SU1231364A1 - Cooling tower for cooling system of installation with thermal engine - Google Patents

Description

one

The invention relates to a power system, in particular to heat exchangers designed for a cooling system of a plant with a heat engine, for example an internal combustion engine, a gas turbine, a steam turbine.

The purpose of the invention is to improve the efficiency of the system by lowering the temperature of the cooling air and increasing the draft of the cooling tower.

FIG. 1 shows a cooling tower, a longitudinal section; in fig. 2 - heat exchanger-condenser, top view.

The cooling tower for the cooling system of the installation, with a heat engine contains exhaust tower 1 with heat exchanger 2 in the lower part, pipeline 3 for supplying flue gases, heat exchanger-condenser, made in the form of an annular collector 4 with nozzles 5 for exhaust gases, connected by radial smoke ducts 6 to the pipeline 3 are supplied with flue gases, and a condensate purification device 7 with conduits 8 and 9 for supplying and discharging condensate, respectively, with the ring manifold 4 placed above the heat exchanger 2, the pipes 5 are located between with dial flue ducts 6, the condensate supply pipe 8 is connected to the collector 4 in the lower part, and the condensate drain pipe 9 is made circular, placed around the tower 1 and provided with nozzles 10 facing output ends to the heat exchanger

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2. In addition, the heat exchanger-condenser contains a tube bundle 11 and the tube 12 connected to the annular manifold 4.

The cooling tower works as follows.

The cooling working medium of the cooling system of a plant with a heat engine passes through a heat exchange 0 nick 2, surrounded by air entering the cooling tower. Pipeline 3 is supplied with flue gases, for example, from the furnace of a boiler of a thermal power plant (not shown). The flue gases enter into 5 radial chimneys 6 and pass through the tube bundle 11 washed by the cooling air, where they are cooled and condensed water vapor contained in the flue gases.

20 Condensate and part of the non-condensed gases flow through pipes 12 to ring manifold 4, where condensate is separated from non-condensed flue gases,

25 which through the nozzles 5 enter the air flow, and the condensate through the pipeline 8 is fed into the cleaning device 7 and further along the pipeline d 9 through the nozzles 10 is injected

3Q in annular space heat. mannich 2, as a result of which the cooling capacity of the cooling tower is increased. Coming through pipes 5 Flue gases increase the air in the turret 1, which also contributes35

It does not increase the cooling capacity of the cooling tower.

Editor A. Ogar Order 2553/45

chg.2

Compiled by N. Zaikina Tehred I.Popovich Proofreader A. Zimokosov

Circulation 589 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Project, 4

Claims (1)

COOLING SYSTEM COOLING SYSTEM WITH A HEAT ENGINE, containing an exhaust tower with a heat exchanger in the lower part and a flue gas supply pipe, characterized in that, in order to increase the efficiency of the cooling air flue and increase the draft of the cooling tower, it is equipped with a heat exchanger-condenser made in the form ring collector with flue gas outlet pipes connected by radial chimneys to the flue gas supply pipe, a condensate purification device with supply and exhaust pipes of the condensate, moreover, the annular collector is located above the heat exchanger, the flue gas branch pipes are located between the radial chimneys, the condensate supply pipe is connected to the collector in the lower part, and the condensate drain pipe is circular, placed around the tower, equipped with nozzles facing the heat exchange-cooling draft ends cooling towers 1 1231364