RU2647731C1 - Mobile equipment for liquid distillation - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to a technology for producing distilled water and other liquids. Mobile liquid distillation equipment is proposed, that comprising a compact disassembled steam generator for evaporating the source liquid with an installed droplet separator in the upper part, a condenser of distillate vapors, a recuperative heat exchanger for transferring heat from the concentrated brine removed from the device to the source liquid supplied to the equipment, a recuperative heat exchanger for transferring heat from the distillate removed from the equipment to the source liquid supplied to the device, a recuperative heat exchanger for heating the source liquid with the heat of the compressor, a pump, an electric heater, closed hermetic circuit of the heat pump, which consists of a compressor, a heater, a throttling device, a refrigerator connected by a piping system.

EFFECT: reduction of specific energy consumption during distillation of water, improvement of the quality and sterility of the distillate, simplification of the design of the apparatus with increasing its reliability.

3 cl, 1 dwg

Description

The invention relates to a technology for producing distilled water and other liquids and can be used in medicine, pharmacology, food, chemical and other industries.

A device for producing demineralized water is known, including an evaporator, a compressor, a condenser, as well as a gas-liquid centrifuge, a steam boiler, a compressor connected directly to a steam turbine and included in a steam circuit connecting a gas-liquid centrifuge and heating elements of the evaporator, as well as a steam circuit connecting the collector condensate, an evaporator and a gas-liquid centrifuge, while the steam turbine is connected to a steam boiler, heating elements of the evaporator, a steam injector is connected steam pipes with the evaporator, condensate collector and a gas-liquid centrifuge (RU 2567615 C1, 11/10/2015).

Known desalination plant, including an evaporation chamber, a bubble chamber, a condenser equipped with a distillate collector, a brine bath equipped with a sediment collector, a pump for supplying desalinated water through a deaerator to a brine bath, a feed pump for supplying concentrated brine from the brine bath to the evaporation chamber , the upper part of which is connected through a filter-trap of dry particles to a mixer, which ensures the entry of superheated steam through the brine bath into the lower open end of the bubbling The second chamber, located in the concentrated brine of the brine bath, has a separator for separating steam into two streams at the upper end of the bubble chamber, a condenser is located along the first steam stream, a compressor, a steam superheater and a mixer, a desalination plant are connected in series along the second steam stream it is additionally equipped with a heat pump that provides heat transfer from the condenser to the steam superheater (RU 81720 U1, 03/27/2009).

Known flow distiller containing coaxially mounted cylinders that form the cavity of the evaporator and condenser, closed on both sides of the lids, placed inside the float remotely connected to the feed valve and the heating element, while between the evaporator and the condenser in the vapor zone there is a supercharger, in addition, the heating element is located in the upper part of the condenser, adjacent to the cylinder of the evaporator, the inner cylinder on the side of the evaporator is finned with removable and collapsible plates, in olosti condenser at boiling water in the evaporator installed spacer ring with adjustable passage resistance (RU 2090511 C1, 20/09/1997).

A known distiller comprising an evaporator and a condenser, the cavities of which form a heat exchanger, a heating element, a supercharger, a means providing a pressure difference of steam in the upper part of the evaporator and condenser, condensate drain pipes, brine drain and liquid supply to the distillation, the heater is installed in the upper part the evaporator at the boundary of the maximum level of boiling liquid, and the supercharger is installed in the upper part of the condenser adjacent to the evaporator, the brine discharge pipe is placed in such a way that one end of it is fixed in the wall of the evaporator at a height corresponding to the boundary of the maximum level of boiling liquid, and the other end of the specified pipe is equipped with a valve for controlling the rate of brine drain, while the brine drain pipe forms a heat exchanger with a liquid supply pipe for distillation, and a means providing a pressure difference the steam in the upper part of the evaporator and condenser is made in the form of an adjustable valve and is installed outside the evaporator and condenser zones (RU 55766 U1, 08.27.2006).

The closest technical solution is a distiller containing an evaporator with a heat exchanger for heating the evaporated liquid and a separator for separating steam, a heating heat exchanger for desalinating the cold source liquid, a steam condenser and a collection system for the distillate, while the liquid is supplied and heated in the evaporator by a rotary pulse apparatus, the input of which is connected to the output of the heat exchanger of the evaporator of the first stage, and the output to the inlet pipes of the heat exchanger of the evaporator of the first stage (RU 64200 U1, 2 June 7, 2007).

The disadvantages of the known devices are the high specific energy consumption during water distillation, the relatively low quality of the distillate, as well as the complexity of the design of the apparatus for distillation.

The problem to which the invention is directed, is the creation of a mobile energy-efficient apparatus for liquid distillation.

The technical result achieved in solving this problem is to reduce specific energy consumption during water distillation, improving the quality and sterility of the distillate, simplifying the design of the apparatus, while increasing its reliability, as well as increasing the productivity of a mobile distiller.

To achieve the technical result, a mobile liquid distillation apparatus is proposed, comprising a compact collapsible steam generator for evaporating the initial liquid with an installed drop eliminator in the upper part, a compressor, a pump, an electric heater, a throttle device, a refrigerator, a distillate vapor condenser, a regenerative heat exchanger for transferring heat from the removed from apparatus of concentrated brine to the source fluid supplied to the apparatus, a regenerative heat exchanger for heat transfer t of distillate removed from the unit to the source fluid supplied to the unit, a recuperative heat exchanger for heating the source fluid with compressor heat, a pump for supplying the source fluid to the steam generator, an electric heater for pre-heating the source water located in the lower part of the steam generator, and also a closed sealed circuit of the heat pump, which consists of a compressor, a heater, a throttle device, a refrigerator connected by a piping system, with a compact collapsible steam Rathore represents a channel type heat exchanger, in which the annulus imposed motion source liquid, and partial evaporation at the liquid inlet to the steam generator and the output of the distillate from the condenser installed fluid flow sensors and distillate. The steam generator is designed in such a way that the annulus intended for evaporation of the initial liquid is formed by the surfaces of the shell, displacer and twisted copper tube, which is capable of condensation inside its working substance of the heat pump. In this case, the steam generator is configured to discharge superheated vapors of the distillate through a central hole (not shown in the drawing) in the displacer of the steam generator, in contact with the hot wall of the evaporation chamber.

In FIG. 1 shows a diagram of a device.

A mobile liquid distillation apparatus contains:

1 - volumetric principle compressor;

2 - heater;

3 - throttle device;

4 - refrigerator;

5 - steam generator;

6 - capacitor;

7 - a recuperative heat exchanger for transferring heat from the distillate removed from the apparatus to the source fluid supplied to the apparatus;

8 - a recuperative heat exchanger for transferring heat from concentrated brine removed from the apparatus to the source fluid supplied to the apparatus;

9 - recuperative heat exchanger (9) for heating the source liquid with compressor heat;

10 - pump;

11 - electric heater.

A mobile apparatus for distillation of liquid works as follows.

The source liquid (for example, water) is pumped sequentially through recuperative heat exchangers 7, 8 and 9, in which it is heated by reverse flows of distillate, concentrated brine and compression heat of the working substance of the heat pump, after which it enters the steam generator 5, where it is heated to a temperature boiling and partial evaporation upon contact with the hot walls of the heater 2 due to the heat of condensation of the working substance of the heat pump. In this case, the resulting distillate in the vapor phase is transferred to the condenser 6 due to the difference in vapor densities, where it transfers heat to the boiling working substance of the heat pump in the refrigerator 4 and condenses, after which it is removed from the condenser 6 in the liquid phase and, passing through the regenerative heat exchanger 7, is supplied to the consumer .

Non-evaporated liquid in the form of brine is drained from the lower part of the steam generator 5 and then, passing through the regenerative heat exchanger 8, is removed from the system.

In a closed hermetic circuit of the heat pump, a reverse thermodynamic cycle is carried out on a low-pressure working substance (for example, pentane), consisting of successive processes: boiling of the working substance in the refrigerator 4, movement and compression of the working substance by compressor 1, condensation of the working substance in heater 2, throttling of the working substances from pressure condensation to boiling pressure in the throttle device 3. In this case, the phase transition processes of the working substance of the heat pump are at m level corresponding to the phase transition temperature of liquid at atmospheric pressure with the temperature difference at the heat exchangers. Work in the heat pump circuit transfers the heat of condensation of the distillate vapor to a higher temperature level corresponding to the boiling point of the starting liquid.

To simplify the installation setting to the operating mode at the initial start-up, the electric heater 11 is turned on to evaporate part of the initial liquid previously supplied to the steam generator 5, which allows the heat pump to be brought to operating parameters almost immediately.

To ensure autonomous uninterrupted operation of the installation, it is possible to control the flow rate of the initial liquid and the ratio of the volume of the distillate to the volume of the initial liquid, which is carried out by the signal of the liquid flow rate and distillate sensors installed at the liquid inlet to the steam generator 5 and the distillate outlet from the condenser 6.

The implementation of the claimed invention allows to reduce specific energy consumption during water distillation, to improve the quality and sterility of the distillate, to significantly simplify the design of the apparatus while increasing its reliability.

Claims (3)

1. A mobile apparatus for liquid distillation, characterized in that it contains a compact collapsible steam generator for evaporating the initial liquid with an installed drop eliminator in the upper part, a distillate vapor condenser, a regenerative heat exchanger for transferring heat from the concentrated brine removed from the apparatus to the initial liquid supplied to the apparatus, regenerative heat exchanger for transferring heat from the distillate removed from the apparatus to the source fluid supplied to the apparatus, a regenerative heat exchanger for heating the source liquid with compressor heat, a pump for supplying the source liquid to the steam generator, an electric heater for preheating the source liquid located in the lower part of the steam generator, as well as a closed tight circuit of the heat pump, which consists of a compressor, heater, throttle device, refrigerator connected by a piping system , while the compact collapsible steam generator is a channel-type heat exchanger, in the annular space of which forced motion is Busy source liquid, and partial evaporation, the fluid inlet and outlet of the steam generator of the distillate from the condenser installed fluid flow sensors and distillate. 2. A mobile apparatus for liquid distillation according to claim 1, characterized in that the steam generator is designed in such a way that the annulus intended for evaporation of the initial liquid is formed by the surfaces of the shell, displacer and twisted copper tube, which is capable of condensation inside its working substance of a heat pump. 3. A mobile apparatus for liquid distillation according to claim 1, characterized in that it is configured to discharge superheated vapors of the distillate through a central hole in the displacer of the steam generator, in contact with the hot wall of the evaporation chamber.

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