KR20130139591A - Fresh water supply system using flow controller - Google Patents

Abstract

A fresh water supply system using flow control is disclosed. The fresh water supply system using flow control according to the present invention to sterilize water and supply the water to a vessel comprises a fresh water tank to store fresh water supplied from a fresh water generator inside or outside the vessel; and a flow controller to control the flow rate of fresh water supplied to the fresh water tank. [Reference numerals] (AA,BB) Inject and discharge fresh water;(CC) Germicide

Description

Fresh Water Supply System Using Flow Controller

The present invention relates to a flow rate control fresh water supply system, and more particularly, to sterilize by constantly adjusting the flow rate of fresh water supplied from the vessel or outside the vessel and the chlorine is added based on the adjusted fresh water flow rate A flow control fresh water supply system capable of storing and supplying fresh water.

Fresh water is needed to cool equipment on ships, to feed boiler feedwater, bath or laundry water, and this fresh water can be stored from the land during berthing, or low pressure evaporation type tides. Fresh water is produced, stored, and supplied to ships.

Low pressure evaporative water tank uses the principle that the boiling point of liquid is lowered as the pressure is lowered. It lowers the pressure inside the water tank to produce fresh water from sea water using the engine's remaining heat source, such as jacket water or boiler steam. .

Unlike ships equipped with propulsion engines on their own, offshore structures without propulsion main engines have a large load fluctuation of several installed generator engines, so that the amount of cooling water produced by the waste heat of the generator engine is not constant. It is difficult to apply low pressure evaporator to make fresh water.

Instead, a reverse osmosis type diaphragm for converting seawater into fresh water by applying reverse osmosis to the semi-permeable membrane is provided.

The reverse osmotic pressure regulator is widely used in large plant facilities and desalination plants. When the concentration of raw water is high or when a large amount of raw water is to be treated, the size of the membrane treatment facility becomes large. In order to increase the pressure, Depending on the effluent efficiency, it may be composed of multiple stages.

The fresh water produced in the water tank or supplied from the land is stored and supplied to the vessel as drinking water and equipment water.

At this time, the pipe for moving the fresh water to the storage tank usually serves only to guide the fresh water to the storage tank. Since there is no function to control the flow rate or water pressure, there is a risk of damage to the pipe if fresh water is not supplied to the pipe size.

In addition, when special regulations such as NMD requirements are applied, fresh water supplied needs chlorine disinfection treatment. If the flow rate or water pressure cannot be adjusted, chlorine input is difficult to control, and chlorine is not uniformly injected.

The present invention is to solve the problems as described above, by controlling the flow rate of fresh water supplied from the vessel or outside the vessel of the vessel in the fresh water tank, even if sterilization and disinfection is required to control the sterilant by controlling the flow rate of fresh water By injecting, it is intended to prevent pipe damage and to stably store and discharge the sterilized fresh water.

According to one aspect of the invention, in the system for sterilizing and supplying water to the ship,

A fresh water tank for storing fresh water supplied from an external or onboard vessel of the ship; And

There is provided a flow rate control fresh water supply system including a flow rate control unit for controlling the flow rate of the fresh water supplied to the fresh water tank.

The flow control fresh water supply system includes a sterilant injector for injecting a sterilant into the fresh water stored in the fresh water tank, a fresh water supply passage for guiding the fresh water to the fresh water tank, and the fresh water from the fresh water tank to the flow rate control unit. The apparatus may further include a circulation supply flow path for inducing and a circulation pump provided in the circulation supply flow path to pump the fresh water.

The flow rate control unit may include a flow rate controller provided in the fresh water supply flow path for controlling the flow rate of the fresh water, and a first flow meter for measuring the flow rate of the fresh water passing through the flow rate controller.

The fungicide is characterized in that it comprises chlorine.

The sterilant injecting unit is provided in the fresh water supply passage to measure the flow rate of the fresh water, and to transmit a flow signal, and the chlorine receiving the flow signal from the second flow meter to supply the sterilizer to the fresh water supply passage. It may include a feed pump.

The flow control fresh water supply system may further include a bypass flow path connected to the fresh water supply flow path to guide the fresh water to bypass the flow control unit.

The flow control fresh water supply system opens and closes a first valve provided in an inlet direction of the flow controller in the fresh water supply flow passage, a second valve provided in an outlet direction of the first flow meter in the fresh water supply flow passage, and the circulation supply flow passage. A third valve and a fourth valve for opening and closing the bypass flow path may be further included.

The flow control fresh water supply system may further include a water quality measurement unit provided in the fresh water supply flow path and measuring the chlorine content of the fresh water supplied with the sterilizer.

According to another aspect of the present invention, in the method for sterilizing and supplying water to a ship,

Supply and store the flow rate while measuring the flow rate of fresh water supplied from the vessel or outside the vessel,

When chlorine is added to sterilize the fresh water, a flow rate controlled fresh water supply method is provided in which the chlorine is added based on the adjusted flow rate of the fresh water after adjusting the flow rate of the fresh water.

Flow rate control fresh water supply system of the present invention, by controlling the flow rate of fresh water supplied from the outside of the ship or in the ship's water tank in the fresh water tank, even when sterilization and disinfection, by adjusting the flow rate of fresh water to inject the sterilizer, It is possible to prevent damage and to store and discharge the sterilized fresh water stably. Since the flow rate can be adjusted, the optimized pipe size can be determined and applied at the design stage of the ship, and by controlling the flow rate of the fresh water constantly, the sterilizer can be uniformly added to the fresh water.

1 schematically illustrates a flow control fresh water supply system according to an embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

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

Figure 1 schematically illustrates the concept of a flow control fresh water supply system according to an embodiment of the present invention.

1 is a flow control fresh water supply system according to an embodiment of the present invention, in the system for sterilizing and supplying water to the ship, fresh water for storing fresh water supplied from the vessel or outside the vessel There is provided a flow rate controlled fresh water supply system including a tank 100 and a flow rate control unit 200 for controlling the flow rate of fresh water supplied to the fresh water tank 100.

Fresh water is stored in the fresh water tank 100 in order to supply drinking water or various equipment water required for the vessel. Such fresh water is supplied from the outside of the ship at the time of harbor berth, or the fresh water is stored in the fresh water tank 100 by desalination in the water tank provided in the ship.

However, where the Norwegian Maritime Directorate (NMD) requirement (which is regulated by the Norwegian Maritime Authority, which provides for safety, health and the environment, etc.) applies, two or more freshwater tanks are required, one of which is a pump. It is a tank for sterilizing fresh water or discharging it outboard, and the other is a tank for supplying various waters in a ship. The fresh water tank 100 of the present embodiment is an electronic tank, and thus, the present embodiment may further include a tank (not shown) and pipes (not shown) for supplying various types of water to the vessel.

The water tank of the ship (not shown) may be a known water tank such as a low pressure evaporative water tank or a reverse osmosis water tank. For example, in the case of a reverse osmosis water tanker, the seawater is transferred to a high pressure pump to apply a high pressure of more than osmotic pressure to pass through the semi-permeable membrane. These water tanks are intake facilities for supplying seawater, reverse osmosis facilities for extracting freshwater from seawater using selective permeation of membranes, chemical injection for maximizing pretreatment efficiency and maintaining membrane performance, and adding calcium carbonate and pH adjustment according to the use of water. It may be composed of a drug injection facility and a post-treatment facility to carry out.

In this embodiment, the fresh water supplied from the outside of the vessel or from the water dispenser is guided to the fresh water tank 100 by constantly adjusting the flow rate in the flow rate control unit 200.

The present embodiment is a sterilant injecting unit 300 for injecting a fungicide into the fresh water stored in the fresh water tank 100, a fresh water supply passage (F1) for guiding fresh water to the fresh water tank 100, and the fresh water tank 100 A circulation supply flow path (F2) guided to the flow rate control unit 200 and a circulation pump 400 provided in the circulation supply flow path (F2) for pumping fresh water may be further included.

Fresh water generated in the water tank of the ship may be supplied to the fresh water supply passage (F1) in a sterilized state by filtration with a filter or a sterilization device (not shown) such as an ultraviolet sterilizer. The fresh water introduced into the fresh water supply flow path F1 is guided to the fresh water tank 100 through the flow control unit 200 and stored.

When special regulations such as NMD requirement are applied and the fresh water requires sterilization and disinfection, the fresh water stored in the fresh water tank 100 is pumped by the circulation pump 400 to flow along the circulation supply flow path F2. ) Is passed through the flow path in a state in which the flow rate is adjusted, and is supplied with the sterilizer required to meet special regulations from the sterilant injecting unit 300.

The fresh water tank 100 may be provided with a chlorine concentration measuring device for measuring the chlorine concentration of the stored fresh water.

The flow rate control unit 200 may include a flow rate controller 210 provided in the fresh water supply flow path F1 to control the flow rate of the fresh water, and a first flow rate meter 220 measuring the flow rate of the fresh water passing through the flow rate controller 210. Can be.

The flow rate of the fresh water supplied from the outside of the ship or from the water tank, or supplied from the fresh water tank 100 through the circulation supply flow path F2 is adjusted to the required range by the flow controller 210, and the adjusted flow rate is adjusted by the first flow meter. Measured at 220.

The flow controller 210 may apply a general flow controller.

The fungicides are characterized by comprising chlorine.

Chlorine disinfectants necessary to meet special regulations such as NMD requirements are introduced for fresh water sterilization purposes. If the NMD requirement applies, the required chlorine content in fresh water is 0.05 to 0.5 ppm.

The sterilant injecting unit 300 is provided in the fresh water supply flow path F1 to measure the flow rate of the fresh water, and transmits a flow rate signal, and receives the flow signal from the second flow meter 310 to receive the fresh water supply flow path. It may include a chlorine supply pump 320 for supplying a sterilizer to (F1).

Since the chlorine supply pump 320 has a limit range flow rate, the flow rate controller 210 adjusts the flow rate of fresh water in consideration of the limit range flow rate of the pump, and measures the flow rate of the fresh water in the second flow meter 310 to provide a flow rate signal. Upon transmission, based on this, the chlorine supply pump 320 supplies the chlorine sterilizer to the fresh water supply flow path F1.

The present embodiment may further include a bypass flow path F3 connected to the fresh water supply flow path F1 to guide the fresh water to bypass the flow control unit 200.

The bypass flow path F3 is mainly used to discharge fresh water stored in the fresh water tank 100. However, it may be used to supply fresh water to the fresh water tank 100 by bypassing the flow controller 210. This is possible when there is no need to go through the flow controller 210 because the flow of fresh water is low when supplying fresh water from the outboard.

In the present embodiment, the first valve 510 is provided in the inlet direction of the flow controller 210 in the fresh water supply flow path F1, and the second valve 520 is provided in the outlet direction of the first flow meter in the fresh water supply flow path F1. And a third valve 530 that opens and closes the circulation supply flow path F2, and a fourth valve 540 that opens and closes the bypass flow path F3.

When fresh water is supplied to the fresh water tank 100 from the outside of the vessel or stored in the fresh water tank 100, when the first valve 510 and the second valve 520 are opened, the fresh water passes through the flow control unit 200 and the fresh water tank 100. Is introduced.

When the chlorine concentration in the fresh water in the fresh water tank 100 is lower than the reference value, when the third valve 530 is opened and the first valve 510 is blocked, the fresh water passes through the circulation supply flow path F2 and the fresh water supply flow path F1. The chlorine disinfectant is supplied from the sterilant injecting unit 300 via the flow control unit 200.

When the fresh water of the fresh water tank 100 is discharged, when the first valve 510 and the second valve 520 are shut off and the third valve 530 and the fourth valve 540 are opened, the fresh water is circulatedly supplied. After passing the bypass flow path F3 through the flow path F2 and the flow rate control unit 200, the discharge is outboard along the fresh water supply flow path F1.

The present embodiment may further include a water quality measuring unit 600 provided in the fresh water supply passage F1 and measuring the chlorine content of the fresh water supplied with the disinfectant.

The water quality measuring unit 600 checks the quality of the fresh water that has received the chlorine disinfectant from the chlorine supply pump 320 while passing through the fresh water supply flow path F1 to determine whether the chlorine content contained in the fresh water satisfies a special regulation. . For example, the chlorine content required for NMD is 0.05 to 0.5 ppm. The water quality measuring unit 600 may measure the water quality by collecting a sample of fresh water through a valve operated manually, or may measure the water quality by an automated system by applying a chlorine concentration measuring device and an electric valve.

According to another aspect of the present invention, in the method of sterilizing and supplying water to a ship, supplying and storing while measuring the flow rate of fresh water supplied from the vessel or outside the vessel, and chlorine is added to sterilize fresh water In this case, after adjusting the flow rate of fresh water, a flow control fresh water supply method is provided in which chlorine is added based on the adjusted flow rate of fresh water.

As described above, the flow control fresh water supply system according to the present embodiment, the fresh water supplied from the water tank outside the vessel or in the vessel to control the flow rate stored in the fresh water tank 100, even if sterilization and sterilization is required By controlling the flow rate of the injecting sterilizer, it is possible to prevent the pipe damage caused by the introduction of fresh water beyond the pipe capacity, it is possible to store and discharge the sterilized fresh water stably through the flow rate control.

Since the flow rate is adjustable, the optimized pipe size can be determined and the optimized pipe can be applied to the ship during the ship design stage.

In addition, by controlling the flow rate of fresh water uniformly, the sterilizer can be added to the fresh water uniformly. Therefore, if chlorine is unevenly added, the problem of excessively driving the circulation pump 400 until the desired chlorine concentration is obtained can be solved. have.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

F1: Fresh Water Supply Euro
F2: circulating supply flow path
F3: Bypass Euro
100: fresh water tank
200: flow control
210: flow controller
220: first flow meter
300: fungicide injection unit
310: second flow meter
320: chlorine feed pump
400: circulation pump
510: first valve
520: second valve
530: third valve
540: fourth valve
600: water quality measurement unit

Claims (9)

In the system for sterilizing and supplying water to the ship,
A fresh water tank for storing fresh water supplied from an external or onboard vessel of the ship; And
Flow rate control fresh water supply system including a flow rate control unit for controlling the flow rate of the fresh water supplied to the fresh water tank. The method of claim 1,
A sterilizing agent injecting a sterilizing agent into the fresh water stored in the fresh water tank;
A fresh water supply passage for guiding the fresh water to the fresh water tank;
A circulation supply passage for guiding the fresh water from the fresh water tank to the flow rate control unit; And
And a circulation pump provided in the circulation supply passage to pump the fresh water. The method of claim 2, wherein the flow control unit
A flow rate controller provided in the fresh water supply passage to control a flow rate of the fresh water; And
And a first flow meter for measuring the flow rate of the fresh water passing through the flow controller. The method of claim 3, wherein
The sterilizing agent comprises a chlorine flow control fresh water supply system. According to claim 2, wherein the fungicide injection unit
A second flow meter provided in the fresh water supply passage to measure a flow rate of the fresh water and transmit a flow signal; And
And a chlorine supply pump configured to receive the flow signal from the second flow meter and supply the sterilant to the fresh water supply flow path. 6. The method of claim 5,
And a bypass flow path connected to the fresh water supply flow path for inducing the fresh water to bypass the flow control part. The method according to claim 6,
A first valve provided in an inlet direction of the flow controller in the fresh water supply passage;
A second valve provided in an outlet direction of the first flow meter in the fresh water supply flow path;
A third valve for opening and closing the circulation supply passage; And
And a fourth valve for opening and closing the bypass flow path. The method according to claim 6,
And a water quality measuring unit provided in the fresh water supply passage and measuring a chlorine content of the fresh water supplied with the sterilizing agent. In the method of sterilizing and supplying water to the ship,
Supply and store the flow rate while measuring the flow rate of fresh water supplied from the vessel or outside the vessel,
When chlorine is added for sterilization of the fresh water, after adjusting the flow rate of the fresh water, the flow control fresh water supply method for adding the chlorine based on the adjusted flow rate of the fresh water.

Images