RU2601003C2 - Plant for desalination and purification of water at agricultural objects - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, namely to equipment for desalination and purification of water, and can be used at agricultural objects in food industry, medicine, in household use of farm population, on ships and offshore platforms and other industries. Plant comprises first refrigerating machine and second refrigerating machine, working reservoir is made of two sections in form of first bath and second bath with heat-insulating gasket between them, heat-insulated side walls and bottoms, wherein first refrigerating machine evaporator is located in first bath, and second refrigerating machine evaporator is located in second bath, wherein first refrigerating machine capacitor is installed inside guide casing above second bath and second refrigerating machine evaporator, and second refrigerating machine capacitor is installed inside guide casing above first refrigerating machine bath and evaporator, and heat-insulated cover is placed on operating reservoir with possibility to move and cover alternatively first bath and second bath, and pipes with solenoid valves are mounted in bottoms of first bath and second bath, connected to tank for fresh (purified) water with outlet pipe and valve, and pipes with solenoid valves, connected to sewage system, and in upper parts of first bath and second bath level sensors are installed, and in their lower (bottom) parts sensors of level and temperature sensors are installed, which are connected to control unit, wherein heat-insulating cover drive is installed in upper part of operating reservoir in order to increase level of automation, wherein submersible pump with filter is placed in lower (cold) layers of reservoir, and it is connected via pipeline and electromagnetic valves to first bath and second bath of operating reservoir.

EFFECT: reduced power consumption, higher efficiency of installation for purification and desalination of sea water.

3 cl, 1 dwg

Description

The invention relates to agriculture, in particular to equipment for desalination and water purification, and can be used on agricultural facilities in the food industry, medicine, in the life of the rural population, on ships and offshore platforms and other areas of the national economy.

A known installation for the purification and desalination of sea water, working by the method of evaporation and condensation of water vapor using natural cold, containing a heat exchanger, condenser, air ducts, a hydraulic pump located in the lower part of the flexible hose, electric fan, cylindrical droplet separator (RF patent No. 2169237, BI No. 17 dated June 20, 2001).

The disadvantage of this device is the low productivity in the production of fresh water, high capital and operating costs, design complexity.

Of the known devices for desalination and water purification, the closest in technical essence to the proposed invention is a water treatment plant (Method for water treatment and installation for its implementation, RF patent No. 2344092, publ. 20.01.2009).

A known installation for desalination of sea water contains a refrigeration machine, a closed working capacity, a control unit, pipelines, valves.

The disadvantages of this installation are its high energy intensity and low specific productivity.

The task of the invention is to reduce energy consumption and increase the specific productivity of the installation.

As a result of the use of the invention, it becomes possible to reduce the energy intensity, increase the specific productivity of the installation for purification and desalination of sea water.

The above technical result is achieved in that it contains a first refrigerating machine and a second refrigerating machine, and the working tank is made two-section in the form of a first bath and a second bath with a heat-insulating gasket between them, heat-insulated side walls and bottoms, and the evaporator of the first refrigerating machine is located in the first bath and the evaporator of the second refrigerating machine in the second bath, while the condenser of the first refrigerating machine is installed in the guide casing above the second bath and the th refrigerating machine, and the condenser of the second refrigerating machine in the guide casing is placed above the first bath and the evaporator of the first refrigerating machine, and a thermally insulated lid is installed on the surface of the working tank with the ability to move and alternately overlap the first bath and second bath, and in the bottoms of the first bath and second bath pipes with electromagnetic valves are installed, communicating with the tank for fresh (purified) water with a drain pipe and a valve, and pipes with electromagnetic valves, communicating with the sewer system, and in the upper parts of the first bath and second bath installed level sensors, and in their lower (bottom) parts installed level sensors and temperature sensors, which are connected to the control unit, and, in order to increase the level of automation in the upper part of the working tank is installed an electric drive of a heat-insulated lid, while in the lower (cold) layers of the reservoir a submersible pump with a filter is placed, connected by a pipeline through electromagnetic valves to the first bath and second bath of the working tank.

The invention is illustrated in the drawing, which shows the General scheme of the proposed installation for desalination and water treatment in agricultural facilities.

Installation for desalination and water purification at agricultural facilities contains a first refrigeration machine 1 and a second refrigeration machine 2, and the working tank 3 is made two-section in the form of a first bath 4 and a second bath 5 with a heat-insulating gasket 6 between them, heat-insulated side walls and bottoms, the evaporator 7 of the first chiller 1 is located in the first bath 4, and the evaporator 8 of the second chiller 2 is in the second bath 5, while the condenser 9 of the first chiller 1 is installed in the guide casing 10 above W a swarm of bath 5 and an evaporator 8 of the second chiller 2, and a condenser 11 of the second chiller 2 in the guide casing 12 is placed above the first bath 4 and the evaporator 7 of the first chiller 1, and a heat-insulated lid 13 is mounted on the surface of the working tank 3 with the possibility of moving and alternately the overlap of the first bath 4 and the second bath 5, and in the bottoms of the first bath 4 and the second bath 5 installed pipes with solenoid valves 14, communicating with the tank 15 for fresh (purified) water with a drain pipe and valve and pipes with electric by agitating valves 16 in communication with the sewer system, and level sensors 17 and 18 are installed in the upper parts of the first bath 4 and second bath 5, and level sensors 19 and 20 and temperature sensors 21 and are installed in their lower (bottom) parts of the baths 4 and 5 22, and all installed sensors are connected to the control unit 23.

In order to increase the level of automation in the upper part of the working tank 3, an electric drive 24 of the insulated cover 13 is installed.

In the lower (cold) layers of the reservoir is placed a submersible pump 25 with a filter 26, connected by a pipe 27 through solenoid valves 28 and 29 to the first bath 4 and second bath 5 of the working tank 3.

Installation for desalination and water purification in agricultural facilities is as follows.

From the control unit 23, the submersible pump 25 is turned on and the chilled water from the deep layers of the reservoir through the filter 26, the pipeline 27 and the electromagnetic valve 29 are fed for cleaning and desalination to the second bath 5 of the working tank 3. Water is filled to the upper level sensor 18. During filling of the bath 5, it is blocked by an electric actuator 24 with a thermally insulated cover 13 and becomes thermally insulated. The second chiller 2 and the evaporator 8 of the chiller 2 are turned on, located in the heat-insulated second bath 5. It starts to cool, and ice freezes on it. After freezing by a temporary signal or by a signal of ice thickness sensors (not shown in Fig.), The second refrigeration machine 2 is turned off from the control unit, the electromagnetic valve on the pipe 16 is opened and the brine, which is in the second bath 5 in a liquid state, flows into the sewer system or for processing. At this time, from the submersible pump 25, through the solenoid valve 28, the first bath 4 is filled with water to the upper level sensor 17, and at the signal of this sensor, the first bath 4 is blocked by an electric actuator 24 with a thermally insulated cover 13. The thermally insulated gasket 6 and the thermally insulated walls of the working vessel 3 provide thermal insulation first bath 4. The first chiller 1 is turned on, its compressor and condenser 9 located above the second bath 5, and the evaporator 7 of the first chiller 1 are located in the first bath 4, on rum ice is frozen. At the same time, ice thawing in the second bath 5 occurs from the heat of the condenser 9 of the chiller 2. This process begins after receiving a signal from the control unit 23 and the low level sensor 20 of the second bath 5, indicating that it is emptied from the brine. After the process of thawing frozen ice in the second bath 5 is finished, fresh or purified water flows through a pipe 14 with an electromagnetic valve into a fresh water tank 15 with a pipe and a valve and is supplied to the consumer.

After receiving a command to empty the second bath 5 from the lower level sensor 20, a command is received to fill it with water to the level sensor 18, cover it with a heat-insulated lid 13 and start the second chiller 2. Ice freezing begins on the evaporator 8 of the second chiller 2 in the second bath 5 and ice thawing in the first bath 4 on the evaporator 7 of the first refrigeration machine 1. By the temporary signal or by the signal of the ice thickness sensors (not shown in FIG.), the first refrigeration machine 1 is turned off, the electromagnetic cl apan on the pipeline 16 and the brine, which is in the first bath 4 in a liquid state, flows into the sewer system or for processing. According to the signal of the lower level sensor 19 of the first bath 4 and the lower level sensor 20 of the second bath 5, the second bath 5 is filled from the submersible pump 25 and the second refrigeration machine 2 is started. Thawing of the ice mass in the first bath 4 starts from the condenser heating of the second refrigeration machine 2 and freezing of the desalinated water on the evaporator 8 of the second refrigeration machine 2 in the second bath 5. Then, fresh water from the first bath 4 through the pipe by an electromagnetic valve 14 enters the tank of fresh and purified water 15 and then to the consumer. Then the cycles are repeated.

Temperature sensors 21 and 22 provide monitoring of water temperature in bathtubs 4 and 5.

The application of the proposed installation reduces energy consumption and increases specific productivity during desalination and water treatment. The savings are due to the use of heat condensation of the refrigerant during the operation of refrigeration units.

Claims (3)

1. Installation for desalination and water purification at agricultural facilities, containing a refrigerating machine, a closed working tank, a control unit, pipelines, valves, characterized in that it contains a first refrigerating machine and a second refrigerating machine, and the working tank is made two-section in the form of a first bath and a second bath with a heat insulating gasket between them, insulated side walls and bottoms, the evaporator of the first refrigerating machine is located in the first bath, and the evaporator of the second refrigerating machine in the second bath, while the condenser of the first chiller is installed in the guide casing above the second bath and the evaporator of the second chiller, and the condenser of the second chiller in the guide casing is placed above the first bath and the evaporator of the first chiller, and a heat-insulated lid is installed on the surface of the working tank with the ability to move and alternately overlap the first bath and the second bath, and in the bottoms of the first bath and the second bath, pipes with electromagnetic valves are installed, communicating with a tank for fresh (purified) water with a drain pipe and a valve, and pipes with electromagnetic valves that communicate with the sewage system, and level sensors are installed in the upper parts of the first bath and second bath, and level sensors are installed in their lower (bottom) parts and temperature sensors that are connected to the control unit. 2. Installation according to claim 1, characterized in that, in order to increase the level of automation, an insulated electric drive is installed in the upper part of the working capacity. 3. Installation according to claim 1, characterized in that a submersible pump with a filter is placed in the lower (cold) layers of the reservoir, connected by a pipeline through electromagnetic valves to the first bathtub and the second bathtub of the working tank.

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