SU1011539A1 - Hydroscopic desalination plant - Google Patents

Abstract

HYGROSCOPIC DESCRIPTION INSTALLATION, containing a source water heater, fused in Soya Pacctut as a contact device connected to an evaporator in solution, a condenser, a gas blower, a gas heater located along the gas between the condenser and the water heater, the gas cooler and source water pumps, a gas cooler located between the condenser and the water heater, a gas cooler and source water pumps, a gas cooler located between the condenser and the water heater, a gas cooler and source water pumps, a gas cooler located between the condenser and the water heater, a gas cooler and source water pumps, a gas cooler located between the condenser and the water heater, a gas cooler and source water pumps, a gas cooler located between the condenser and the water heater, the gas cooler and the source water heater This and brine, characterized in that, in order to simplify the installation and its regulation, the gas blower is installed between the evaporator and the source water heater and is connected to the evaporator by pressure tube, and a condenser connected to the steam and gas coolant gas space through the gas outlet conduit. 0 JV SAE SO yh shit

Description

The invention relates to a device for desalination, as well as demineralization of water, and may find application in the chemical, metallurgical, food and other industries, as well as in the energy sector.

Known hygroscopic desalination plants, characterized by technological simplicity, reliability, the ability to use low-grade heat £ 1 J.

Known hygroscopic desalination plant, the efficiency of which is increased by reducing scale formation on heat transfer surfaces. The installation contains a source water heater made in the form of a contact device connected through a solution to an evaporator, a condenser · a gas blower, a blower, a gas heater located along the gas flow between the condenser and the water heater, a gas cooler and the source water sucker, distillate and brine. - The disadvantages of this installation are the difficulty of its regulation due to the increased number of pieces of equipment, the presence of three independent circulation circuits: solution, air and heat carrier gas.

The purpose of the invention is to simplify the installation and its regulation.

This goal is achieved by the fact that in a hygroscopic desalination plant containing a source water heater, made in the form of a contact apparatus connected in solution to an evaporator, a condenser, a gas blower, a gas heater located along the gas path between the condenser and the water heater, a gas cooler and pumps of the source water, distillate and brine, a gas blower-- are installed between the evaporator and the source heater. The water is connected to the evaporator by a discharge pipe, and the condenser is connected to the combined-gas gas cooler space through a gas exhaust pipe.

The drawing shows a diagram of the proposed hygroscopic desalination plant.

The installation consists of a heater 1 of the source water, made in the form

VNIIIPI Order 2669/2 * 4

1539 contact apparatus, condenser 2, evaporator 3, gas heater 4 located along the gas between the condenser and the source ⁵ water heater, cooler 5, gas blower 6, brine pump 7, source water pump 8 and distillate pump 9.

Installation works as follows about ₀ times.

The source water is pumped 8 to the source water heater 1, in which, as in the condenser 2, the evaporator 3, the gas heater 4 and the cooler 5, an increased ⁵ n pressure is maintained compared to atmospheric pressure in the range 0.1-0.6 MPa The specific pressure value is selected depending on the properties of the solution and the process conditions.

²⁰ In the heater ^{: the} source water, the solution is heated in contact with gas (air), for example up to 120 ° C, then

- fed to the evaporator, where, partially, evaporating, it is concentrated at ²⁵ interaction with the gas, after which part 7 of the brine is removed from the unit with the pump 7, and part, mixed with the source water, is fed to recirculation. Gas from the heater. The source of water in the water ^{30 by} gas blower 6 is supplied to the evaporator, where it is moistened with water vapor from the solution and supplied to the condenser for cooling and drying under pressure. Then the gas is further cooled and dried in the cooler and again fed into the condenser as a heated stream. The gas in the condenser is heated through the heat transfer surface 40 by the heat of condensation of the vapor previously assimilated by air in the evaporator. After regenerative heating in the condenser, the gas is heated in the gas heater, for example to

16 ° C, and enters again into the contact apparatus. The distillate from the condenser and cooler is discharged by the pump 9 and removed from the installation.

In the proposed hygroscopic ςθ desalination plant, the number of independent circulation circuits is reduced to two, the number of pieces of equipment is reduced. In general, installation and its regulation are simplified.

Circulation 939 Subscription

Uzhhorod, st. Project4 branch of PPP Patent, g.

Claims (1)

HYGROSCOPIC DESCRIPTION PLANT containing a source water heater made in the form of a contact apparatus connected in solution to an evaporator, a condenser, a gas blower, a gas heater located along the gas path between the condenser and the water heater, the gas cooler and the source pumps water, distillate and brine, characterized in that, in order to simplify the installation and its regulation. a gas blower is installed between the evaporator and the source water heater and is connected to the evaporator by a discharge pipe, and the condenser is connected to the gas-vapor space of the gas cooler through a gas exhaust pipe. ¹ Yu