KR20150066123A - Sea Water Supply System for Electrolysis Unit of Ballast Water Treatment System - Google Patents

Abstract

The present invention aims to maintain electrolysis efficiency of an electrolytic bath to be at a normal level and also to maintain generation concentration of electrolyzed water to be at a normal level set by a design. A sea water supplying apparatus for the electrolytic bath of a ship ballast water processing system comprises: a first main sea water supplying line (6a) which is connected from a sea water inlet (2) to an electrolysis sea water supplying unit (40); an additional sea water supplying unit (200) which is a line different from the first main sea water supplying line (6a) and supplies ballast water, stored in a ballast tank in a ship; an additional supplying line (300) which is connected from the additional sea water supplying unit (200) to the electrolysis sea water supplying unit (40); and a control valve (302) installed on a first control valve (7a), installed on the first main sea water supplying line (6a), and on the additional supplying line (300) in order to selectively open and close the first main sea water supplying line (6a) and the additional supplying line (300).

Description

Technical Field [0001] The present invention relates to an electrolytic bath water supply system for a ship ballast water treatment system,

More particularly, the present invention relates to an apparatus for supplying electrolytic seawater having an appropriate salinity in a low salt concentration region to maintain the electrolytic efficiency of the electrolytic bath normally and design electrolytic water production concentration So that it can be maintained normally according to the level.

Recently, as ballast water treatment of vessels has become mandatory based on the adoption of IMO related convention, various studies are being conducted to improve the ballast water treatment method and its treatment efficiency.

Among them, the electrolytic-based ballast water treatment system electrolyzes seawater to generate electrolytic water (hypochlorous acid water) and mixes the generated electrolytic water with the ballast water flowing into the ballast tank from the ocean, It is sterilized.

Fig. 1 shows a ballast water treatment apparatus using an electrolysis method.

1, a first valve V1, a ballast pump 20, a filter unit 30 (hereinafter, referred to as a " first valve ") are disposed on a main ballast line 10 to be piped between a seawater inlet 2 and a ballast tank 4 The electrolytic water supply unit 40 and the electrolytic bath unit 50 are installed in the electrolytic water supply line 6a or 6b separately and the neutralization agent is supplied to the main ballast line 10 A neutralizing agent supply unit 60 is provided.

A first bypass line 11 connecting a point between the first valve V1 and the first ballast pump 20 and a downstream point of the second valve V2 is provided, And a second bypass line 12 for connecting upstream and downstream of the fourth and fifth valves V4 and V5 installed downstream is provided.

During ballast, that is, during seawater inflow, valves (V1, V2, V4, V5) for ballast are opened and valves (V3, V6, V7) for deballasting are closed. Therefore, the ballast water taken at the seawater inlet 2 flows into the ballast tank 4 through the main ballast line 10 by the ballast pump 20, is filtered at the filter unit 30, and then enters the ballast tank 4. The electrolytic water generated by electrolysis from the electrolytic bath unit 50 is injected into the ballast water in the course of entering the ballast tank 4 and sterilized.

During deballasting, ie, during seawater discharge, valves (V3, V6, V7) for deballasting are opened and valves (V1, V2, V4, V5) for ballast are closed. Therefore, the ballast water in the ballast tank 4 flows out through the first bypass line 11, passes the pump 20, bypasses the filter unit 30 again via the second bypass line 12, (V7) to the overboard 70, i.e., the ocean. In the course of discharging the equilibrium water to the ocean, neutralizing agent is injected into the equilibrium water through the neutralizing agent supply unit 60 to prevent marine pollution caused by the electrolytic water remaining in the equilibrium water.

That is, in case of ballast, electrolytic water is injected into ballast water, and neutralizing agent is injected into ballast water in case of diballust. In case of ballast, the total residual oxidant (TRO) concentration in ballast water is always evaluated so as to meet the standard value, The TRO concentration of the electrolytic water is adjusted or the amount of electrolytic water injected into the ballast water is controlled by increasing or decreasing the current applied to the unit 50. In the case of diballasting, the total concentration of the residual oxidant in the ballast water is less than the permissible concentration Adjust the amount of neutralizing agent to ensure that.

When ballast water is used, electrolytic water is generally supplied to the equilibrium water by using electrolysis using generally a suitable salinity (eg, about 15 PSU) of about 1% of the ballast water (eg, 10 tons per 1,000 tons). Of course, The concentration is directly related to the electrolytic efficiency of the electrolytic cell.

The salinity of the seawater flowing into the electrolytic cell is a very important factor for maintaining the electrolytic efficiency of the electrolytic cell. Therefore, when the salinity of the electrolytic seawater is below the appropriate level, the electrolytic efficiency is lowered and the concentration of the electrolytic water produced is inevitably low.

However, the electrolytic seawater flowing through the seawater inlet varies in salinity depending on the operating location of the vessel. Especially, at the point where the freshwater area or the river downstream is merged, it is lower than the normal salinity, and if it is sent to the electrolytic cell as it is, the electrolytic efficiency drops and it becomes difficult to normally sterilize the ballast water. In addition, in order to maintain the proper electrolytic water concentration, more power (about 5 times or more) should be supplied than in the case of ordinary seawater.

Due to such a problem, there is a case where a high concentration of brine is separately stored in the ballast water treatment system and, if necessary, mixed and supplied to the electrolytic seawater. In this case, facilities are complicated and equipment costs are high.

Published Patent Publication No. 10-2013-0080669 Patent Registration No. 10-1066674

Therefore, the present invention can provide electrolytic seawater having a proper salinity even in a low salt area so that the electrolytic efficiency of the electrolytic cell can be maintained normally and the electrolytic water production concentration can be maintained at a designed level, And to provide a feeding device.

In order to achieve the above object, an electrolytic bath water supply apparatus of a ship ballast water treatment system according to one aspect of the present invention comprises an electrolytic bath unit 50 for generating electrolytic water for sterilizing ship ballast water entering a ballast tank, A first main sea water supply line 6a connected from the seawater inlet 2 to the electrolytic seawater supply unit 40; An additional seawater supply unit 200 for supplying the ballast water stored in the ballast tank of the ship, constituting a separate line from the first main seawater supply line 6a; An additional supply line 300 connected from the additional seawater supply unit 200 to the electrolytic seawater supply unit 40; A first intermittent valve 7a provided in the first main sea water supply line 6a and a second intermittent valve 7b provided in the additional supply line 300a for selectively opening and closing the first main sea water supply line 6a and the additional supply line 300, And a control valve 302 installed in the control valve 302.

The electrolytic water seawater supply device of the ship ballast water treatment system according to another aspect of the present invention is a seawater supply device for supplying electrolytic seawater to an electrolytic bath unit 50 that generates electrolytic water for sterilizing ship ballast water entering the ballast tank A second main seawater supply line 6b connected from the downstream side of the filter 30 of the main ballast line 10 to the electrolytic seawater supply unit 40; An additional seawater supply unit 200 for supplying the ballast water stored in the ballast tank of the ship, constituting a separate line from the second main seawater supply line 6b; An additional supply line 300 connected from the additional seawater supply unit 200 to the electrolytic seawater supply unit 40; A second intermittent valve 7b installed in the second main seawater supply line 6b and a second intermittent valve 7b provided in the additional supply line 300 for selectively opening and closing the second main sea water supply line 6b and the additional supply line 300, And a control valve 302 installed in the control valve 302.

The electrolytic water seawater supply device of the ship ballast water treatment system according to another aspect of the present invention includes a seawater supply device for supplying electrolytic seawater to an electrolytic bath unit 50 for generating electrolytic water for sterilizing ship ballast water entering the ballast tank , A first main sea water supply line (6a) connected from the seawater inlet (2) to the electrolytic seawater supply unit (40); A second main sea water supply line (6b) extending from the downstream side of the filter (30) of the main ballast line (10) and connected to the first main sea water supply line (6a); First and second intermittent valves 7a and 7b installed on the first main sea water supply line 6a and the second main sea water supply line 6b for selectively opening and closing the first and second water supply lines 6a and 6b; A flow control valve 7c installed downstream of a connection point between the first main sea water supply line 6a and the second main sea water supply line 6b; An additional seawater supply unit 200 for supplying the ballast water stored in the ballast tank of the ship, which forms a separate line from the first main sea water supply line 6a and the second main sea water supply line 6b, ; An additional supply line 300 connected from the additional seawater supply unit 200 to the electrolytic seawater supply unit 40; A control valve 302 installed on the additional supply line 300 for selectively opening and closing the additional supply line 300 with respect to the first main sea water supply line 6a and the second main sea water supply line 6b .

In the electrolytic water seawater supply system of the present invention, the ballast tanks storing the ballast water supplied through the additional seawater supply unit 200 use the after-peak tanks 110 or the anti-healing tanks 120 .

In the electrolytic seawater supply device of the marine ballast water treatment system according to the present invention, the additional seawater supply unit 200 is extended from the after-peak tank 110 among the ballast tanks of the ship, A first additional inflow line (210) connected to the additional supply line (300); An intermittent valve (211 or 212) for opening / closing the first additional inflow line (210); A flow control valve 213 and an additional feed pump 240, which are installed in turn on the first additional inflow line 210 downstream of the shutoff valve 211 or 212; And a flow meter 250 installed in the first additional inflow line 210 downstream of the additional feed pump 240 for detecting the flow rate.

In the electrolytic seawater supply device of the marine ballast water treatment system according to the present invention, the additional seawater supply unit (200) may include an electrolytic seawater supply unit (40) extending from the antihealing tank (120) A second additional inflow line 220 connected to the additional supply line 300 of the second additional inflow line 300; An intermittent valve (221 or 222) for opening and closing the second additional inflow line (220); A flow control valve 223 and an additional feed pump 240 which are sequentially installed in the second additional inflow line 220 on the downstream side of the stop valve 221 or 222; And a flow meter 250 installed on the second additional inflow line 210 downstream of the additional feed pump 240 for detecting the flow rate.

In the electrolytic seawater supply apparatus for a ship ballast water treatment system according to the present invention, the additional seawater supply unit 200 is extended from the after-peak tank 110 of the ship to supply additional supply of the electrolytic seawater supply unit 40 A first additional inflow line 210 connected to line 300; A second additional inflow line (220) extending from the anti-healing tank (120) of the ship and joining the first additional inflow line (210); An intermittent valve (212) (222) installed in the first additional inflow line (210) and the second additional inflow line (220) for selectively opening and closing each line; Flow control valves 213 and 223 installed in the first and second additional inflow lines 210 and 220 on the downstream side of the respective stop valves 212 and 222; An additional feed pump (240) installed in a first additional inflow line (210) downstream of the confluence point of the second additional inflow line (220); And a flow meter 250 installed in the first additional inflow line 210 downstream of the additional feed pump 240 for detecting the flow rate.

According to the electrolytic water seawater supply apparatus of the present invention, when the ship is difficult to take the seawater having the adequate salinity by anchoring in the low salinity region, the seawater is supplied to the after peak tank or the anti- By supplying the ballast water to the electrolytic seawater, the electrolytic seawater having a proper salinity can be stably supplied irrespective of the operating area of the ship, and the electrolytic water production concentration can be uniformly maintained at the design level.

1 is a diagram showing piping and components of a conventional ship ballast water treatment apparatus.
2 is a diagram showing a configuration of an electrolytic seawater supply device according to the present invention.
3 is a side view of the ship schematically showing the partitioning state of the ballast tanks.
Fig. 4 is a plan view of a ship which schematically shows the partitioning state of the ballast tanks. Fig.
5 is a diagram showing a configuration of an additional sea water supply unit according to the present invention.

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

2 is a diagram showing a configuration of an electrolytic bath water supply apparatus according to the present invention.

2, in the electrolytic seawater supply device according to the present invention, the seawater supply line for mainly supplying the electrolytic seawater supply unit 40 is connected to the electrolytic seawater supply unit 40 from the seawater inlet 2 One of the first main sea water supply line 6a connected to the main ballast line 10 and the second main sea water supply line 6b connected from the downstream side of the filter 30 of the main ballast line 10 to the electrolytic seawater supply unit 40 Or both the first main sea water supply line 6a and the second main sea water supply line 6b.

First and second intermittent valves 7a and 7b for opening and closing the respective lines are provided in the first main sea water supply line 6a and the second main sea water supply line 6b.

The second main seawater supply line 6b is connected to the first main seawater supply line 6a and the second main seawater supply line 6b is connected to the first main seawater supply line 6a when the first main sea water supply line 6a and the second main sea water supply line 6b are both provided, In addition to the first and second intermittent valves 7a and 7b for selectively opening and closing the respective lines, a flow rate (flow rate) at the connection point between the first main sea water supply line 6a and the second main sea water supply line 6b, A regulating valve 7c is provided to regulate the flow rate of the electrolytic seawater entering the electrolytic seawater supply unit 40.

In addition to the main sea water supply line, an additional sea water supply unit 200 constituting a separate line from the first main sea water supply line 6a and the second main sea water supply line 6b is provided.

The additional seawater supply unit 200 is for supplying ballast water having a normal salinity level that is pre-filled in the ballast tank of the ship when the ship is anchored in the low salinity region and the salinity of the seawater is low.

An additional supply line 300 for connecting the electrolytic seawater supply unit 40 from the additional seawater supply unit 200 to selectively open and close the main seawater supply lines 6a and 6b and the additional supply line 300, A control valve 302 is installed.

2 to 4, the additional seawater supply unit 200 may be an after-peak tank (APT) 110 or an anti-healing tank (AHT) among the ballast tanks of a ship, But may be supplied from other specific ballast tanks instead of after-peak tanks or anti-healing tanks. For example, in the side ballast tanks 130 adjacent to the engine room It can be one or more than two.

As shown in FIGS. 3 and 4, the after-peak tank 110 is a ballast tank provided at the rear of the stern bulkhead. Since the ballast tank is filled with ballast water in the normal salinity region, the after-peak tank 110 always maintains a high degree of saltiness.

3 and 4, the anti-healing tank 120 is a ballast tank installed at a midway point in the longitudinal direction of the hull, and is connected to the balance tank It is a ballast tank to prevent the ship from tilting to the left or right by keeping the balance by controlling water quantity. Since the anti-healing tank 120 is filled with the ballast water in the normal salinity region in advance, high saltiness is always maintained.

Since the seawater having low salinity is taken into the seawater inlet 2 and the main ballast line 10 when the ship is in the low salt area, instead of supplying the seawater taken therefrom to the electrolytic bath 50, It is possible to supply the electrolytic bath 50 with high-salt ballast water preliminarily filled in the tank 110 or the anti-healing tank 120 to prevent the electrolytic efficiency from being lowered and generate electrolytic water at a high concentration, So that sterilization of the ballast water is normally performed.

5 is a diagram showing a configuration of an additional sea water supply unit according to the present invention.

5, when only the after-peak tank 110 is used, the additional seawater supply unit 200 is connected to the additional supply line 300 of the electrolytic seawater supply unit 40, which is extended from the after-peak tank 110 of the ship, A first additional inflow line 210 is provided.

The first additional inflow line 210 is provided with an intermittent valve 211 or an intermittent valve 212 for opening and closing the first additional inflow line 210 on the outside or inside of the additional seawater supply unit 200.

A flow control valve 213 is provided in the first additional inflow line 210 downstream of the control valve 211 or 212 and an additional feed pump 240 is provided downstream of the flow control valve 213 .

A flow meter 250 is installed in the first additional inflow line 210 on the downstream side of the additional supply pump 240 and detects the flow rate into the electrolytic seawater supply unit 40 through the flow meter 250 , The flow control valve 213 and the additional supply pump 240 are controlled based on the detected value so that a constant flow rate can be always supplied.

Alternatively, in the case of using only the anti-healing tank 120, the additional seawater supply unit 200 may be provided with an additional healing tank 120 extending from the anti-healing tank 120 of the ship and being connected to the additional supply line 300 of the electrolytic seawater supply unit 40 A second additional inflow line 220 is provided.

The second additional inflow line 220 is provided with an intermittent valve 221 or an intermittent valve 222 for opening and closing the second additional inflow line 220 on the outside or inside of the additional seawater supply unit 200.

A flow control valve 223 is provided in the second additional inflow line 220 downstream of the control valve 221 or 222 and an additional feed pump 240 is provided downstream of the flow control valve 223 .

A flow meter 250 is installed in the second additional inflow line 220 on the downstream side of the additional supply pump 240 and detects the flow rate into the electrolytic seawater supply unit 40 through the flow meter 250 , The flow control valve 213 and the additional supply pump 240 are controlled based on the detected value so that a constant flow rate can be always supplied.

If the after-peak tank 110 and the anti-healing tank 120 can both be used, the additional seawater supply unit 200 is extended from the after-peak tank 110 of the ship, A second additional inflow line 210 connected to the additional supply line 300 of the unit 40 and a second additional inflow line 210 extending from the anti- And an additional inflow line 220.

The first additional inflow line 210 and the second additional inflow line 220 are provided with intermittent valves 212 and 222 for selectively opening and closing the respective lines.

Flow control valves 213 and 223 are provided in the first and second additional inflow lines 210 and 220 on the downstream side of the respective intermittent valves 212 and 222 and the flow control valves 213 and 223 are provided in the second additional inflow line 220 An additional feed pump 240 is installed in the first additional inflow line 210 downstream of the confluence point and a flow meter 250 is installed in the first additional inflow line 210 downstream of the additional feed pump 240 .

The control valve 302 of the additional supply line 300 entering the electrolytic seawater supply unit 40 from the additional seawater supply unit 200 is shut off when the ship is in a region where the salinity is maintained at the normal salinity, One of the first intermittent valve 7a of the supply line 6a and the second intermittent valve 7b of the second main sea water supply line 6b is opened and one of them is closed to supply the electrolytic seawater to the main seawater supply line 6a Or 6b.

The first and second intermittent valves 7a and 7b of the first main sea water supply line 6a and the second main sea water supply line 6b are all closed when the ship is in the low salt area and the additional seawater supply unit 200 is operated to supply the electrolytic seawater from one of the after-peak tank 110 and the anti-healing tank 120.

5, one of the first additional inflow line 210 extending from the after peak tank 110 or the second additional inflow line 220 extending from the anti-healing tank 120 is opened. That is, either the intermittent valve 211 or 212 provided on the first additional inflow line 210 or the intermittent valve 221 or 222 provided on the second additional inflow line 220 is opened and the other is opened.

Therefore, by operating the additional supply pump 240, the ballast water of high salinity stored in advance in the after-peak tank 110 or the anti-healing tank 120 flows into the electrolytic seawater supply unit 40, And supplies it to the electrolytic bath 50 from the unit 40.

Since the seawater having low salinity is taken into the seawater inlet 2 and the main ballast line 10 when the ship is in the low salt area, instead of supplying the seawater taken therefrom to the electrolytic bath 50, It is possible to prevent the lowering of the electrolytic efficiency and the generation of the electrolytic water of high concentration by supplying the electrolytic bath 50 with the ballast water of high salinity preliminarily filled in the tank 110 or the antihealing tank 120, And thus sterilization of the ballast water is normally performed.

The foregoing is a description of certain preferred embodiments of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, .

2: Seawater inlet
4: Ballast tank
6a: First main water supply line
6b: Second main water supply line
7a: First intermittent valve
7b: Second intermittent valve
7c: Flow control valve
10: Main ballast line
11: 1st bypass line
12: second bypass line
20: Ballast pump
30: Filter unit
40: electrolytic water supply unit
50: electrolytic unit
60: neutralizing agent supply unit
70: Overboard
110: After-peak tank
120: Anti-healing tank
200: Additional seawater supply unit
211, 212, 221, 222: intermittent valve
213, 223: Flow control valve
240: Additional feed pump
250: Flowmeter
300: Additional supply line
302: Control valve

Claims (7)

A seawater supply device for supplying electrolytic seawater to an electrolytic bath unit (50) for generating electrolytic water for sterilizing ship ballast water entering a ballast tank,
A first main water supply line 6a connected from the seawater inlet 2 to the electrolytic seawater supply unit 40;
An additional seawater supply unit 200 for supplying the ballast water stored in the ballast tank of the ship, constituting a separate line from the first main seawater supply line 6a;
An additional supply line 300 connected from the additional seawater supply unit 200 to the electrolytic seawater supply unit 40;
A first intermittent valve 7a provided in the first main sea water supply line 6a and a second intermittent valve 7b provided in the additional supply line 300a for selectively opening and closing the first main sea water supply line 6a and the additional supply line 300, And a control valve (302) installed in the electrolytic water tank. A seawater supply device for supplying electrolytic seawater to an electrolytic bath unit (50) for generating electrolytic water for sterilizing ship ballast water entering a ballast tank,
A second main sea water supply line (6b) connected from the downstream side of the filter (30) of the main ballast line (10) to the electrolytic seawater supply unit (40);
An additional seawater supply unit 200 for supplying the ballast water stored in the ballast tank of the ship, constituting a separate line from the second main seawater supply line 6b;
An additional supply line 300 connected from the additional seawater supply unit 200 to the electrolytic seawater supply unit 40;
A second intermittent valve 7b installed in the second main seawater supply line 6b and a second intermittent valve 7b provided in the additional supply line 300 for selectively opening and closing the second main sea water supply line 6b and the additional supply line 300, And a control valve (302) installed in the electrolytic water tank. A seawater supply device for supplying electrolytic seawater to an electrolytic bath unit (50) for generating electrolytic water for sterilizing ship ballast water entering a ballast tank,
A first main water supply line 6a connected from the seawater inlet 2 to the electrolytic seawater supply unit 40;
A second main sea water supply line (6b) extending from the downstream side of the filter (30) of the main ballast line (10) and connected to the first main sea water supply line (6a);
First and second intermittent valves 7a and 7b installed on the first main sea water supply line 6a and the second main sea water supply line 6b for selectively opening and closing the first and second water supply lines 6a and 6b;
A flow control valve 7c installed downstream of a connection point between the first main sea water supply line 6a and the second main sea water supply line 6b;
An additional seawater supply unit 200 for supplying the ballast water stored in the ballast tank of the ship, which forms a separate line from the first main sea water supply line 6a and the second main sea water supply line 6b, ;
An additional supply line 300 connected from the additional seawater supply unit 200 to the electrolytic seawater supply unit 40;
A control valve 302 installed on the additional supply line 300 for selectively opening and closing the additional supply line 300 with respect to the first main sea water supply line 6a and the second main sea water supply line 6b And an electrolytic water supply unit for supplying electrolytic water to the ballast water treatment system. 4. The method according to any one of claims 1 to 3,
Wherein the ballast tank storing the ballast water to be supplied through the additional seawater supply unit (200) is an after-peak tank (110) or an anti-healing tank (120). 4. The method according to any one of claims 1 to 3,
The additional seawater supply unit (200)
A first additional inflow line (210) extending from the after peak tank (110) of the ship and connected to an additional supply line (300) of the electrolytic seawater supply unit (40);
An intermittent valve (211 or 212) for opening / closing the first additional inflow line (210);
A flow control valve 213 and an additional feed pump 240, which are installed in turn on the first additional inflow line 210 downstream of the shutoff valve 211 or 212;
And a flow meter (250) installed on a first additional inflow line (210) downstream of the additional supply pump (240) and detecting a flow rate. 4. The method according to any one of claims 1 to 3,
The additional seawater supply unit (200)
A second additional inflow line (220) extending from the anti-healing tank (120) of the ballast tank of the ship and connected to the additional supply line (300) of the electrolytic seawater supply unit (40);
An intermittent valve (221 or 222) for opening and closing the second additional inflow line (220);
A flow control valve 223 and an additional feed pump 240 which are sequentially installed in the second additional inflow line 220 on the downstream side of the stop valve 221 or 222;
And a flow meter (250) installed in a second additional inflow line (210) downstream of the additional supply pump (240) for detecting a flow rate. 4. The method according to any one of claims 1 to 3,
The additional seawater supply unit (200)
A first additional inflow line (210) extending from the after-peak tank (110) of the ballast tank of the ship and connected to the additional supply line (300) of the electrolytic seawater supply unit (40);
A second additional inflow line (220) extending from the anti-healing tank (120) of the ship's ballast tanks and joining the first additional inflow line (210);
An intermittent valve 211 or 221 or intermittent valve 212 or 222 installed on the first additional inflow line 210 and the second additional inflow line 220 for selectively opening and closing the respective lines;
Flow control valves 213 and 223 installed in the first and second additional inflow lines 210 and 220 on the downstream side of the respective shut-off valves 211 and 221 or the intermittent valves 212 and 222;
An additional feed pump (240) installed in a first additional inflow line (210) downstream of the confluence point of the second additional inflow line (220);
And a flow meter (250) installed on a first additional inflow line (210) downstream of the additional supply pump (240) and detecting a flow rate.

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