SU1767286A2 - Device for utilization of burned products - Google Patents

Abstract

The invention relates to a power system and can be used in various sectors of the national economy in heat utilization plants. The aim of the invention is to expand the field of use by disposing of dusty combustion products. In the installation, the evaporator 4 is connected to the gas duct 3 at the inlet tangentially in its lower part, and at the outlet coaxially in the upper part. In operation, the dusty combustion products are tangentially supplied to the lower part of the evaporator, where they are cleaned and moistened due to centrifugal forces. 1 il.

Description

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The invention relates to the field of power engineering, can be used in various areas of the national economy in the heat utilization plants and is an improvement of the invention according to the author. Ns 989232.,

From the main auth. No. 989232 is known for the installation of heat recovery of combustion products, containing respectively a gas flue connected to a heat generator and a chimney with an evaporator, a condenser and an aftercooler of flue gases successively installed in it along the gases, the heated path of which is connected to the heat consumer and the chimney.

A disadvantage of the known installation is its low thermal performance when disposing of heat from the dusty combustion products (formed during the combustion of solid fuels, fuel oil), since the combustion products passed through the evaporator are practically not cleaned due to an inefficient scheme of wetting the combustion products (cross) which is ineffective for cleaning gases. The disadvantages also include inefficient connection of the evaporator to the gas path, which does not allow organizing gas cleaning from solid particles due to inertial centrifugal forces, as well as leading to short residence time of solid particles in the evaporated irrigated volume, which contributes to the discharge of solid particles to the condenser. The last turn leads to contamination of the heat exchanging surfaces of the condenser, which reduces the heat transfer coefficient and increases the hydraulic resistance of the latter.

The aim of the invention is to expand the field of use by disposing of dusty combustion products.

The goal is achieved by the fact that the installation for the utilization of the heat of combustion products according to bus no. USSR No. 989232 contains, respectively, a gas duct connected to a heat generator and a chimney with an evaporator, a condenser and an aftercooler of flue gases, heated by the outlet According to the invention, the inlet of the combustion products to the evaporator is made tangential in its lower part, and the outlet is coaxially in the upper part of the latter.

The installation installation is different from the basic invention according to avt. USSR number 989232 so that the entrance of products of combustion in

the evaporator is made tangential in its lower part, and the output is coaxially in the upper part of the latter. Thus, the proposed installation meets the criterion of novelty. Comparison of the proposed technical solution (installation) not only with the prototype, but also with other technical solutions in this and other related fields of technology allowed us to identify a technical solution containing a feature similar to the feature that distinguishes the claimed technical solution from prototype - tangential evaporator connection at the inlet and coaxially connected at the outlet

5 to the flue conveyor transporting combustion products. In the proposed technical solution, the evaporator, connected tangentially at the inlet and coaxially at the outlet to the gas path, manifests a well-known feature — cooling the combustion products by moistening them, also shows a new property, namely, it allows cleaning them from solid particles contained in dusty combustion products. The presence of a new property of a well-known trait, manifested in the proposed solution, ensures that the criterion meets the essential differences.

The drawing shows schematically the installation of the utilization of the heat of combustion products.

The installation contains connected to the heat source 1 and the chimney 2 duct 3. In the duct 3

5 are sequentially installed along the gas path the evaporator 4, the condenser 5 and the after-cooler 6 of flue gases. The duct 3 is connected to the evaporator 4 at the inlet tangentially at the bottom of it, and at the outlet coaxially in

0 top of it. The heated path of the aftercooler 6 is connected at the outlet to the heat consumer 7 and to the chimney 2, respectively, lines 8 and 9. At the inlet, the heated path of the aftercooler 6 is connected to atmospheric air. Condenser 5

5, the heated path is connected to the heat consumer 7 by line 10.

Installation of heat recovery products of combustion works as follows. Flue gases from the heat generator 1

0 is fed through the duct 3 into the chimney 2. The dusty combustion products supplied tangentially to the lower part of the evaporator 4 due to centrifugal forces are subjected to coarse treatment due to the fact that

5 solid particles of relatively large size will be deposited on the inner walls of the evaporator 4 and the flow of coolant (water) supplied by the nozzles will be washed out

evaporator 4. Small solids, not related to the walls of the evaporator, will move upwards along a line different from the direct because of the swirling flow at the inlet to the evaporator 4. Due to the spray nozzles of water and taking into account the rather long residence time of particles in the evaporator’s irrigated volume 4 , small particles will be captured by water droplets and, by means of the latter, removed outside the evaporator 4. In the evaporator 4, the flue gases are also cooled and saturated with water vapor. Further, the flue gases in the condenser 5 and the after-cooler 6 are cooled below the dew point and dried. The water heated in the condenser 5 is directed via line 10 to the heat sink 7, to which also a portion of air heated through line 8 is heated in the after-cooler 6 of flue gases,

The remainder of the air heated in the after-cooler 6 is directed through line 9 to the chimney 2. Irrigated water after

the evaporator 4 and the condensate after condenser 5 and after-cooler 6, contaminated with solid particles, are discharged to the recovery unit, from where sludge is removed outside the installation, and pure condensate and water are directed to the evaporator 4. Thus, the tangential evaporator connection 4 to the gas path allows, due to inertial centrifugal forces, to efficiently trap solid particles found in dusty combustion products, which allows them to be disposed of.

Claims (1)

The invention of the installation of heat recovery products burned on av. 989232, which is different from the fact that, in order to expand the field of use by disposing of dusty combustion products, the evaporator is connected to the inlet flue tangentially in its lower part, and at the exit - coaxially in the upper part.