SU1511542A2 - Device for regenerating flue gas heat - Google Patents

Abstract

The invention relates to a power system and is an improvement of the invention on the main author. St. N1458655. The purpose of the invention is to increase the degree of heat utilization. In an installation for utilizing heat of flue gases containing a utilization heat exchanger 2 and heat exchanger 3 connected to the drip tray 4, and an outlet to the sprinkler 5, a cylindrical chamber 8 with a pallet 9 and sprinkler 10 is installed, communicated with the upper part of the flue 1, and the lower connected to the inlet section of the installation. In this case, it is possible to simultaneously heat the three heat carriers. The total heat flux removed from the flue gases increases due to a significant increase in the contact surface of heat exchanging media. 1 il.

Description

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The invention relates to a power system, may be used on fuel combustion plants and is an improvement of the invention according to the author. No. 1458655.

The aim of the invention is to increase the degree of heat utilization.

The drawing shows schematically an installation for utilizing heat of flue gases.

The installation contains utilization heat exchange miK 2 placed in gas duct 1 and heat exchanger 3 intermediate heat carrier connected by its input to the water collector 4, and output to the sprinkler 5 with dispensing nozzles 6 installed in front of the heat exchangers 2,3 along the gas lines placed coaxially with each other. made in the form of cylindrical spirals, with the turns of the spirals of one heat exchanger located between the turns of the other, the swirler 7 is installed at the inlet section of the installation

The installation is additionally equipped with a cylindrical chamber 8 with a pallet

9 and the sprinkler 10 located inside the coils of the heat exchangers 2.3 coaxially with them. The cylindrical chamber 8 with its upper part communicates with the flue 1, and the lower one is connected to the inlet section of the installation.

The flue gas heat recovery facility operates as follows.

The flow of fumes of gases, the passage through the swirler 7, is twisted and, moving further inside the cylindrical chamber 8 along the ascending spiral, contacts the sprinkler

10 intermediate heat carrier supplied from a third-party source (not shown). As a result of this contact, the flue gas stream is cooled, and the intermediate heat carrier is heated and collected in the tray 9, from where it is supplied to the consumer of heat (not shown in the drawing).

Any liquid substance with a high boiling point and poorly soluble in water can be used as an intermediate tester. In this case, it will be possible to achieve a high temperature of its heating, which will simplify the use of heat of the heated coolant.

If the flue gas flow is polluted,

cleaning it, which is most effective when used as an intermediate coolant solution with alkaline components, which simultaneously carry out chemical cleaning of flue gases from harmful gaseous substances that are always present in the fossil fuels.

The water supplied from the water trap 4 to the sprinkler 5, preheated in the heat exchanger 3, is sprayed through the sots 6 into the flue gas stream, as a result of which it evaporates and moistens them. Upon further movement of the flue gas flow, cooling is given by interaction with the surfaces of heat exchangers 2, 3, the cooling process is accompanied by condensation of moisture from the flue gases, thereby increasing the heat transfer coefficient from the flow to the heat transfer surface. The cooled flue gases are discharged from the installation through a droplet eliminator to the intake of the exhauster for removal into the chimney (not shown), and the water heated in the utilization heat exchanger 2 is discharged to the consumer.

Heat exchangers 2, 3 with a different cross-section of pipes, are simultaneously a guide apparatus that stabilizes the vortex flow of flue gases and ensures optimal conditions for counter-current of heat exchanging media.

Excess moisture condensing from the flue gases after heating in the heat exchanger 3 is discharged to the consumer.

Claims (1)

Thus, the proposed unit for utilizing heat of flue gases provides the possibility of simultaneous heating of three heat carriers: not only in heat exchangers 2,3, but also in a cylindrical chamber 8. In this case, the total heat flux removed from the flue gases is greater than in the unit basic copyright evidence, due to a significant increase in the contact surface of heat exchanging media, which ultimately increases the utilization degree of heat from the flue gas stream. Invention Formula Installation for heat recovery of flue gases by auth.St. No. 1458655, 51511542 6 characterized by the fact that, ralis and coaxially last, and in order to increase the degree of utilization of the cylindrical chamber with its upper heat, it additionally contains partly communicated with the passage, and the lower a cylindrical chamber with its own sub-connected to the inlet section by ustadone and irrigator installed with a gap inside the cylindrical sleeves