SU1342879A1 - Device for treating water by evaporation - Google Patents

Abstract

The invention relates to installations for utilizing the heat of waste gases from various power plants and improves the efficiency of a water treatment plant by mixing by increasing the steam content of flue gases. A water treatment unit containing a multi-stage vacuum evaporator with a condenser, flue gas sequentially installed contact heat exchanger and water contact heat exchanger, connected to the evaporator, equipped with a contact heat exchanger for water addition, mounted downstream of the heat exchanger for heating water and connected to the last step of the evaporator in one stripped of water. In the heat exchanger for the addition of water, the solution evaporates to dryness in contact with the gases having the highest temperature, the salts are removed from the heat exchanger through a special device. 1 il. SL

Description

The invention relates to a power system, namely to the utilization of heat from the exhaust gases of various power plants.

The purpose of the invention is to increase the efficiency of the installation by increasing the steam content of flue gases.

The drawing shows a water treatment plant by means of

The installation contains three heat exchangers connected in series in gas, the number of which may be more, but not less than three. The first in the course of the gas contact heat exchanger 1 for the additional evaporation of water is connected to the gas pipeline 2, coming from the source of flue gases. The gas pipeline 2 is equipped with an adjusting gas blower 3. A heat exchanger 1 for additional water evaporation is connected via gas to the second contact gas exchanger 4 along the gas flow to heat water through the pipe 5. The heat exchanger 4 by the pipe 6 is connected to the third heat exchanger 7 along the flue gas cooling the distillate.

The installation also contains a multistage vacuum evaporator 8 of instantaneous boiling with an integrated condenser 9, separated from the evaporator by incomplete partitions 10. A cooler 11 is placed inside the condenser 9. The first heat exchanger 1 is connected to the evaporator 8 through the flue gas through a pipe 12 to the evaporator 8, the second heat exchanger 4 It is connected to the evaporator by pipelines 13 and 14, and by pipe 15 is connected to the source water.

The third heat exchanger 7 along the flue gases is connected via a water (distillation) line through

pipelines 16 and 17 with condensation — 45 ovled by flue gases by a contactor 9. a heat exchanger for heating water and

contact heat exchanger for cooling

The installation works as follows.

The initial saline water through conduit 15 is supplied by spraying to heat exchanger 4, where it is heated. Water collecting in the lower part of the heat exchanger 4, via line 14, enters the vacuum evaporator B, where it is partially evaporated, and the vapors enter the condenser 9, condensate 50

55

The distillate is connected to the evaporator, characterized in that, in order to increase the economics of the installation by increasing the steam content of flue gases, it is equipped with a contact heat exchanger for additional evaporation of water installed along the flue gases in front of the heat exchanger for heating water and connected to the last stage evaporator for one stripped off water.

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It is run here and through conduit 16 by means of pump 18 through surface heat exchanger 19, where the distillate is additionally cooled, is fed to heat exchanger 7. In this water, the distillate water is sprayed, at the same time it is heated and additional vapor of flue gases is deposited. Water collects in the lower part of the heat exchanger and through the pipeline 17 enters the condenser 9, from where pump 18 distillates again is pumped out into the heat exchanger, repeat the cycle. In this case, the resulting excess distillate through the adjusting valve 20 and the buffer filter 21 is pumped into the TPP cycle for feeding boilers or other needs. The required level of concentration of the salt solution circulating through the pump 22 between the evaporator 8 and the heat exchanger 4 is maintained by blowing the solution to the heat exchanger 1 through the pipeline 12.

In the heat exchanger 1, heated by the gases with the highest temperature, the solution is evaporated to dryness and the salts are removed from the heat exchanger through a special device 23.

Due to this constructive installation, the most complete utilization of the heat of flue gases and the most complete release of the distillate occur, making it more economical than the known installations of the same purpose.

Claims (1)

Invention Formula A water treatment plant by evaporation, containing a multi-stage vacuum evaporator with a condenser, sequentially stacked contact heat exchanger for cooling The distillate is connected to the evaporator, characterized in that, in order to increase the economics of the installation by increasing the steam content of flue gases, it is equipped with a contact heat exchanger for additional evaporation of water installed along the flue gases in front of the heat exchanger for heating water and connected to the last stage evaporator for one stripped off water. / J6 5 V I Compiled by E.Sotnikova Editor N. Bobkova Tehred A. Kravchuk Order 4601/23 Circulation 850 Subscription VNSHSHI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 Proofreader A. Obruchar