SU1426947A1 - Installation for evaporating mineralized waste water - Google Patents

Abstract

The invention relates to heat and power engineering, and more specifically, to the utilization of heat of flue gases from various power plants, and it allows to increase the economy and ensure the autonomy in operation of distillation units for evaporation of waste mineralized water. A unit for evaporation of saline wastewater contains a technological unit with a furnace and a steam generator, a contact preheater of source water connected to a furnace, a contact apparatus for dewatering concentrated wastewater connected to a flue gas preheater, a multi-stage evaporator, an ejector connected by a suction nozzle to an evaporator and a naporeHap - ru, and the discharge pipe to the source water heater. 1 il. L

Description

The invention relates to a power system, and more specifically to the utilization of heat from exhaust gases of various power plants in evaporation plants.

The purpose of the invention is to increase the efficiency of the installation.

The drawing shows the scheme of the proposed installation.

The installation contains a technological unit 1 with a furnace and a steam generator 2, a contact device 4 for dewatering mineralized water connected to it via path 3 of flue gases, to which contact heater of source and circulating water is connected via path 5 of flue gases And 6 lines of concentrated water , a vacuum multi-stage evaporator 8 with a built-in condenser 9, an ejector 10 connected by a suction nozzle II to the outlet nozzle 12 of the steam generator 2 and to the evaporator 8, and a discharge pipe 13 to the end Comp act preheater 7, collectors 14, discharge line 15, the distillate, a steam generator connected to the input line 16 mineralized water source connected to a contact heater 7, and pumps 17.

The installation works as follows.

The source M1sheralized water is fed to the contact preheater 7j where they are heated with exhaust gases and mixed with the circulating water, after which the pump 17 is fed to the evaporator 8, in which the vacuum is maintained at the required level. condensation of the secondary steam in the built-in condenser 9. From the evaporators of the 8, the circulating water flows by gravity into the collector 14, and from there it is fed into the contact preheater 7. A part of the circulating water concentrated in the receiver, served in the contact apparatus 4, where it is dehydrated.

The condenser 9 is cooled by water, which, after heating, is sent to the hot water supply or technical water supply line.

with open water intake, which allows to utilize the heat of exhaust gases.

The escaping gases from the process unit 1 successively enter the contact dehydration unit 4 and the contact heater 7, after which they are emitted into the atmosphere. A part of the distillate produced in the evaporator is fed to the steam generator 2, and the steam produced in the latter is sent to the ejector 10, which ensures the required vacuum depth in the evaporator 8. The steam-gas mixture from the ejector 10 is sent to the contact preheater 7, where it is disposed of together with The successive supply of flue gases from the process unit to the contact dewatering device and contact preheater makes it possible to utilize the entire volume of flue gases consumed during evaporation and ultimately toga leads to increased efficiency of the installation.

Equipping the installation with an ejector connected to a steam generator and connecting an atomic steam generator to the distillate flowline allows refusing the supply of a third-party energy source for the vacuum system in the evaporator, which in turn ensures the autonomy of the installation.

Claims (1)

Invention Formula An installation for evaporation of saline wastewater, containing a technological unit including a furnace and a steam generator, a contact preheater of source water connected to a furnace, a multi-stage evaporator, a contact apparatus for obuvayaniya concentrated wastewater, which, in order to increase its efficiency, it is equipped with an ejector, connected by a suction nozzle to a steam generator and a multi-stage evaporator, and a discharge nozzle to a heater, contact apparatus for dewatering heater connected in series on the flue gas. // P J3 6 but burial