SU1557417A1 - Heat utilization plant - Google Patents

Abstract

The invention relates to a power system and can be used in gas-consuming boiler houses equipped with contact heat exchangers. The goal is to increase efficiency by reducing metal consumption and improving utilization efficiency. When the installation is in operation, the combustion products from the heat generator 1 pass first into the contact heat exchanger 4, releasing part of the heat to the circulating water, which is accompanied by condensation of water vapor from them, and then into the first surface heat exchanger 5, where further moisture loss from the combustion products also occurs. The water in the heat exchanger 5 of the external water supply circuit 9 is then heated in the water heat exchanger 8 of warm water circulating in the circuit 7, which gives off some of its heat and combustion products, ensuring their drying and preventing the condensation of residual water vapor in the chimney 2. 1 il.

Description

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water, which is accompanied by the condensation of water vapor from them, and then into the first surface heat exchanger 5, where further moisture is also lost from the combustion products. At the same time, in the heat exchanger 5, the water of the external circuit 9 of the water supply is heated to

The invention relates to heat and power engineering and can be used in gas-consuming boiler houses equipped with contact heat exchangers.

The purpose of the invention is to increase efficiency by reducing metal consumption and improving utilization efficiency.

The drawing shows a schematic diagram of the heat recovery installation.

The installation contains a heat generator 1 and a chimney 2, connected by a duct 3 with successively installed in it along the gas flow contact, first and second surface heat exchangers 4, 5 and 6, respectively. The contact heat exchanger 4 is connected by a circuit 7 of circulation cooling to a water-cooled heat exchanger 8 connected via a heated medium to the circuit 9 of the hot water supply. The first surface heat exchanger 5 is connected via the heated medium to the hot water supply circuit 9 to the water heat exchanger 8. The second surface heat exchanger 6 is connected to the circulation cooling circuit 7 of the contact heat exchanger 4 to the water heat exchanger 8 along the heating circulating medium.

Heat recovery installation works as follows.

The products of combustion from the heat generator 1 enter the gas duct 3, the passage of the contact heat exchanger 4, in which part of the clear and latent heat of the circulating water is given. In this case, the cooling of gases is accompanied by the condensation of water vapor contained in them. Then cooled and moisture-saturated gases pass through the first surface heat exchanger.

15574174

water heat exchanger 8 warm water circulating in circuit 7, which gives off some of its heat and combustion products, ensuring their drying and preventing condensation of residual water vapor in chimney 2. 1 sludge.

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5 and give off heat to the water of the external circuit 9 of the hot water supply, and further condensation of water vapor occurs. The water heated in the heat exchanger 5 enters the water heat exchanger 8, where it is heated due to the heat of water circulating in circuit 7, and then sent to the consumer Sne (shown)). The circulating water from the contact heat exchanger 4 is fed to the second surface heat exchanger 6, where it is cooled, giving away some of its heat to the gases, resulting in a drying of the gases, preventing condensation of residual water vapor in the chimney 2.

The use of the proposed heat recovery unit allows to reduce capital investment in the heat exchange surface of the plant and to increase the utilization efficiency, while ensuring the required drying of gases in front of the chimney.

Claims (1)

Claims of Invention A heat recovery installation comprising a heat generator and a chimney connected by a gas duct with contact, first and second surface heat exchangers sequentially installed along it along the gases and connected to the hot water circuit along the heated medium. after the first surface heat exchanger, a water heat exchanger connected to the circuit through the heating medium rum circulation cooling of the contact heat exchanger, characterized in that, in order to increase efficiency by reducing metal consumption and increase the utilization efficiency, the second surface heat exchanger is included in the configuration a round of cooling cooling of the condenser heat exchangers along the course of the heat exchanger to the water-conducting medium.