SU700376A1 - Utilization distilling plant - Google Patents

Description

(54) DISPOSAL INSTALLATION FOR DESERTATION OF SEA WATER

an expansion vessel 5 and a pump 6 with a starting device 7 forming a circulating 8, a cooling sea water pipe 9 connected to the inlet and outlet of the condenser 10, which is connected to the internal cavity of the evaporator 3, and a feeding pipe 11 connecting the heat exchanger 2 to the evaporator 3, an air shutoff valve 12, which is installed in the upper part of the circulation circuit 8 and connected to the outlet of the device 7 of the pump 6. The vessel 5 is hydraulically connected to the inlet of the pump 6 and the outlet of the battery 4 of the evaporator 3 and is located below the water heater 1. The heat exchanger 2 is cooled with a cooling cavity A to the pipeline 9 in front of the pipeline 11, and its cooled B strip - to the heating circuit 8 in front of the battery 4 ..,

The heat exchanger 2 contains a temperature regulator 13, a pipe 14 connected to a condenser 10, which is designed to remove the distillate. The water heater 1 is installed in the gas passage 15 of the power plant (gas turbine, boiler). Pipelines 16 and 17 are dedicated; Started respectively for the suction of air and spruce Ba brine from the desalination plant.

The installation works as follows.

Seawater passes through conduit 9 to the condenser battery 10 and cooling cavity C of heat exchanger 2, after which part of the seawater is dropped overboard, and part goes to conduit 11 to evaporator 3. Pump 6 pumps heating water in circuit 8 through the water heater) , the heat engine 2, the battery 4, the evaporator 3, and the vessel 5. The water heater 1 is washed by a stream of hot water; gases of the power plant, heating the water circulating in the circuit. The regulator 13 of the heat exchanger 2 maintains a constant value of the temperature of the water entering the battery 4, ensuring the stable operation of the desalination plant when the operation mode of the power plant changes and, accordingly, of the flue gas temperature, and also prevents the increase in the temperature of the surface of the battery 4 and the associated increased scale formation. The vapors in the evaporator 3 of the seawater are condensed in the condenser 10 and the distillate is discharged to the consumer via line 14.

To create a vacuum in the evaporator and the condenser, air is sucked out of them through the pipeline 16. Through the pipeline 17, 3 excess brine is pumped out from the evaporator.

If it is necessary to turn off the utilization desalination plant, the device 7 commands the pump 6 to turn off and open the air valve 12. At the same time, the heating water flows by gravity from the circulation circuit, including from the water heater 1, to the vessel 5, preventing boiling up of the heating water, an unacceptable increase its temperature and pressure. When the plant is turned on by the command of the device, the pump 6 is turned on and the air valve 12 is closed, the circulation circuit is filled with heating water and the plant desalinates seawater in the manner indicated above.

The use of the invention provides improved reliability of the plant when using flue gas TCiTJia by preventing an unacceptable increase in the temperature and pressure of the heating water and preventing conditions conducive to accelerating scale formation on the surface of the evaporator heating battery.

Claims (1)

1. S. liverstov VM Disposal of heat in ship d.chzelnyh installations. L., Sulosgroenie, 1973, p. 152, fig. 72.