KR20000000043A - a small fresh water generator for use of a home boiler - Google Patents

Abstract

PURPOSE: A salt-to-fresh water distillation apparatus is provided to change seawater to fresh water by using a residential boiler without any separate large boiler. CONSTITUTION: The apparatus comprises a reboiling chamber(3) for heating seawater supplied through a circulation pump(2) to 80°C by a residential boiler, a fresh condenser(6) for changing aqueous vapor supplied from a reboiling chamber(3) to fresh water by using cold seawater sent from a seawater tank(4), a combination eject(7) for changing seawater to fresh water in the fresh condenser(6) and recycling seawater to the seawater tank(4), a fresh water storage tank(8) for storing fresh water sent from the fresh condenser(6) by a pipe, a level gauge(9) attached to one side of the fresh water storage tank(8), and a vacuum brake valve(10) connected to the fresh water storage tank(8) for drawing off fresh water by stopping a pump manually when the fresh water storage tank(8) is filled up fresh water.

Description

Small fresh water generator for use of a home boiler

The present invention relates to a small desalination device using a domestic boiler, and more particularly, to supply necessary water using a domestic oil boiler installed in each home.

As Korea has many island populations, it is essential to supply various industrial and domestic waters needed on the island.

Previously, the islands had to rely on land to supply water during the dry season. However, in the dry season, there is no water on the land, so it is only possible to cook rice at home, so there is no water to wash.

In order to improve this problem, local governments are attempting to develop groundwater on islands, but groundwater development is limited because it is impossible without water veins.

Recently, fresh water from seawater is evaporation method, reverse osmosis membrane method, and freezing method. The evaporation method is a method of producing fresh water by low pressure evaporation that evaporates at low temperature by lowering the pressure after supplying heat source to seawater. Since it is available, it is possible to produce fresh water at a low price, and the device is robust, so it is easy to operate and maintain, and the generated fresh water is very pure.

In addition, the reverse osmosis membrane method is a method of producing fresh water by pressing 55 ~ 60Kgf / ㎠ seawater on the high pressure side of the reverse osmosis membrane, which has the advantage of less seawater loss and less installation place, while operation and maintenance due to frequent exchange of reverse osmosis membrane It is relatively difficult to repair and operates under high pressure, so it requires a high level of operation and maintenance technology, and the installation cost is high.

On the other hand, in the freezing method, if the seawater is cooled below freezing point (-1.8 ° C), salts in the seawater are excluded from the growth phase of the ice, crystals of ice are precipitated, and salts in concentrated seawater where the ice crystals are between the crystal surface and the crystals. This is a method of separating and cleaning seawater to desalination, so that the operation of the device is performed at low temperature, so there is no corrosion problem of the device, and heat is transmitted by direct contact between refrigerant and seawater, so the heat transfer efficiency of the device is high, the energy consumption is low, and the pretreatment process is On the other hand, there is a need for a device that prevents the inflow of heat from the outside because it is operated at low temperatures, and has a disadvantage in that it is difficult to separate and clean the seawater attached to the ice crystals.

However, in today's methods, the structure of the system is simple, robust, and can produce a large amount of fresh water at a relatively low price. However, the evaporation method is used a lot, but the manufacturing cost of the device is high and the weight is large. .

The present invention not only can install a desalination device at a low price for each household using a domestic oil boiler, but also reduce the cost of operating the desalination device and there is almost no breakdown even in a long-term use, so that maintenance costs are low and required in each home. The purpose is to convert the seawater into fresh water as much as possible.

The present invention for achieving the above object, and the reboiling chamfer which is made by the circulating pump to warm the sea water in the domestic boiler with hot water of about 80 ℃ water vapor; A fresh water condenser for moving the seawater contained in the seawater tank to an eject driving pump to condense the vaporized water in the reboring champ and convert it into fresh water; A combination ejection condensing water vapor in the fresh water condenser to return the seawater converted into fresh water to a seawater tank; A fresh water storage tank in which fresh water made in the fresh water condenser is stored on a pipe; A level gauge attached to one side of the fresh water storage tank to check the fresh water amount; The purpose is achieved by providing a small fresh water device, which is connected to the fresh water storage tank and consists of a vacuum brake valve which allows the fresh water to be drawn to draw the fresh water at atmospheric pressure by manually stopping the pump when the fresh water is full.

1 is a system diagram of the present invention

※ Explanation of symbols used in the main part of the drawing ※

One; Household boilers 2; Circulation pump

3; Reboiling chamber 4; Seawater tank

5; Ejector driving pump 6; Chengsu Condenser

7; Combination ejector 8; Fresh water storage tank

9; Level gauge 10; Vacuum brake valve

11; Sea water supply pump

Referring to the configuration and effect of the present invention by the accompanying drawings as follows.

As shown in FIG. 1, a reboring champ 3 for warming seawater with hot water of about 80 ° C. in a domestic boiler 1 and being moved by a circulation pump 2 to produce water vapor;

A fresh water condenser (6) for moving the seawater contained in the seawater tank (4) to an eject driving pump (5) to condense the vaporized water in the reboring champ and convert it into fresh water; A combination ejector (7) for condensing water vapor in said fresh water condenser (6) to return the seawater converted into fresh water to a seawater tank; Fresh water storage tank (8) for storing the fresh water produced in the fresh water condenser (6) by pipe; A level gauge 9 attached to one side of the fresh water storage tank 6 so as to check the fresh water amount; It is installed in connection with the fresh water storage tank (8) is composed of a vacuum brake valve 10 to stop the pump manually when the fresh water is filled to draw the fresh water to the atmospheric pressure inside the apparatus.

If described in detail the effects of the present invention configured as described above.

In each household boiler 1, hot water of about 80 ° C. is circulated by the circulation pump 2 to the reboring champ 3, which is a heat exchanger, to heat the seawater in the reboring champ 3.

The heated sea water is actively evaporated inside the reboiling chamber 3 in a vacuum state, and the water vapor is fresh water condenser, a heat exchanger.

to the denser (6).

Meanwhile, sea water is continuously supplied to a sea water tank 4 using a sea water supply pump 11, which is a general pumping pump, and connected to a sea water tank 4. The seawater contained in the seawater tank 4 by the installed ejection driving pump 5 is supplied to the freshwater condenser 6 and is actively evaporated in the reboiling gage 3 to clean the freshwater condenser 6. After condensing the water vapor introduced into the flow into the combination eject (7).

At this time, the seawater flowing into the combination eject 7 continuously removes the air accumulated in the reboring chamfer 3 (originally, a large amount of non-condensable gas is dissolved in the seawater). Vacuum pressure and evaporation temperature (saturation temperature) are maintained.

In this way, the water vapor flowing into the fresh water condenser (6) is condensed by the cold seawater, which is converted into fresh water, and the fresh water flows into the pipe by gravity and is collected in the fresh water storage tank (8), which is a storage tank. This can be confirmed by the level gauge 9 attached to the fresh water storage tank 8.

In this state, when the fresh water storage tank 8 is filled with fresh water, the pump is stopped manually and the vacuum brake valve 10 is opened to bring the inside of the apparatus to atmospheric pressure.

As described above, the present invention not only can install a desalination device at a low price for each household by using a household oil boiler, but also reduce the cost of operating the desalination device, and there is almost no breakdown even in a long-term use. It is effective to convert sea water into fresh water as needed by.

Claims (1)

A reboring champ 3 for warming seawater with hot water of about 80 ° C. in a domestic boiler 1 and being moved by a circulation pump 2 to produce steam; A fresh water condenser (6) for moving the seawater contained in the seawater tank (4) to an eject driving pump (5) to condense the vaporized water in the reboring champ and convert it into fresh water; A combination ejector (7) for condensing water vapor in said fresh water condenser (6) to return the seawater converted into fresh water to a seawater tank; Fresh water storage tank (8) for storing the fresh water produced in the fresh water condenser (6) by pipe; A level gauge 9 attached to one side of the fresh water storage tank 6 so as to check the fresh water amount; It is connected to the fresh water storage tank (8) and is equipped with a vacuum boiler valve (10) characterized in that it consists of a vacuum brake valve 10 to stop the pump manually when the fresh water is filled to draw the fresh water to the atmospheric pressure inside the device Fresh water device