WO2017069600A1

WO2017069600A1 - Energy-efficient water purification plant for removing salts and impurities from water

Info

Publication number: WO2017069600A1
Application number: PCT/KZ2016/000003
Authority: WO
Inventors: Игорь Владимирович ДОБРОВОЛЬСКИЙ; Сергей Васиьевич ПОЛЕЩУК
Original assignee: Игорь Владимирович ДОБРОВОЛЬСКИЙ
Priority date: 2015-10-22
Filing date: 2016-02-26
Publication date: 2017-04-27
Also published as: EA201600256A3; EA201600256A2

Abstract

The proposed invention relates to technology for purifying water and removing hardness salts from same, using a method of "symmetrical freezing and thawing of water". The work of the plant is carried out using a heat pump having minimal (up to 5 times less) electrical energy expenditure, in comparison with other prior art using a method of freezing water in order to purify same. It is possible to use the plant in both the industrial sector and the domestic sector. The problem addressed by the proposed invention is that of reducing the time spent on freezing and thawing source water with the aim of purifying same, and also increasing the energy efficiency of the plant. The essence of the invention lies in the fact that the source of cold for freezing the water and heat for thawing same is one and the same source, i.e. a heat pump. When there is sufficient heat insulation of the entire system, the amount of energy expended on thawing the frozen ice is equal to the amount of energy released during freezing of the same volume of source water, which in turn leads to minimal consumption of electrical energy. Therefore, electrical energy is used only for operating the heat pump, which is 4-4.5 times less than the energy produced for the requirements of freezing and thawing water. It is specifically this that makes the proposed invention economically viable.

Description

ENERGY EFFICIENT INSTALLATION OF WATER TREATMENT FROM

SALTS AND IMPURITIES

Description of the invention

1 Technical field

The present invention relates to a technology for water purification and removal of hardness salts from it, by the method of "symmetric freezing and thawing of water." The operation of the installation is carried out using a heat pump with minimal (up to 5 times less) energy consumption, in comparison with other analogues using the method of freezing water to clean it. It is possible to use the installation, both in the industrial and in the domestic sector.

2 prior art

There is currently a patent for a water purification plant by freezing and thawing. The principle of operation of a water treatment plant is that the freezing of water or salt solutions using refrigeration machines is carried out in a vessel with a certain ratio of the height of the vessel to the cross section along the axis of which a heater is installed. After the liquid is completely frozen, a hole is made in the center of the bottom of the vessel and 15% of the ice is melted with an axial heater to obtain a brine, and the remaining ice is melted in an arbitrary mode and purified water is obtained. This installation is proposed in the application JV220011 14609/12 "METHOD FOR DESALING WATER OR SOLUTIONS OF SALTS BY FREEZING AND THAWING" proposed Ural State Technical University, sponsored by Polezhaev Yu.M .; Rusinova A.A .; Matern A.I. The application filing date is August 25, 2001.

The disadvantages of this installation are:

1. High energy consumption for the needs of the refrigeration unit and axial heater.

2. For a long time, the freezing process, and then the thawing process.

3. In the process of water purification, additional manipulations are required (making holes, etc.).

The main and fundamental difference of the invention is:

- symmetric (simultaneous) freezing and thawing of water in different containers, while the energy released during freezing of water in one tank is used to thaw water in another tank;

- the duration of the process of obtaining purified water is reduced;

- automation of the process minimizes the number of staff;

- the minimum number of moving mechanisms increases the service life of the installation;

- The heat pump is the only source of energy (heat and cold). With sufficient thermal insulation of the entire system, the amount of energy spent on thawing frozen ice is equal to the amount of energy released when freezing the same amount of source water. Thus, electricity is used only for work heat pump, which is 4-4.5 times less than the energy received for the needs of freezing and thawing water. That is what makes the proposed invention economically viable.

3 SUMMARY OF THE INVENTION

Water purification with symmetric freezing and thawing of water occurs according to the following algorithm:

1. Startup mode.

Source water with a high content of salts and impurities when opening valves with electric actuators 10 and 11 enters the storage tanks 1 and 2. The group of valves with electric actuators 5 and 6 are in the open state, and the group of valves with electric actuators 4 and 7 are in the closed state. Next, the heat pump 3 starts up. In this case, the source water is heated in the storage tank 1 through the coil 8 and the ice layer is frozen on the coil 9 located in the storage tank 2, and the saturated solution remains in liquid form because the saturated solution crystallizes at lower temperature than fresh water. The duration of the process of freezing the ice layer is controlled by measuring the conductivity of the saturated solution using the TDS sensor 20 and 21, or using a timer. After turning off the heat pump 3, the electric valve 15 opens and the saturated solution is drained (drainage water). After draining the saturated solution, the valve with the electric actuator 15 closes, the installation enters the mode of symmetrical operation.

2. The operation mode.

For further operation of the installation, the cooling circuit is switched from the coil 9 in the storage tank 2 to the coil 8 in the storage tank 1. Accordingly, the heating circuit is switched from the coil 8 in the storage tank 1 to the coil 9 in the storage tank 2. Switching is made by transferring groups of valves from electric actuators 5 and 6 to the closed state, and valve groups with electric actuators 4 and 7 to the open. Next, the heat pump 3 is turned on, while in the storage tank 1 the ice layer freezes up on the coil 8 and the ice is thawed on the coil 9 in the storage tank 2. After the freezing and thawing of ice is completed, the heat pump 3 is turned off, the electric valve 14 opens and a saturated solution (drainage water) is drained from. of the storage tank 1 to the storage tank 16. At the same time, the valve with the electric actuator 13 opens and clean water from the storage tank 2 is discharged into the storage tank 17. After draining the drainage and clean water, the valves with the electric actuators 13 and 14 are put into a closed state.

Next, the valve with the electric actuator 1 1 opens, the source water through the coils 18 and 19, which are located in the storage tanks 16 and 17, enters the storage tank 2. The coils 18 and 19 serve to reduce the temperature of the source water (water temperature in storage tanks 16 and 17 not higher than 5 ° C), which allows to reduce the time of crystallization of the source water during freezing.

Next, the group of valves with electric actuators 4, 5, 6, 7 is switched over and the process of freezing and thawing is repeated.

When filling containers 16 and 17, the drainage of clean and drainage water by gravity occurs to ensure the process of cooling the source water.

4 List of figures of drawings and other materials

Figure 1, explaining the composition of the scheme of an energy-efficient installation for the purification of water from salts and impurities by the method of symmetric freezing and thawing.

5 Information confirming the possibility of carrying out the invention

The present invention can be used as a desalination plant for water purification for use in remote villages, cities, as well as for the purification of industrial water (with the exception of water containing dissolved chemicals) for reuse. In FIG. 1 is a schematic diagram of a water treatment plant using symmetric freezing and thawing of water using a heat pump. The installation includes:

- storage tanks pos. 1 and pos. 2, in which alternating freezing and thawing of water occurs;

- heat pump pos. 3;

- four groups of valves with electric pos. 4,5,6,7;

- heat exchangers in the form of a "coil" pos. 8,9,18,19;

- storage tanks pos. 16, 17 for purified and drainage water;

- valves with electric actuators pos. 10, 11, 12, 13, 14, 15, 20, 21.

Claims

SUMMARY OF THE INVENTION An energy-efficient installation for the purification of water from salts and impurities by the method of "Symmetric freezing and thawing of water." Energy efficient unit on purification of water from salts and impurities with the use of "Symmetrical freezing and thawing of water" method This invention is similar in principle to the similar existing method of desalination of water or salt solutions by freezing and thawing, proposed by the Ural State Technical University. The principle of operation of a water treatment plant is that the freezing of water or salt solutions using refrigeration machines is carried out in a vessel with a certain ratio of the height of the vessel to the cross section along the axis of which a heater is installed. After the liquid is completely frozen, a hole is made in the center of the bottom of the vessel and 15% of the ice is melted with an axial heater to obtain a brine, and the remaining ice is melted in an arbitrary mode and purified water is obtained. With the existing method of water purification revealed the following disadvantages:

2. For a long time, the freezing process, and then the thawing process.

The main and fundamental difference of the invention from an existing patent is: - symmetric (simultaneous) freezing and thawing of water in different containers, while the energy released during freezing of water in one tank is used to thaw water in another tank;

- reducing the duration of the process of obtaining purified water;

- minimization of the number of staff due to automation of the process;

- increase the service life of the installation due to the minimum number of moving mechanisms;

- The heat pump is the only source of energy (heat and cold). With sufficient thermal insulation of the entire system, the amount of energy spent on thawing frozen ice is equal to the amount of energy released when freezing the same amount of source water. Thus, electricity is used only for the operation of the heat pump, which is 4-4.5 times less than the energy received for the needs of freezing and thawing water.