation ‘involves fans 13, 14 and pump 15.

Installation of heat recovery of exhaust gases works as follows.

Chemically purified water is mixed with recirculated water and fed to the gas chamber 4 for heating by flue gases 4 through a spray device 10. Then, heated water through a water trap 2 enters the lower air chamber 3, where the humidified air drawn in from the atmosphere is heated and the water is decarbonized. Moreover, in the exhaust pipe 6, heated air is mixed with air in the first surface heat exchanger 11. The water accumulated in the pan 9 is supplied in parallel streams through the surface heat exchangers 11, 12 to a spray device 10 and to a deaerator (not shown). Moreover, chemically purified water, preheated in the second surface heat exchanger 12, also enters the spray device 10. Heated part of the air in the contact heat exchanger 1 with the total volume of circulating and chemically purified water, and the other part of the air in the surface heat exchanger 11, only with the volume of circulating water with their subsequent mixing before feeding into the furnace (not shown) leads to a decrease in capital expendituresJ a decrease in area, to a decrease in relative humidity in front of the fan 13, which dotvraschaet loss of moisture from the air and reduces the risk of corrosion. The connection of the air surface heat exchanger 11 in front of the water surface heat exchanger 12 provides stabilization of the temperature of the circulating water in the region of positive temperatures regardless of the temperature of the outside air, which prevents the freezing of the circulating water pipeline.

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In addition, the contact heat exchanger 1 simultaneously heats the circulated and chemically purified water, which simplifies the design.

Claims (1)

Claim An exhaust gas heat recovery apparatus comprising a contact heat exchanger made in the form of a vertical housing; divided by a water seal into the lower air and * upper gas chambers, each equipped with air and gas inlet and outlet pipes, as well as a tray and spray device communicated with each other by means of the first and second surface heat exchangers connected in series and installed respectively in the lower and upper contact chambers a heat exchanger, characterized in that, in order to increase efficiency, the first surface heat exchanger is connected to an air source through a heated medium at the inlet, and at the outlet, with the outlet pipe of the lower chamber, the second surface heat exchanger is connected via a heated medium to a liquid source and a spray device, respectively.