KR101335608B1 - Fresh water generating system - Google Patents

Abstract

The present invention relates to a fresh water production system that makes it possible to stably operate a low pressure evaporator in marine structures.
According to the present invention, there is provided a fresh water production system using a low pressure evaporator of a marine structure, comprising: a first heat exchange medium forming a closed circuit to provide heat to the low pressure evaporator; A hot water circulation pump for causing the first heat exchange medium to circulate in a closed circuit; And a thermal oil heater for heating the first heat exchange medium to a predetermined temperature, thereby stably providing a heat source to the low pressure evaporative water dispenser.

Description

Fresh water production system {FRESH WATER GENERATING SYSTEM}

The present invention relates to a fresh water production system, and more particularly, to a fresh water production system that makes it possible to stably operate a low pressure evaporator.

In general, a conventional tide system used in ships to produce fresh water by evaporating sea water using a jacket water (jacket water) produced as waste heat of the main engine for ship propulsion in a low pressure evaporator.

However, in the offshore project without a main engine for ship propulsion, several generator engines are installed. Since the load fluctuation of the generator engine is severe, the amount of jacket water produced by the waste heat of the generator engine is not constant. It is difficult to install and use a low pressure evaporation type water dispenser that uses jacket water to make fresh water.

For this reason, most marine excavation works are installing reverse osmosis type water tanks as an alternative to solve the problems of low pressure evaporative water tanks.

However, the reverse osmosis water tank is a device that is frequently used in large plant facilities or desalination plants. If the concentration of raw water itself is high or if a large amount of raw water is to be treated, the size of the membrane processing equipment is increased, and the pump is also run separately for large pressure. It may be configured in multiple stages depending on the efficiency.

As such, the reverse osmosis type diaphragm has a large and expensive equipment, and there is a problem that considerable vibration occurs due to the use of a high pressure pump, and the filter must be periodically replaced.

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An object of the present invention is to provide a fresh water production system capable of stably operating a low pressure evaporator.

Fresh water production system according to an embodiment of the present invention, a fresh water production system using a low pressure evaporator of the marine structure, the first heat exchange medium to form a closed circuit to provide heat to the low pressure evaporator; A hot water circulation pump for causing the first heat exchange medium to circulate in a closed circuit; And a thermal oil heater for heating the first heat exchange medium to a predetermined temperature, thereby stably providing a heat source to the low pressure evaporative water dispenser.

And a thermal expansion tank for absorbing thermal expansion of the first heat exchange medium and inducing bubbles to be generated.

A generator engine, a second heat exchange medium for cooling the generator engine, and a heat recovery exchanger for allowing the second heat exchange medium heated by heat exchange with the generator engine to mutually heat exchange with the first heat exchange medium. It is characterized by.

A fresh water cooling pump for allowing the second heat exchange medium to circulate between the generator engine and the heat recovery exchanger, and a fresh water cooler for cooling the circulated second heat exchange medium are formed.

A seawater suction device for sucking seawater from the outside, a seawater cooling pump for providing cooling seawater from the seawater suction device to the fresh water cooler, and a seawater for providing fresh water production from the seawater suction device to the low pressure evaporator. Characterized in that the supply pump is formed.

The fresh water produced from the low-pressure evaporator is stored, characterized in that to form a tide tank for dispensing the stored fresh water to each place that requires fresh water in the vessel.

In the fresh water production method according to an embodiment of the present invention, in the fresh water production method using a low pressure evaporator of the marine structure, the first heat exchange medium to form a closed circuit and circulate, to a predetermined temperature by the thermal oil heater It is heated and used for the operation of the low pressure evaporator.

The second heat exchange medium circulates to cool the generator engine, and the heat generated during the cooling process is further formed in a heat recovery exchanger to heat exchange with the first heat exchange medium and to be cooled again by the fresh water cooler.

The thermal expansion tank induces bubbles generated when the thermal expansion tank absorbs the thermal expansion of the first heat exchange medium to the outside.

As described above, according to the fresh water production system according to the present invention, there is an effect to enable the production of fresh water using a low pressure evaporator in the marine excavation work.

As described above, according to the fresh water production system according to the present invention, there is an effect of reducing the maintenance and maintenance costs while replacing the conventional osmosis water tank.

According to the fresh water production system according to the present invention as described above, there is an effect to efficiently use the waste heat of the generator engine jacket water (jacket water).

1 is a system diagram schematically showing a fresh water production system according to an embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. Like reference symbols in the drawings denote like elements.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for producing fresh water required for a vessel by using a low pressure evaporative tanker which produces fresh water by heating and evaporating seawater in the evaporation unit and condensing evaporated water vapor.

The offshore structure may be a structure used for an offshore project or the like without a ship propelling main engine, including a ship having a ship propelling main engine.

1 is a system diagram schematically showing a fresh water production system according to an embodiment of the present invention.

As shown in the figure, the fresh water production system according to an embodiment of the present invention forms a closed circuit, the first heat exchange medium (3) for providing heat to the low-pressure evaporator (1), the first heat exchange medium And a hot water circulation pump 5 for causing the circuit 3 to circulate the closed circuit, and a thermal oil heater 7 for heating the first heat exchange medium 3 to a predetermined temperature.

The first heat exchange medium 3 may be a liquid such as fresh water that is heated and cooled, and forms a hot water circulation system by forming a closed circuit that circulates.

The hot water circulation pump 5 is to provide power to circulate in the closed circuit formed by the first heat exchange medium (3).

The thermal oil heater (7) heats the first heat exchange medium (3) circulated using heated thermal oil to a temperature required for the operation of the low pressure evaporative water tank (1). It can be replaced by heater or electric heater.

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And the fresh water production system according to another embodiment of the present invention absorbs thermal expansion generated in the hot water circulation system formed by the thermal oil heater (7), and also the thermal expansion tank (9) for inducing bubbles generated out of the hot water circulation system It may further include.

In addition, the fresh water production system according to another embodiment of the present invention, the generator engine 11, the main propulsion engine of the ship, the second heat exchange medium 13 for cooling the generator engine 11, heat exchange with the generator engine 11 The heat exchanger 15 may further include a heat recovery exchanger 15 configured to heat the second heat exchange medium 13 to exchange heat with the first heat exchange medium 3. The heat recovery exchanger 15 may minimize the required heating energy of the thermal oil heater 7.

The second heat exchange medium 13 may be a liquid such as fresh water that is heated and cooled, and forms a generator cooling system by forming a closed circuit that circulates. Referring to FIG. 1, it can be seen that the second heat exchange medium 13 forms a closed circuit separate from the first heat exchange medium 3.

The heat recovery exchanger (15) is the first heat exchange medium in which the second heat exchange medium (13) heated by heat exchange with the generator engine (11) is cooled by heat exchange with the low pressure evaporative water tank (1) ( 3) and mutual heat exchange.

As the second heat exchange medium 13 is cooled by the fresh water cooler 17 in a state where the temperature is lowered by the heat recovery exchanger 15, the required cooling energy of the fresh water cooler 17 can be minimized.

The cooled second heat exchange medium 13 is circulated by the fresh water cooling pump 19a to cool the generator engine 11.

On the other hand, the seawater supplied to the low pressure evaporative water tank (1) is a seawater supply pump (21) for the seawater flowing from the bottom through a sea water suction (sea chest, 19) (1) To be supplied.

In addition, the seawater introduced from the seawater suction device 19 is supplied to the fresh water cooler 17 by the seawater cooling pump 23 and used for cooling the second heat exchange medium 13, and then the seawater discharge device 25. ) Can be discharged to the outside.

In addition, the fresh water produced in the low pressure evaporative water tank 1 may be stored as the tidal tank 27 to distribute the fresh water to each element requiring fresh water in the tidal tank 27.

In the fresh water production method according to an embodiment of the present invention, the first heat exchange medium 3 forms a closed circuit circulated by the hot water circulation pump 5, and is heated to a predetermined temperature by the thermal oil heater 7. It is a method to be used for the operation of the low pressure evaporator (1).

Fresh water production method according to another embodiment of the present invention forms a closed circuit in which the second heat exchange medium 13 is circulated to cool the generator engine 11, the heat generated in the process of cooling the generator engine 11 The fresh water cooling pump 19a to be heat exchanged with the first heat exchange medium (the first heat exchange medium heated and cooled by the low pressure evaporative water heater; 3) through a heat recovery exchanger 15, and then cooled by the fresh water cooler 17 again. ) Further includes a method of circulating. Here, the first heat exchange medium 3 heat-exchanged with the second heat exchange medium 13 by the heat recovery exchanger 15 circulates a closed circuit as it is heated by the second heat exchange medium 13, and the thermal oil heater ( When heating by 7) it is possible to minimize the required heating energy of the thermal oil heater (7).

Fresh water production method according to another embodiment of the present invention is a method for further forming a thermal expansion tank (9) in order to absorb the thermal expansion of the first heat exchange medium (3) to induce bubbles generated to the outside.

As described above, although described with reference to the preferred embodiment of the present invention, those skilled in the art various modifications and variations of the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

1: low pressure evaporator
3: first heat exchange medium
5: hot water circulation pump
7: Thermal oil heater
9: thermal expansion tank
11: generator engine
13: second heat exchange medium
15: heat recovery exchanger

Claims (9)

In the fresh water production system using the low pressure evaporator of the offshore structure,
A first heat exchange medium forming a closed circuit to provide heat to the low pressure evaporator;
A hot water circulation pump for causing the first heat exchange medium to circulate in a closed circuit;
A thermal oil heater for heating the first heat exchange medium to a predetermined temperature;
Generator engine;
A second heat exchange medium forming a closed circuit circulating to cool the generator engine; And
A heat recovery exchanger for exchanging the second heat exchange medium heated by heat exchange with the generator engine to exchange heat with the first heat exchange medium; Including,
Fresh water production system characterized by providing a stable heat source to the low pressure evaporator. The method according to claim 1,
Fresh water production system further comprises a thermal expansion tank for absorbing the thermal expansion of the first heat exchange medium, and induces bubbles generated. delete The method according to claim 1,
A fresh water cooling pump allowing the second heat exchange medium to circulate between the generator engine and the heat recovery exchanger;
Fresh water production system characterized in that the fresh water cooler for cooling the second heat exchange medium is formed. The method of claim 4,
A seawater suction device for sucking seawater from the outside,
A seawater cooling pump providing cooling seawater from the seawater suction device to the fresh water cooler;
Fresh water production system characterized in that the seawater supply pump for providing the fresh water production seawater from the seawater suction device to the low pressure evaporator. The method according to any one of claims 1, 2, 4, and 5,
Fresh water production system for storing fresh water produced from the low-pressure evaporator, and forming a fresh water tank for dispensing the stored fresh water to each place requiring fresh water in the vessel. In the fresh water production method using a low pressure evaporator of the offshore structure,
The first heat exchange medium forms a closed circuit and circulates, and is heated to a predetermined temperature by the thermal oil heater to be used for the operation of the low pressure evaporator.
The second heat exchange medium circulates to cool the generator engine, and the heat generated during the cooling process further forms a closed circuit such that the heat exchanger exchanges heat with the first heat exchange medium and cools the fresh water cooler again. Production method. delete The method of claim 7,
A fresh water production method, characterized in that the thermal expansion tank induces bubbles generated when the thermal expansion tank absorbs the thermal expansion of the first heat exchange medium.

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