KR20170040943A - Heat transfer midium circulation system and method for providing heat source to the fresh water generator - Google Patents

Abstract

The present invention provides a heat transfer medium circulation system for supplying a heat source to a fresh water generator and an operation method for the same. The heat transfer medium circulation system for supplying a heat source can effectively and stably supply a heat source for manufacturing fresh water without being influenced by an operation situation of an engine or the existence of the engine in a fresh water generator. Therefore, the heat transfer medium circulation system for supplying a heat source to a fresh water generator can improve capacity of producing the fresh water and can stabilize the system. According to the present invention, the heat transfer medium circulation system for supplying a heat source to a fresh water generator includes: the fresh water generator (10) including an evaporation unit (12) and a condensing unit (14); a heat transfer medium supply unit (100) providing a heat transfer medium used in the evaporation unit (12); a heat transfer medium supply line (110) connecting an inlet of the heat transfer medium of the evaporation unit (12) and the heat transfer medium supply unit (100); a heat transfer medium collection line (120) connecting the heat transfer medium supply unit (100) from an outlet of the heat transfer medium of the evaporation unit (12); a circulation pump module (200) installed in one among the heat transfer medium supply unit (100) and the heat transfer medium collection line (120) and circulating the heat transfer medium; and a heat transfer medium circulation control unit (600) performing a control motion of the circulation pump module (200). The heat transfer medium supply unit (100) comprises: a press tank (130) maintaining water supply at a predetermined water level; a pressing line (132) connecting the press tank (130) to the heat transfer medium supply line (110); a water supply line (136) supplying the water to the press tank (130); and a pressing line (140) for applying pressure to the water in the press tank (130).

Description

TECHNICAL FIELD [0001] The present invention relates to a heat medium circulation system for supplying a hot water source, and a method of operating the same. [0002]

The present invention relates to an apparatus and method for efficiently and stably supplying fresh water producing heat sources irrespective of the presence of an engine or an engine operating condition in a water generator, System and a method of operating the same.

The fresh water generator is a facility that evaporates seawater and produces fresh water from the domestic water necessary for the ship. It is designed to evaporate (boil) under low pressure by introducing seawater into the water generator and condense the produced steam, .

An example of a ship's fresh water generator is drawn as a heating medium by drawing high-temperature (usually around 90 ° C or so) engine cooling water while passing through a water jacket and a cylinder head of the engine.

The engine cooling water, which is a heating medium, is supplied to the evaporator of the water purifier to provide the evaporation heat to the seawater, and the vapor evaporated in the evaporator is sent to the condenser through the moisture separator to condense the water by heat exchange with seawater .

Such a fresh water generator uses engine cooling water as a heating medium, so that the fresh water generator can not be operated when the engine is stopped. In addition, even when the engine is under low load operation, the circulation speed of the heating medium is slow, making it difficult to operate the fresh water heater. For these reasons, it is difficult to provide sufficient fresh water on board.

In addition, since the flow of the engine cooling water circulating through the water jacket of the engine and the cylinder head becomes uneven according to the operating state of the engine (for example, high load and low load operation), it is difficult to continuously produce a desired amount of fresh water.

Korean Patent Publication No. 10-2010-0031975 Korean Patent Laid-Open Publication No. 10-2013-0110277 Korean Patent Publication No. 10-2010-0031975

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problem of unreasonably stopping operation of the water purifier by continuously and reliably supplying a heat source for producing fresh water without regard to the presence of an engine or an engine operating condition And to provide a heating medium circulation system and a method of operating the heating medium circulation system.

Another object of the present invention is to stabilize the entire spirit medium circulation system by allowing the circulating heating medium to always be pressurized to a predetermined pressure condition and attenuating the pressure change to make the flow uniform.

It is another object of the present invention to increase the efficiency of the fresh water heater and the engine by regulating the temperature of the water heater inflow heat medium and adjusting the temperature of the heat medium flowing into the engine.

In order to achieve the above-mentioned object, a heating medium circulation system for supplying a generator heat source according to the present invention comprises a water generator (10) having an evaporator (12) and a condenser (14); A heating medium supply unit 100 for providing a heating medium to be used in the evaporation unit 12; A heating medium supply line 110 connecting the heating medium supply unit 100 and the heating medium inlet of the evaporation unit 12; A heating medium collecting line 120 connecting the heating medium supplying unit 100 from the heating medium outlet of the evaporator 12; A circulation pump module 200 installed in the line of the heating medium supply unit 100 or the heating medium recovery line 120 to circulate the heating medium; A heating medium circulation control unit 600 for performing a control operation of the circulation pump module 200; Wherein the heating medium supply unit 100 includes a pressurization tank 130 for maintaining the water supply at a predetermined level, a pressurization line 132 for connecting the heating medium supply line 110 from the pressurization tank 130, A water supply line 136 for supplying water to the pressurizing tank 130 and a pressurization line 140 for applying pressure to the water in the pressurization tank 130.

In the heating medium circulation system for supplying the humidifier heat source according to the present invention, the system further includes a steam heater (300) connected to the heating medium supply line (110) to further raise the temperature of the heating medium; The heating medium circulation control unit 600 performs a control operation of selecting a line passing through the steam heater 300 in accordance with the temperature of the heating medium at the inlet side of the evaporator 12 of the water purifier 10.

In the heat medium circulation system for supplying the generator heat source according to the present invention, the heat medium supply unit 100 further includes an engine 102; The starting end of the heating medium supply line 110 is connected to the engine cooling water discharge side of the engine 102 and the end of the heating medium recovery line 120 is connected to the engine cooling water inflow side of the engine 102 can do.

In the heating medium circulation system for supplying the generator heat source according to the present invention, the heating medium recovery line 120 is provided with a preheater 400 for raising the temperature of the heating medium flowing into the engine 102 under the control of the control unit 600 .

An engine bypass line 150 for connecting the heat medium supply line 110 and the heat medium recovery line 120 to bypass the engine 102 in the heat medium circulation system for supplying the generator heat source according to the present invention; A line that flows into the engine 102 under the control of the control unit 600 and the engine bypass line 150 in accordance with the engine circulation mode via the engine 102 and the engine bypass mode that bypasses the engine 102 It is preferable to include an engine bypass valve 152 and an engine circulation valve 156 that selectively open and close.

In the heat medium circulation system for supplying the generator heat source according to the present invention, the inlet-side heating medium supply line 110 and the outlet-side heating medium recovery line 120 of the evaporator 12 of the water generator 10 are detour- And a generator detour line (160) for bypassing the water generator (10); A heating medium supply line 110 for entering the evaporator 12 and an opening and closing valve 112 and a generator bypass valve 162 for selectively opening and closing the generator bypass line 160. [

In the heat medium circulation system for supplying the generator heat source according to the present invention, the circulation pump module 200 includes two or more parallel pumps 210, and detects the pressure at the inlet and the outlet of each pump 210 A pressure gauge 216; The controller 600 determines that the pump is in failure if the differential pressure exceeds the reference range in accordance with the differential pressure between the inlet-side pressure gauge and the outlet-side pressure gauge of each pump 210, and selects the pump whose differential pressure is within the reference range desirable.

The operation method of the heating medium circulation system for supplying the generator heat source according to the present invention comprises the steps of: (S12) determining whether the engine is operating when the generator 10 is operated by the operator; If the engine is in operation, determining whether the heat medium circulation mode input from the operator is an engine circulation mode or an engine bypass mode (S13); Determining whether the temperature of the heat medium flowing into the engine exceeds the reference temperature in the case of the engine circulation mode in the step S13; When the temperature of the heating medium flowing into the engine exceeds the reference temperature in the step S14, the engine circulation valve 156 is opened and the engine bypass valve 152 is closed to allow the heating medium to pass through the engine 102 Step S16; After step (S15) and step (S16), it is determined whether the temperature of the heating medium flowing into the fresh water heater is lower than a reference temperature (S18); If the temperature of the heating medium flowing into the water heater is lower than the reference temperature in the step S18, a step S19 of raising the temperature of the heating medium passing through the heating medium supply line 110 to the water injector 10 via the steam heater 300, ; .

In the operation method of the heat medium circulation system for supplying the generator heat source according to the present invention, when the engine bypass mode is selected in the step S13, the engine circulation valve 156 is closed and the engine bypass valve 152 is opened, It is possible to bypass the engine 102 through the engine bypass line 150 (S15), and then perform the above-described step S18.

In the operation method of the heating medium circulation system for supplying the generator heat source according to the present invention, when the temperature of the heating medium flowing into the engine 102 does not exceed the reference temperature in the step (S14), the preheater 400 is operated (S17) heating the temperature of the heating medium flowing into the engine to exceed the reference temperature.

According to the heating medium circulation system and the operating method for supplying the generator heat source according to the present invention, the heating medium can be supplied to the heating medium supply line by the pressurizing tank, or the heating medium can be supplemented to the heating medium supply line and a certain pressure is applied to the heating medium supply line 110, By maintaining the pressure and flow rate of the heating medium flowing throughout the heating medium circulation system constantly or uniformly, the control accuracy is enhanced and the flow is stabilized.

In addition, since the fresh water generator can be operated in two modes of the engine circulation mode and the engine bypass mode, the fresh water generator can be continued without stopping the engine even when the engine is stopped or the engine is running low. Therefore, the production capacity of fresh water can be maximized.

When the temperature of the heating medium flowing into the engine through the preheater is lower than the reference temperature (for example, at the start of the engine), the heating medium is heated through a separate heat source to shorten the engine warm- Time can be shortened.

In addition, by providing the steam heater 300 in the heating medium supply line and allowing the temperature of the heating medium entering the fresh water heater to pass through when the temperature of the heating medium does not reach the reference temperature, the temperature of the heating medium can be quickly and accurately reached.

1 is a flow diagram of a heat medium circulation system for supplying a generator heat source according to a first embodiment of the present invention.
FIG. 2 is a flowchart illustrating an operation of a circulation system for a heating medium supply source for supplying an auxiliary generator according to an embodiment of the present invention. Referring to FIG.
3 is a schematic diagram of a heat medium circulation system for supplying a generator heat source according to a second embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a heat medium circulation system for supplying a generator heat source and an operation method thereof according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of a heat medium circulation system for supplying a generator heat source according to a first embodiment of the present invention.

1, a heating medium circulation system for supplying a generator heat source according to the present invention includes a water heater 10, a heating medium supplying unit 100, a heating medium supplying line 110, a heating medium collecting line 120, a circulating pump module 200 and a heat medium circulation control unit 600.

The water generator 10 has an evaporator 12 for heating the introduced seawater to evaporate the low pressure and a condenser 14 for condensing the vapor evaporated in the evaporator 12 to produce fresh water. The evaporator 12 is a heat exchanger for transferring the heat of the heating medium to seawater and evaporating the condensed water. The condenser 14 cools and condenses the steam by heat transfer by the cooling water (seawater) Wealth.

The heating medium supply unit 100 is a heating medium supply source for supplying a heating medium (e.g., engine number) circulating through the evaporator 12 of the water purifier 10.

The heating medium supply line 110 is a heating medium supply line through which the heating medium supplied from the heating medium supplying unit 100 flows and flows into the inlet of the evaporator 12 of the water generator 10. [

The heat medium recovery line 120 is a conduit for returning the heat medium coming from the outlet to the heat medium supply part 100 via the evaporator 12 of the water generator 10.

That is, the heating medium flows from the heating medium supply unit 100 to the heating medium supply line 110, flows into the evaporator 12 of the water generator 10, and is heat-exchanged to evaporate seawater in the evaporator 12 And then flows along the heating medium collecting line 120 to return to the heating medium supplying section 100.

The circulation pump module 200 for circulating the heating medium is installed in any one of the heating medium supply unit 100 and the heating medium collecting line 120. Fig. 1 shows an example in which the circulation pump module 200 is installed in the heating medium collection line 120. Fig. When the circulation pump module 200 is installed in the heat medium recovery line 120, the heating medium is pushed and sent to the engine 102, so that a shortage of the heating medium (engine cooling water) of the engine 102 does not occur, On the other hand, the amount and temperature of the heat medium coming from the engine 102 are kept constant, so that the performance and the efficiency of the whole system can be maintained in an excellent state.

A steam heater 300 is installed in the heating medium supply line 110, that is, the heating medium supply line 110 between the heating medium supply unit 100 and the water tub 10. Steam generated in a steam generator such as a ship boiler flows into the steam heater 300 through a steam supply line 330, passes through an internal heat exchanger, and is returned through a steam return line 340. Steam circulation valves 332 and 342 are installed in the steam supply line 330 and the steam return line 340 to open and close the circuit, respectively. A heater inflow line 310 for introducing the heating medium from the heating medium supply line 110 to the steam heater 300 and a heating medium having a raised temperature through the heat exchanger in the steam heater 300 are disposed on the opposite side of the steam heater 300 And a heater outlet line 320 for returning to the heating medium supply line 110 is connected. Thus, the steam heater 300 further heats the heating medium to reach the reference temperature by allowing the heating medium to flow when the temperature of the heating medium entering the manipulator 10 does not reach the reference temperature. The heater inflow line 310 and the heater inflow line 320 are provided with heater circulation valves 312 and 322, respectively.

A direct coupling valve 350 is installed in the heating medium supply line 110 between the heater inlet line 310 and the heater outlet line 320. The heating medium circulates through the steam heater 300 by selectively opening and closing the direct connection valve 350 and the heater circulation valves 312 and 322 or through the heating medium supply line 110 without passing through the steam heater 300 .

The heating medium circulation control unit 600 controls the operation of selecting the line passing through the steam heater 300 according to the temperature of the heating medium at the inlet side of the evaporator 12 of the water purifier 10, Control operation, and overall control of the heat medium circulation system.

The inlet temperature detector 114 detects the temperature of the heating medium entering the evaporator 12 and is disposed in the heating medium supply line 110 at the inlet side of the evaporator 12 of the water purifier 10 and controls the heating medium circulation controller 600, And provides basic data for selecting a line passing through the steam heater 300 and a direct line.

The outlet temperature detector 124 detects the temperature of the heating medium that is cooled and is supplied to the heating medium recovery line 120 on the outlet side of the evaporator 12 of the water purifier 10 to perform heat exchange in the evaporator 12, To the circulation control unit 600 to provide basic data for determining whether the preheater 400 will be described later and bypassing the engine 102 of the heating medium.

The temperature of the heating medium returned from the evaporator 12 to the engine 102 is detected at the outlet side of the evaporator 12 as described above, (On the downstream-side heat medium recovery line 120). According to this, the temperature is detected immediately before the heating medium enters the engine 102 after the temperature changes through the circulation pump module 200, and is utilized as the control basis data, thereby improving the engine efficiency or preventing the efficiency from deteriorating Can be performed.

In the present invention, the heating medium supply unit 100 may include a pressurization tank 130.

The pressurizing tank 130 maintains a certain level of water supply (e.g., water such as clear water and engine cooling water), replenishes a sufficient heat medium to the heat medium supply line 110, and pressurizes the heat medium supply line 110 at a constant pressure The pressure and the flow rate of the heat medium flowing through the entire heat medium circulation system are maintained constant or uniform, thereby increasing the precision of control and stabilizing the flow.

The pressurizing tank 130 has a water supply line 136 for supplying water into the pressurizing tank 130 and has a pressurization line 140 for applying a constant pressure to the water in the pressurization tank 130. Compressed air having a pressure of about 7 kgf / cm 2 is introduced from the pressurization line 140 to pressurize the feed water that maintains a certain water level in the pressurization tank 130 so that the pressure is delivered to the heat medium supply line 110 .

In addition, the pressurizing tank 130 absorbs the volume change according to the heating medium temperature in the entire circulation system including the heating medium supply line 110, the heating medium supply line 110 and the heating medium recovery line 120, Or to prevent intrusion, thereby stabilizing the flow and ensuring stable operation.

Since the compressed air is always supplied to the pressurizing tank 130 through the pressurizing line 140, the desired pressure energy (or pressure head) can be maintained even if the pressurizing tank 130 is installed at a low position The installation height of the pressurizing tank 130 is not limited.

An open / close valve 138 is provided in the pressurization line 132, an open / close valve 138 is provided in the water supply / supply line 136, and an open / close valve 142 is provided in the pressurization line 140.

In the present invention, the heating medium supply unit 100 may further include an engine 102. [

The starting end of the heating medium supply line 110 is connected to the engine cooling water discharge side of the engine 102 and the distal end of the heating medium recovery line 120 is connected to the engine cooling water inflow side of the engine 102. Therefore, the high temperature engine cooling water that has already been heated at a predetermined temperature (e.g., about 90 캜) while passing through the water jacket and the cylinder head of the engine is used as a heat medium required for the water purifier 10, thereby improving the thermal efficiency of the system.

The heating medium recovery line 120 may be provided with a preheater 400 for raising the temperature of the heating medium flowing into the engine 102 under the control of the control unit 600. [

The preheater 400 heats the heating medium through a separate heat source when the temperature of the heating medium flowing into the engine 102 is lower than the reference temperature (for example, at the start of engine startup) under the control of the control unit 600, And shortens the time required for raising the temperature of the water in the water tub (10).

The preheater 400 is connected to the preheater inflow line 410 for introducing the heating medium from the heating medium recovery line 120 and the preheater inflow line 420 for discharging the heating medium, Is provided with an on-off valve (412) 422). A direct valve 402 is installed in the heating medium recovery line 120 between the preheater inlet line 410 and the preheater outlet line 420.

The heating medium can be circulated through the preheater 400 by the selective opening and closing of the direct valve 402 and the preheater opening and closing valve 412 422 or the heating medium can be circulated through the heating medium recovery line 120 without passing through the preheater 400 Let it flow as it is.

The heating medium circulation control unit 600 performs a control operation of selecting a line passing through the preheater 400 according to the temperature of the heating medium entering the engine 102. [

The temperature detector TC detects the temperature of the heating medium entering the engine 102 and transmits the detected temperature to the heating medium circulation control unit 600 to provide basic data for selecting a line passing through the preheater 400 and a direct line.

In the present invention, an engine bypass line 150 connecting the heating medium supply line 110 and the heating medium recovery line 120 to bypass the engine 102 is provided.

A line that flows into the engine 102 under control of the control unit 600 and an engine bypass line 150 (hereinafter referred to as " engine bypass line ") according to an engine circulation mode via the engine 102 and an engine bypass mode An engine bypass valve 152 and an engine circulation valve 156 for selectively opening and closing a line bypassing the engine 102 via the bypass valve 152 and the engine circulation valve 156.

The choice of the engine bypass line 150 can be selected at engine shutdown, or even when the engine is operating at a low load below the reference load. Therefore, even when the engine is determined or under low load operation, the water purifier 10 can be continuously operated to produce clean water.

In the present invention, the water heater 10 bypasses the water generator 10 by bypassing the inlet-side heat medium supply line 110 and the outlet-side heat medium recovery line 120 of the evaporator 12 of the water generator 10, A bypass line 112 and a reservoir bypass valve 162 for selectively opening and closing the heating medium bypass line 160 and a heating medium supply line 110 for entering the evaporator 12 can do.

When the operation of the water purifier 10 is to be stopped or the water purifier 10 is not operated and the engine 102 is started to preheat the engine coolant through the preheater 400, , It can be selected to prevent the heating medium from leaking when the water purifier 10 is repaired.

In the present invention, the circulation pump module 200 may include two or more parallel pumps 210 and a pressure gauge 216 for detecting the pressures at the inlet and the outlet of each pump 210.

If the differential pressure exceeds the reference range in accordance with the differential pressure between the inlet-side pressure gauge and the outlet-side pressure gauge of each pump 210 connected in parallel, the controller 600 determines that the pump is in failure and the pump whose differential pressure is within the reference range can be selected . Therefore, it is possible to prepare for the failure of one pump 210, and when the pump pressure is low, all the pumps can be operated to adjust the pressure.

The deaerator 500 may be installed in the heating medium recovery line 120 between the water purifier 10 and the circulating pump module 200.

The deaerator 500 removes the air particles in the heating medium to prevent the vapor closing phenomenon in the heating medium circulation line to smoothly maintain the flow of the heating medium and maintain the flow rate constant to further stabilize the flow of the entire system.

FIG. 2 is a flowchart illustrating an operation of the circulation system for supplying heat source to the generator, according to an embodiment of the present invention.

Referring to FIGS. 1 and 2, when the water purifier 10 is operated by the system operator, the heating medium circulation control unit 600 determines whether the engine is in operation or not (S12).

If the engine is running, it is determined whether the heat medium circulation mode input from the operator is the 'engine circulation mode' or the 'engine bypass mode' (S13). The operator inputs the operation mode by operating the 'engine circulation mode' switch or the 'engine bypass mode' switch provided in the control panel while operating the water purifier 10.

If the engine circulation mode is selected in step S13, it is determined whether the temperature of the heat medium flowing into the engine exceeds a reference temperature (S14). The temperature of the heating medium inputted from the temperature detector TC on the inlet side of the engine 102 or the temperature of the heating medium inputted from the outlet temperature detector 124 provided on the outlet side of the evaporator 12 of the water purifier 10 Lt; / RTI > When the engine 102 is provided, it depends on the detection data input from the temperature detector TC.

If the temperature of the heat medium flowing into the engine exceeds the reference temperature in step S14, the engine circulation valve 156 is opened and the engine bypass valve 152 is closed to allow the heat medium to flow into the engine 102 (S16).

After the step S15 and the step S16, it is determined whether the temperature of the heating medium flowing into the water heater is below the reference temperature (S18).

When the temperature of the heating medium flowing into the water heater is less than the reference temperature, the heating medium entering the water generator 10 through the heating medium supply line 110 is heated via the steam heater 300 to increase the temperature (S19). At the same time, the steam heater 300 is driven, the direct-close valve 350 is closed, and the heater circulation valves 312 and 322 are opened.

In step S13, in the engine bypass mode, the engine circulation valve 156 is closed and the engine bypass valve 152 is opened to bypass the engine 102 through the engine bypass line 150 (S15). Subsequently, the process proceeds to step S18.

When the temperature of the heating medium flowing into the engine 102 does not exceed the reference temperature in step S14, the preheater 400 is operated so that the temperature of the heating medium flowing into the engine exceeds the reference temperature (S17). At this time, the direct-connection valve 402 is closed and the pre-heater circulation valves 412 and 422 are opened. This is performed when the temperature of the heating medium (i.e., the engine cooling water) is low at the initial start of the engine, so that the engine preheating time can be shortened and the temperature of the heating medium can be quickly raised to the normal temperature.

Next, FIG. 3 shows a flow diagram of a heat medium circulation system for supplying an assistant generator heat source according to a second embodiment of the present invention.

The system of the second embodiment shown in Fig. 3 shows a circuit configuration in a case where the engine 102 is not included in the heating medium supply portion 100. In Fig. This is a preferred embodiment to apply to a special line without an engine.

Since there is no engine, the preheater 400 is not necessary either.

The heating medium is supplied and replenished from the pressurizing tank 130.

The starting end of the heating medium supply line 110 is connected to the pressure line 132 and the terminal end of the heating medium recovery line 120 is also connected to the pressure line 132. [

The rest of the configuration and role are the same as those of the first embodiment, and a detailed description thereof will be omitted.

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, .

10: steam generator 12: evaporator
14: Condensation part `
100: heating medium supply unit 102: engine
110: heating medium supply line 112: opening / closing valve
114: inlet temperature detector 120: heating medium recovery line
122: opening / closing valve 124: outlet temperature detector
130: pressure tank 132: pressure line
134: opening / closing valve 136: additional heating medium line
138: opening / closing valve
140: pressure line 142: opening / closing valve
150: engine bypass line 152: engine bypass valve
154: check valve (154) 156: engine circulation valve
160: Sprinkler bypass line 162: Sprinkler bypass valve
200: circulation pump module 210: pump
212: opening / closing valve 214: intermittent valve
216: Manometer
300: steam heater 310: heater inflow line
312: heater circulation valve 320: heater outlet line
322: heater circulation valve 330: steam supply line
332: steam circulation valve 340: steam return line
342: steam circulation valve 350: direct valve
400: Preheater 402: Directly connected valve
410: preheater inlet line 412: preheater circulation valve
420: preheater outlet line 422: preheater circulation valve
500: Deaerator 600: Heat medium circulation control unit

Claims (10)

A water generator (10) having an evaporator (12) and a condenser (14);
A heating medium supply unit 100 for providing a heating medium to be used in the evaporation unit 12;
A heating medium supply line 110 connecting the heating medium supply unit 100 and the heating medium inlet of the evaporation unit 12;
A heating medium collecting line 120 connecting the heating medium supplying unit 100 from the heating medium outlet of the evaporator 12; And
A circulation pump module 200 installed in the line of the heating medium supply unit 100 or the heating medium recovery line 120 to circulate the heating medium;
A heating medium circulation control unit 600 for performing a control operation of the circulation pump module 200; Lt; / RTI >
The heating medium supply unit 100 includes a pressurization tank 130 for maintaining the water supply at a predetermined level, a pressurization line 132 for connecting the heating medium supply line 110 from the pressurization tank 130, And a pressurizing line (140) for applying pressure to the water in the pressurizing tank (130). The circulating system according to claim 1, wherein the pressurizing line (140) The method according to claim 1,
Further comprising a steam heater (300) connected to the heating medium supply line (110) for further raising the temperature of the heating medium,
The heating medium circulation control unit 600 performs a control operation of selecting a line passing through the steam heater 300 according to the temperature of the heating medium at the inlet side of the evaporator 12 of the water purifier 10 A circulation system of the heating medium for supplying the generator heat source. The method according to claim 1,
The heating medium supply unit 100 further includes an engine 102,
The starting end of the heating medium supply line 110 is connected to the engine cooling water discharge side of the engine 102 and the end of the heating medium recovery line 120 is connected to the engine cooling water inflow side of the engine 102 Characterized in that the heat medium circulation system for supplying the generator heat source. The method of claim 3,
The heating medium recovery line (120) is provided with a preheater (400) for raising the temperature of the heating medium flowing into the engine (102) under the control of the control part (600) . The method of claim 3,
An engine bypass line (150) connecting the heating medium supply line (110) and the heating medium recovery line (120) to bypass the engine (102);
The line bypassing the engine 102 and the line flowing into the engine 102 under the control of the control unit 600 in accordance with the engine circulation mode via the engine 102 and the engine bypass mode bypassing the engine 102, An engine bypass valve (152) and an engine circulation valve (156) for opening and closing the heating medium circulation system. The method of claim 3,
A bypass line connecting the inlet side heat medium supply line 110 and the outlet side heat medium recovery line 120 of the evaporator 12 of the water generator 10 to bypass the water heater 10, (160)
Wherein the control unit includes a heating medium supply line 110 for entering the evaporator 12 and an opening and closing valve 112 and a generator detour valve 162 for selectively opening and closing the generator bypass line 160. [ Heat - medium circulation system for supplying heat source. The method according to claim 1,
The method according to claim 1,
The circulation pump module (200)
Two or more parallel pumps 210 are provided,
And a pressure gauge 216 for detecting the pressures at the inlet and outlet of each pump 210,
The control unit 600 determines that the pump is in failure if the differential pressure exceeds the reference range in accordance with the pressure difference between the inlet pressure gauge and the outlet pressure gauge of each pump 210 and selects the pump whose differential pressure falls within the reference range A circulation system of the heating medium for supplying the generator heat source. A step S12 of judging whether the engine is running when the manipulator 10 is operated by the operator;
If the engine is in operation, determining whether the heat medium circulation mode input from the operator is an engine circulation mode or an engine bypass mode (S13);
Determining whether the temperature of the heat medium flowing into the engine exceeds the reference temperature in the case of the engine circulation mode in the step S13;
When the temperature of the heating medium flowing into the engine exceeds the reference temperature in the step S14, the engine circulation valve 156 is opened and the engine bypass valve 152 is closed to allow the heating medium to pass through the engine 102 Step S16;
After step (S15) and step (S16), it is determined whether the temperature of the heating medium flowing into the fresh water heater is lower than a reference temperature (S18); And
If the temperature of the heating medium flowing into the water heater is lower than the reference temperature in the step S18, a step S19 of raising the temperature of the heating medium passing through the heating medium supply line 110 to the water injector 10 via the steam heater 300, ; Wherein the heat medium circulation system for supplying the generator heat source comprises: 9. The method of claim 8,
If the engine bypass mode is selected in step S13, the engine circulation valve 156 is closed and the engine bypass valve 152 is opened to allow the heat medium to flow by bypassing the engine 102 through the engine bypass line 150 (S15), and then the step (S18) is performed. 9. The method of claim 8,
If the temperature of the heating medium flowing into the engine 102 does not exceed the reference temperature in the step S14, the preheater 400 is operated to heat the temperature of the heating medium flowing into the engine to exceed the reference temperature (S17). ≪ Desc / Clms Page number 20 >

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