KR20130005788A - Fresh water generating system and control method of the same - Google Patents

Abstract

PURPOSE: A fresh water generating system and a control method thereof are provided to reduce the capacity of pumps by narrowing the range of a draft by adjusting the maximum draft and the minimum draft according to sailing conditions. CONSTITUTION: A fresh water generating system comprises a low-pressure evaporating type fresh water generator(11), a seawater feeding pump(12), a sump pump(16), a fresh water tank(15), a fresh water feeding pump(14), and a brine control unit(21). An ejector(13) is connected to the low-pressure evaporating type fresh water generator. The seawater feeding pump feeds seawater to the fresh water generator. The sump pump discharges the seawater used in the fresh water generator to the outside of a ship. The fresh water tank is connected to the fresh water generator through a pipe. The fresh water feeding pump feeds fresh water generated in the fresh water generator to the fresh water tank. The fresh water control unit controls the operation of the fresh water generator, the seawater feeding pump, and the sump pump. [Reference numerals] (11) Low-pressure evaporating type fresh water generator; (13) Ejector; (15) Fresh water tank; (17) Outside discharge port; (21) Fresh water control unit; (22) Main control unit; (23) Level measuring unit; (AA) Seawater supply; (BB) Seawater feeding pump; (CC) Outside discharge pump; (DD) Water supply(crews, equipment); (EE) Fresh water feeding pump; (FF) Fresh water supply; (GG) External water supply; (HH) Wiring; (II) Pipeline

Description

Tidal system and tidal control system {FRESH WATER GENERATING SYSTEM AND CONTROL METHOD OF THE SAME}

The present invention relates to a control system for water tanks, and more particularly, to a control system for water tanks and a control method thereof that can minimize the constraints on the installation position of the water tank, sea water supply pump, outboard discharge pump and the like.

As is well known, special ships such as offshore vessels, etc., are used for fresh water through fresh water generator (FWG) of fresh water system when fresh water supplied from fresh water tank at the port is insufficient for use in the vessel. Fresh Water (FW) is obtained from Water.

This tidal system is configured to produce fresh water by using sea water in the hull, and the tidal system of the tidal system is divided into reverse osmosis and low pressure evaporator.

Among them, the low pressure evaporator is configured to generate low pressure by the ejector, draw out the air in the evaporator of the water tank with seawater, increase the vacuum degree, and then evaporate the seawater through the waste heat of the hull to make fresh water. . The seawater is supplied to the water tank side by the seawater supply pump, and the seawater after use is discharged outboard through the ejector and the outboard discharge pump.

On the other hand, in the conventional tidal system using the low pressure evaporator, the position of the water tank and the seawater supply pump is determined according to the draft line, and the position of the overboard discharge of seawater by the ejector is also limited according to the draft line. do. In order to overcome this limitation, an additional outboard discharge pump can be added, and if it is discharged to the side of the ship, it may be restricted by safety-related rules (Life boat, etc.). It is a pump. In the case of such an outboard discharge pump, the higher the maximum draft line, the higher the required pressure and the larger the capacity. Therefore, an appropriate position must be selected according to the draft line to satisfy the pressure required by the equipment.

In addition, the seawater feed pumps should be located below the lowest draft, so that the position of the water dispenser should also be present in such a position that the seawater can be discharged overboard. However, in case of special ships, various situations can occur and the difference of these draft lines can be very large, which may not meet the equipment requirements. It may also be difficult to stick to the position required by the equipment in a narrow engine room.

As such, in the conventional tidal system, the position of the water dispenser is limited by the characteristics of the equipment and the water line, and in order to satisfy this, the capacity of the outboard discharge pump is increased or an additional pressure control device is required, and the arrangement of the equipment is limited. There was a disadvantage to follow.

The present invention has been made in view of the above, in the case of a draft line under special circumstances such as offshore ships, etc., the water in the fresh water tank is temporarily used without the operation of the water tank. The present invention relates to a control system for a water dispenser and a control method thereof capable of minimizing the constraints on the installation position of the water dispenser, the seawater supply pump, the outboard discharge pump, and the like by controlling the operation of the water dispenser only in the operating draft line.

According to an aspect of the present invention for achieving the above object, a tidal water system for producing fresh water from seawater, low pressure evaporator is connected to the ejector 11; Seawater supply pump 12 for supplying seawater to the water dispenser; An outboard discharge pump 16 for discharging the seawater used in the water tank to the outboard; A fresh water tank 15 connected to the water dispenser through a pipe; a fresh water supply pump 14 for supplying fresh water generated in the water dispenser to the fresh water tank; And a tidal control unit 21 electrically connected to the water tank 11 and the sea water supply pump 12 and the outboard discharge pump 16 to control the operation of the water tank and the sea water supply pump and the outboard discharge pump. It provides a tide system comprising a.

The tide control unit 21 is connected to the water level measuring unit 23 for measuring the waterline of the hull, the tide control unit 21 is the tank according to the draft of the hull measured by the water level measuring unit 23 It is characterized by controlling the operation of the water receiver 11, the sea water supply pump 12, the outboard discharge pump 16.

The water level measuring unit 23 is electrically connected to the main control unit 22 of the hull, the main control unit 22 of the hull is electrically connected to the tidal control unit 21, and the main control unit ( 22) sends a control signal according to the waterline of the hull measured by the water level measurement unit 23 to the tidal control unit 21, the water tank 11, the sea water supply pump 12, the outboard discharge pump 16 It is characterized by controlling the operation of the).

The water tank 11, the sea water supply pump 12, and the outboard discharge pump 16 are stopped when the draft line of the hull measured by the water level measurement unit 23 is out of the usual draft line range. When the draft line of the hull measured by the measuring unit 23 is in the usual draft line range, it is controlled so that operation may start.

The fresh water supply pump 14 is electrically connected to the fresh water supply control unit 21, and the fresh water supply pump 14 is controlled by the fresh water supply control unit 21.

The upstream side of the water dispenser 11 is characterized in that the pressure control valve 19 is installed.

The outboard discharge pipe 18 of the loop structure is connected to the ejector 13 of the water dispenser 11, and the at least one outboard discharge valve 18a and the outboard discharge pump 16 are connected to the outboard discharge pipe 18. It is characterized by being installed.

According to another aspect of the present invention, a tide system having an outboard discharge pump for discharging the seawater used in the low pressure evaporator and the low pressure evaporator to produce fresh water using the sea water supplied by the sea water supply pump In the control method of, the water level measurement unit 23 measures the draft line of the hull in real time, and if the measured draft line of the hull is out of the usual draft line range, the water tank 11 by the tide control unit 21. And stopping the operation of the seawater supply pump 12 and the outboard discharge pump 16, and if the measured waterline is within the usual waterline range, the water tank 11 and the water tank control unit 21. The seawater supply pump 12 and the outboard discharge pump 16 is provided to provide a control method of the tidal water system.

According to the present invention as described above, when the ship's draft line is in a special situation, the fresh water stored in the fresh water tank is temporarily used while the low pressure evaporator, the seawater supply pump, and the outboard discharge pump are stopped. By applying a structure that controls the water tank, the sea water supply pump, and the outboard discharge pump only when the water line is within the normal range of the draft, the layout constraints of the low pressure evaporator, sea water supply pump, and outboard discharge pump are alleviated. Usability can be increased.

In addition, the present invention can implement the optimization of the pump capacity through the optimal design, and can be adjusted to the usual operating situation of the range of the maximum draft line to the lowest draft line, the advantage of narrowing the range of the draft line can significantly reduce the capacity of the pumps There is this.

1 is a block diagram showing a tidal system according to an embodiment of the present invention.
2 is a view showing a structure in which the tide system of the present invention is applied to the hull.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a tidal system according to an embodiment of the present invention.

The present invention relates to a tidal system for producing fresh water (FW, fresh water) from sea water (SW, installed in a special ship, such as offshore vessels, etc.), as shown in Figure 1 low pressure evaporator (11) ), A seawater supply pump 12, an outboard discharge pump 16, a fresh water tank 15, a fresh water supply pump 14, and a tidal control unit 21.

The low pressure evaporator 11 is connected to an ejector 13 for generating low pressure, and is supplied through the seawater supply pump 12 in a state where low pressure is generated in the water conditioner 11 by the ejector 13. Fresh water is produced as the seawater is evaporated by the waste heat produced by the main engines in the hull.

The sea water supply pump 12 is configured to suck the sea water from the sea chest of the hull 1 (see FIG. 2) and to supply it to the water tank 11 side.

The outboard discharge pump 16 is connected to the ejector 13 through a pipe to discharge the seawater after being used in the water conditioner 12 to the outboard, and the seawater is discharged by the ejector 13 and the outboard discharge pump 16. After being transported to (17), it is discharged outboard.

The fresh water tank 15 may be connected to the water tank 11 through a pipe, and may be supplied to the cabin, toilet, equipment, etc. in the hull after storing the fresh water generated by the water tank 11.

The fresh water tank 15, as shown in Figure 1, so that the fresh water can be supplied separately from the outside so that the fresh water in the fresh water tank in case of emergency, there is no fresh water in the fresh water tank in preparation for It is also possible to install devices that can be supplied.

The fresh water supply pump 14 is configured to supply fresh water generated in the water dispenser 11 to the fresh water tank 15.

In the case of special ships such as offshore ships, the difference in draft line is very large according to the operation situation, and in the conventional tidal system, there are great restrictions on the arrangement of water tanks, seawater supply pumps, outboard discharge pumps, etc. Although the present invention has a disadvantage, the present invention is configured to control the operation of the water tank 11, the sea water supply pump 12, the outboard discharge pump 16 in accordance with the draft line of the hull by the tide control unit 21 (11), the batch constraints of the seawater supply pump 12, the outboard discharge pump 16 and the like can be alleviated, thereby increasing the usability of the batch.

The tidal control unit 21 is electrically connected to each of the water tank 11, the sea water supply pump 12, and the outboard discharge pump 16, and according to the draft line of the hull, the water tank 11, sea water supply pump 12, It is configured to control the operation of the outboard discharge pump 16.

In addition, the fresh water control unit 21 is electrically connected to the fresh water supply pump 14 and configured to control the operation of the fresh water supply pump 14 according to the waterline of the hull.

And, the tide control unit 21 is connected to the water level measurement unit 23, the water level measurement unit 23 is measured by the draft line of the hull in real time as the tide control unit 21 is a water dispenser (11), It is configured to control the operation of the sea water supply pump 12, the outboard discharge pump (16).

Meanwhile, as shown in FIG. 1, the tidal control unit 21 is electrically connected to the main control unit 22 of the hull, and the main control unit 22 has a water level measuring unit 23 for measuring the draft line of the hull. It is electrically connected.

Accordingly, the water level measuring unit 23 measures the waterline of the hull, and in the case where the waterline of the hull thus measured is outside of the usual waterline range, the water level measuring unit 23 passes through the main control unit 22 to the tidal control unit 21. The signal is transmitted, and the tidal control unit 21 stops the operation of the water tank 11, the seawater supply pump 12, and the outboard discharge pump 16. Since such a special situation does not last a long time, in such a special situation, the operation of the water tank 11 is stopped, and various types of living water and facility water use the fresh water of the fresh water tank 15 temporarily.

When the draft line of the hull measured by the water level measuring unit 23 is within the usual draft line range, the signal is transmitted to the tidal control unit 21 through the main control unit 22, and thus the tidal control unit 21 By operating the water tank 11, the seawater supply pump 12, and the outboard discharge pump 16 normally, fresh water can be efficiently obtained from the seawater.

Thus, in the present invention, when the draft line of the hull is in a special situation, the fresh water stored in the fresh water tank is stopped while the low pressure evaporator 11, the seawater supply pump 12, and the outboard discharge pump 16 are stopped. The low pressure evaporator is applied by temporarily applying the structure to operate the water tank 11, the seawater supply pump 12, and the outboard discharge pump 16 only when the ship's draft line is within the usual draft range. 11), the batch constraints of the seawater supply pump 12, the outboard discharge pump 16 and the like can be alleviated to increase the usefulness of the batch.

In addition, the present invention can implement the capacity optimization of the pump (12, 16) through the optimum design, and can be adapted to the situation of operating the usual range of the maximum draft line to the lowest draft line, the narrow line of the draft line to narrow the pump (12, There is an advantage that can greatly reduce the capacity of 16).

On the other hand, Figure 2 is a view showing a state in which the tide system of the present invention is applied in the hull (1), as shown, the pressure control valve 19 may be installed on the upstream side of the water conditioner (11). When the pressure control valve 19 is the highest draft line, the pressure of the water dispenser 11 may be increased to meet the required pressure of the equipment. However, if the operating range is reduced, the pressure regulating valve 19 can be omitted (the normal maximum draft line is lower than the draft line under special circumstances).

The outboard discharge pipe 18 of the loop structure is connected to the ejector 13 of the water dispenser 11, and the at least one outboard discharge valve 18a and the outboard discharge pump 16 are connected to the outboard discharge pipe 18 of the roof structure. ) Is installed.

The rest of the configuration and operation are the same as in the preceding embodiment, so a detailed description thereof will be omitted.

11: low pressure evaporator 12: seawater supply pump
14: fresh water supply pump 15: fresh water tank
16: Outboard discharge pump
21: assistant control unit 22: main control unit
23: water level measurement unit

Claims (8)

As a tidal system that produces fresh water from sea water,
A low pressure evaporator 11 to which an ejector is connected;
Sea water supply pump 12 for supplying sea water to the water dispenser;
An outboard discharge pump 16 for discharging the seawater used in the water tank to the outboard;
A fresh water tank 15 connected to the water dispenser through a pipe;
A fresh water supply pump 14 for supplying fresh water generated in the water dispenser to the fresh water tank; And
A tidal control unit 21 electrically connected to each of the water tank 11, the sea water supply pump 12 and the outboard discharge pump 16 to control the operation of each of the water tank, the sea water supply pump and the outboard discharge pump; Tide system comprising a. The method of claim 1,
The tide control unit 21 is connected to the water level measuring unit 23 for measuring the waterline of the hull, the tide control unit 21 is the tank according to the draft of the hull measured by the water level measuring unit 23 A tidal system characterized by controlling the operation of each of the water receiver (11), the sea water supply pump (12) and the outboard discharge pump (16). The method of claim 1,
The water level measuring unit 23 is electrically connected to the main control unit 22 of the hull, the main control unit 22 of the hull is electrically connected to the tidal control unit 21, and the main control unit ( 22) sends a control signal according to the draft line of the hull measured by the water level measurement unit 23 to the tidal control unit 21, the water tank 11, the sea water supply pump 12 and the outboard discharge pump 16 Tide system, characterized in that to control the operation of each. The method according to any one of claims 1 to 3,
The water tank 11, the sea water supply pump 12 and the outboard discharge pump 16 is stopped when the draft line of the hull measured by the water level measurement unit 23 is out of the usual draft line range, the water level A tidal system, characterized in that the operation is controlled to start if the draft line of the hull measured by the measuring unit (23) is within the usual draft line range. The method according to claim 4,
The fresh water supply pump (14) is electrically connected to the tidal control unit (21), the fresh water supply pump (14) is characterized in that the operation is controlled by the tidal control unit (21). The method of claim 1,
A tidal system, characterized in that the pressure control valve 19 is installed upstream of the water tank (11). The method of claim 1,
The outboard discharge pipe 18 of the loop structure is connected to the ejector 13 of the water dispenser 11, and the at least one outboard discharge valve 18a and the outboard discharge pump 16 are connected to the outboard discharge pipe 18. Tide system characterized in that the installation. As a control method of the tide system having an outboard discharge pump for discharging the seawater used in the low pressure evaporator and the low pressure evaporator to produce fresh water using the seawater supplied by the seawater supply pump,
The water level measurement unit 23 measures the ship's draft line in real time, and if the measured ship's draft line is out of the usual draft line range, the water tank 11, the seawater supply pump ( 12) and the outboard discharge pump 16 is stopped,
The tide system, characterized in that if the measured waterline is within the usual waterline range, the water tank 11, the seawater supply pump 12, and the outboard discharge pump 16 are operated by the fresh water control unit 21. Control method.

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