WO2012008015A1 - Soluble-substance concentration system and method for operating a soluble-substance concentration system - Google Patents

Abstract

Disclosed is a soluble-substance concentration system whereby the treatment capacity of an evaporative concentration device is maintained even if an electricity demand decreases and a steam supply becomes insufficient or electricity-generation equipment stops and the steam supply stops. During normal operation, a gas-turbine electricity-generation device (11) both outputs electrical power (41) and discharges waste gas (31). Said waste gas (31) passes an auxiliary burner (40) and is provided to a waste-heat recovery boiler (12) as a hot gas (31). The waste-heat recovery boiler (12) generates steam (37) and provides said steam (37) to an evaporative concentration device (13). If the amount of steam supplied is determined to be insufficient, the auxiliary burner (16) activates. The auxiliary burner (16) heats the aforementioned waste gas (31) further, by using said waste gas as combustion air to burn additional fuel (22), and outputs a hot gas (32). Said hot gas (32) is provided to the waste-heat recovery boiler (12). This increases the amount of steam supplied from the waste-heat recovery boiler (12).

Description

Soluble substance concentration system and method of operating the soluble substance concentration system

The present invention relates to a system for concentrating soluble substances by evaporation, such as desalination of brackish water and seawater, and concentration of accompanying water generated when coal bed methane gas is obtained. The present invention relates to a system including an evaporative concentration facility using steam generated by utilizing exhaust heat.

Recently, coalbed methane gas has attracted attention as a new natural gas source. Coal bed methane gas is obtained by pumping the accompanying water contained in the coal bed with a screw pump installed in the well and separating the dissolved methane gas in the accompanying water. At this time, it is necessary to treat the accompanying water after the methane gas separation. Usually, accompanying water contains salts (sodium salt, calcium salt, silica, etc.), so there was a problem with irrigation water, use for greening, and draining into untreated rivers.

Therefore, using an evaporation-type concentrating facility such as MSF (multi-stage flash method) or MED (multi-effect evaporator), the accompanying water is separated into concentrated water and fresh water, and the reduced concentrated water is sent to the reservoir. There is a way to dispose. In addition, the accompanying water is first separated into concentrated water and fresh water using a reverse osmosis membrane type concentrator, and the concentrated water is further separated into highly concentrated water and fresh water using an evaporative concentrator, thereby further reducing the volume of the accompanying water to be discarded. There is a way to make it. The reverse osmosis membrane type concentrator has a problem that the operating cost increases when the concentration of a soluble substance such as salts increases. Therefore, when concentrating the accompanying water containing soluble substances such as salts to a high concentration, the application of the evaporation method is advantageous in terms of cost. However, since the evaporation method requires steam, it is desirable to install it together with the power generation equipment and use the exhaust heat of the power generation equipment. The vapor generated by making effective use of the exhaust heat from the power generation equipment is supplied to the evaporative concentration equipment.

In addition, the shortage of freshwater resources is becoming a problem worldwide. As countermeasures for this, attention has been paid to desalination treatment of brine and seawater. In the desalination treatment, salts (for example, sodium chloride) contained in brine or seawater, that is, soluble substances are concentrated, while fresh water is obtained. Even in this desalination treatment, the evaporation method may be advantageous as shown in Non-Patent Document 1 because the exhaust heat of the power generation equipment can be effectively used in the power and fresh water supply business (IWPP).

In the case of seawater desalination treatment, the effect of concentrated wastewater containing concentrated salts on the water environment is becoming a problem in both the evaporation method and the reverse osmosis membrane method. By completely evaporating and drying the concentrated waste water and crystallizing the soluble substance, the influence on the water environment can be reduced. Here, in order to evaporate and dry, heat energy is required, and it is useful to use the exhaust heat of the power generation equipment as means for supplying the heat energy. The vapor generated by making effective use of the exhaust heat from the power generation equipment is supplied to the evaporative concentration equipment.

As mentioned above, soluble substance concentration systems equipped with power generation facilities and evaporative concentration facilities are expected to increase in the future.

However, as described below, an imbalance may occur between the supply amount of steam generated by effectively using the exhaust heat of the power generation equipment and the steam demand of the evaporative concentration equipment.

Generally, the electric power produced by the power generation equipment is used for power sales or other equipment. In that case, the power demand can be fluctuated from the second or minute order to the day or month order. Since the power generation facilities are operated with less waste, such as partial load operation, the heat energy of the exhaust heat varies from the second or minute order to the day or month order. Further, since the power generation efficiency also depends on the atmospheric temperature of the intake air, the heat energy of exhaust heat also varies depending on the atmospheric temperature. As a result, the supply amount of steam generated by effectively using the exhaust heat of the power generation equipment also varies.

Also, since the power generation equipment has many moving parts such as rotating motion, it is necessary to periodically stop and perform maintenance. During the period when the power generation facility is stopped, exhaust heat cannot be obtained and steam is not supplied.

On the other hand, in the case of accompanying water treatment, the steam demand of the evaporative concentration equipment varies depending on the temporal fluctuation of the accompanying water intake. In the case of seawater desalination treatment or evaporation to dryness of seawater desalination concentrated water, the steam demand of the evaporative concentrator varies depending on the temporal fluctuation of freshwater demand.

Thus, in the soluble substance concentration system provided with the conventional power generation facility and the evaporative concentration facility, there has been a problem relating to the imbalance in the supply and demand of steam. In particular, when the steam supply is insufficient, the processing capacity of the evaporative concentration equipment is reduced. Further, when the power generation facility is stopped and the steam supply is lost, the evaporative concentration facility cannot be processed.

It is an object of the present invention to provide a soluble substance concentration system including a power generation facility and an evaporative concentration facility, even when power demand is reduced and steam supply is insufficient or when the power generation facility is stopped and there is no steam supply. Another object of the present invention is to provide a soluble substance concentration system capable of maintaining the processing capacity of an evaporative concentration facility and an operation method thereof.

(1) In order to achieve the above object, the present invention provides a gas turbine power generator, an exhaust heat recovery boiler that generates steam using hot gas having exhaust heat from the gas turbine power generator, and the exhaust heat recovery boiler. In a soluble substance concentration system comprising an evaporation type concentrating device for concentrating raw water containing a soluble substance using the steam supplied from as a heat source, steam supply assistance for further assisting the supply of steam to the evaporation type concentrating device Means.

In the present invention, the gas turbine power generator outputs electric power and exhausts the gas turbine power generator exhaust gas. The gas turbine power generator exhaust gas is supplied to the exhaust heat recovery boiler as a hot gas. The exhaust heat recovery boiler generates steam, and the generated steam is given to the evaporative concentrator. The evaporative concentrator concentrates raw water using this steam as a heat source.

Normally, there is a balance between the amount of steam supplied from the exhaust heat recovery boiler and the amount of steam required by the evaporative concentrator.

When the steam supply is insufficient or when the steam supply is stopped, the steam supply auxiliary means operates to assist the supply of steam to the evaporative concentrator. Thereby, the processing capacity of the evaporative concentration apparatus can be maintained.

(2) In the above (1), preferably, the steam supply auxiliary means has an auxiliary burner for supplying hot gas to the exhaust heat recovery boiler.

(3) In the above (1), preferably, the steam supply auxiliary means includes a second boiler that is provided separately from the exhaust heat recovery boiler and supplies steam to the evaporative concentrator.

(4) In the above (1), preferably, the steam supply auxiliary means generates a steam by a diesel generator capable of rapid start-up and a hot gas having exhaust heat from the diesel generator, and the evaporative concentration And a waste heat recovery boiler for a diesel generator for supplying steam to the apparatus.

(5) In order to achieve the above object, the present invention is an operation method of a soluble substance concentration system including a gas turbine power generation device, an exhaust heat recovery boiler, an evaporation type concentration device, and a steam supply auxiliary device. A power generation apparatus operation step in which the gas turbine power generation apparatus operates, a steam generation step in which the exhaust heat recovery boiler generates steam with a hot gas having exhaust heat generated in the power generation apparatus operation step, and In the evaporative concentrator, a concentration step of concentrating raw water containing a soluble substance with the steam generated in the steam generation step, a determination step of determining a shortage of steam supply in the concentration step, and the determination step, When it is determined that the steam supply amount is insufficient, the steam supply auxiliary device includes an auxiliary supply step of supplementarily supplying steam to the evaporative concentrator. To.

This allows the steam supply auxiliary device to operate even when the steam supply is insufficient due to a decrease in power demand or the like, and the processing capacity of the evaporative concentrator can be maintained.

(5) In order to achieve the above object, there is provided a method for operating a soluble substance concentration system comprising a gas turbine power generator, an exhaust heat recovery boiler, an evaporative concentrator, and a steam supply auxiliary device, A gas turbine power generator operates, the exhaust heat recovery boiler generates steam by a hot gas having exhaust heat from the gas turbine power generation apparatus, and the evaporative concentrator is supplied from the exhaust heat recovery boiler. A normal step of concentrating the raw water containing the soluble substance by the steam, a determination step of determining an operation state of the gas turbine power generation device in the normal step, and determining that the gas turbine power generation device is inoperative in the determination step In this case, the vapor supply auxiliary device supplies the vapor to the evaporative concentrator, and the evaporative concentrator includes the auxiliary supply step. The steam by-up, and a concentration step of concentrating the raw water containing dissolved substances.

This allows the steam supply auxiliary device to operate and maintain the processing capacity of the evaporative concentrator even when the steam supply stops due to a gas turbine power generation device stoppage or the like.

According to the present invention, in a soluble substance concentration system including a gas turbine power generation device and an evaporative concentration device, when the power demand decreases and the steam supply becomes insufficient, or the gas turbine power generation facility stops and there is no steam supply. Even in this case, the steam supply assisting means assists the supply of steam to the evaporative concentrator, so that the processing capacity of the evaporative concentrator can be maintained, and the accompanying water treatment, seawater desalination treatment, seawater desalination concentrated water is maintained. It is possible to concentrate soluble substances such as evaporation to dryness.

1 is a block diagram of a soluble substance concentration system according to a first embodiment. FIG. It is a block diagram of the soluble substance concentration system which concerns on 2nd Embodiment. It is a block diagram of the soluble substance concentration system which concerns on 3rd Embodiment.

<First embodiment>
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram of the soluble substance concentration system according to the first embodiment. The soluble substance concentration system includes, as a basic configuration, a gas turbine power generation device 11, an exhaust heat recovery boiler 12 that generates steam using hot gas having exhaust heat from the gas turbine power generation device 11, and the exhaust heat recovery boiler 12. And an evaporative concentrating device 13 for concentrating raw water containing a soluble substance using the steam supplied from as a heat source, and an auxiliary burner 16 as a characteristic configuration.

The auxiliary burner 16 is provided between the gas turbine power generator 11 and the exhaust heat recovery boiler 12.

The operation of the soluble substance concentration system during normal times (when the supply and demand of steam is balanced) will be explained.

The gas turbine power generator 11 is provided with a fuel 21 mainly composed of hydrocarbons. The gas turbine power generator 11 burns the fuel 21 and drives the generator to output electric power 41 and discharge the gas turbine power generator exhaust gas 31. The gas turbine power generator exhaust gas 31 has thermal energy and also has oxygen necessary for combustion.

通常 The auxiliary burner 16 does not operate during normal operation. The gas turbine power generator exhaust gas 31 passes through the auxiliary burner 16 and is given to the exhaust heat recovery boiler 12 as a hot gas 31.

Water 26 is further given to the exhaust heat recovery boiler 12. The exhaust heat recovery boiler 12 generates steam 37 by the heat energy of the hot gas 31 and the water 26. The hot gas 31 is discarded as exhaust heat recovery boiler exhaust gas 33 after giving thermal energy to the steam 37. The generated steam 37 is given to the evaporative concentrator 13.

On the other hand, raw water 50 (associated water, seawater, seawater desalinated concentrated water, etc.) is separated into fresh water 51 and concentrated water 52 by the reverse osmosis membrane concentrator 14. The fresh water 51 is discharged into a river or reused as irrigation water. The concentrated water 52 is supplied to the evaporative concentration device 13. In the present embodiment, the concentrated water 52 concentrated by the reverse osmosis membrane type concentrator 14 is supplied to the evaporative concentrator 13, but the raw water 50 may be directly supplied to the evaporative concentrator 13.

The evaporative concentrator 13 concentrates the concentrated water 52 (or raw water 50) using the supplied steam 37 as a heat source. The concentrated water 52 (or raw water 50) is separated into fresh water 53 and highly concentrated water 54. Fresh water 53 is discharged into rivers or reused as irrigation water. The highly concentrated water 54 is discharged to a storage facility or completely evaporated to dryness and crystallized.

Explain the operation of the soluble substance concentration system when the steam supply is insufficient.

If the supply of the steam 37 is insufficient due to a decrease in power demand or the like, the processing capacity of the evaporative concentrator 13 decreases. Therefore, the supply amount and demand amount of the steam 37 are always detected. If it is determined that the steam supply amount is insufficient, the auxiliary burner 16 operates.

The auxiliary burner 16 uses the gas turbine power generator exhaust gas 31 as combustion air, burns the additional fuel 22 and repels it, and outputs a hot gas 32. The hot gas 32 is given to the exhaust heat recovery boiler 12.

At this time, the heat energy of the hot gas 32 is larger than the heat energy of the hot gas 31 before the operation of the auxiliary burner 16 by the amount burned by the auxiliary burner 16, and as a result, the steam from the exhaust heat recovery boiler 12. Supply will increase.

Thereby, even when the steam supply is insufficient, the processing capability of the evaporative concentrator 13 can be maintained by the operation of the auxiliary burner 16.

Explain the operation of the soluble substance concentration system when the steam supply is stopped.

When the supply of the steam 37 is stopped due to the gas turbine power generation device 11 being stopped or the like, the evaporative concentration device 13 cannot be processed. Therefore, the operation status of the gas turbine power generator 11 is always detected. When it is determined that the gas turbine power generator 11 is not operating, the auxiliary burner 16 is operated.

The auxiliary burner 16 burns the additional fuel 22 to catch up, and outputs a hot gas 32. The hot gas 32 is given to the exhaust heat recovery boiler 12.

At this time, the hot gas 32 has sufficient thermal energy, and as a result, the exhaust heat recovery boiler 12 supplies the vapor 37 to the evaporative concentrator 13 so as to satisfy the vapor demand of the evaporative concentrator 13.

Thereby, even when the steam supply is stopped, the processing capability of the evaporative concentrator can be maintained by the operation of the auxiliary burner 16.

Even when the steam supply is insufficient or when the steam supply is stopped, by maintaining the processing capacity of the evaporative concentrator 13, soluble substances such as adjoining water treatment, seawater desalination treatment, and evaporation to dryness of seawater desalination concentrated water Can be concentrated.

<Second Embodiment>
A second embodiment of the present invention will be described with reference to the drawings.

FIG. 2 is a block diagram of the soluble substance concentration system according to the second embodiment. The soluble substance concentration system includes, as a basic configuration, a gas turbine power generation device 11, an exhaust heat recovery boiler 12 that generates steam using hot gas having exhaust heat from the gas turbine power generation device 11, and the exhaust heat recovery boiler 12. And an evaporation type concentrating device 13 for concentrating raw water containing a soluble substance using the steam supplied from as a heat source, and a second boiler 17 as a characteristic configuration.

The second boiler 17 is provided separately from the exhaust heat recovery boiler 12.

The operation of the soluble substance concentration system during normal times (when the supply and demand of steam is balanced) will be explained.

The gas turbine power generator 11 is provided with a fuel 21 mainly composed of hydrocarbons. The gas turbine power generator 11 burns the fuel 21 and drives the generator to output electric power 41 and discharge the gas turbine power generator exhaust gas 31. The gas turbine power generator exhaust gas 31 has thermal energy and also has oxygen necessary for combustion. The gas turbine power generator exhaust gas 31 is given to the exhaust heat recovery boiler 12 as a hot gas 31.

Water 26 is further given to the exhaust heat recovery boiler 12. The exhaust heat recovery boiler 12 generates steam 37 by the heat energy of the hot gas 31 and the water 26. The hot gas 31 is discarded as exhaust heat recovery boiler exhaust gas 33 after giving thermal energy to the steam 37. The generated steam 37 is given to the evaporative concentrator 12.

On the other hand, raw water 50 (associated water, seawater, seawater desalinated concentrated water, etc.) is separated into fresh water 51 and concentrated water 52 by the reverse osmosis membrane concentrator 14. Fresh water 52 is discharged into rivers or reused as irrigation water. The concentrated water 52 is supplied to the evaporative concentration device 13. In the present embodiment, the concentrated water 52 concentrated by the reverse osmosis membrane type concentrator 14 is supplied to the evaporative concentrator 13, but the raw water 50 may be directly supplied to the evaporative concentrator 13.

The evaporative concentrator 13 concentrates the concentrated water 52 (or raw water 50) using the supplied steam 37 as a heat source. The concentrated water 52 (or raw water 50) is separated into fresh water 53 and highly concentrated water 54. Fresh water 53 is discharged into rivers or reused as irrigation water. The highly concentrated water 54 is discharged to a storage facility or completely evaporated to dryness and crystallized.

Explain the operation of the soluble substance concentration system when the steam supply is insufficient.

If the supply of the steam 37 is insufficient due to a decrease in power demand or the like, the processing capacity of the evaporative concentrator 13 decreases. Therefore, the supply amount and demand amount of the steam 37 are always detected. If it is determined that the steam supply amount is insufficient, the second boiler 17 operates.

The second boiler 17 is given water 27, fuel 23, and air 25. The second boiler 17 generates steam 38 by the heat energy obtained by burning the fuel 23 and the water 27. The fuel 23 and the air 25 are discarded as boiler exhaust gas 34 after giving thermal energy to the steam 38. The generated vapor 38 is given to the evaporative concentrator 24.

That is, the steam 37 from the exhaust heat recovery boiler 12 and the steam 38 from the second boiler 17 are supplied to the evaporative concentrator 13, and the steam supply amount increases by the amount of the steam 37.

Thereby, even when the steam supply is insufficient, the processing capacity of the evaporative concentrator 13 can be maintained by the operation of the second boiler 17.

Explain the operation of the soluble substance concentration system when the steam supply is stopped.

When the supply of the steam 37 is stopped due to the gas turbine power generation device 11 being stopped or the like, the evaporative concentration device 13 cannot be processed. Therefore, the operation status of the gas turbine power generator 11 is always detected. When it is determined that the gas turbine power generator 11 is not operating, the exhaust heat recovery boiler 12 stops and the second boiler 17 operates.

The second boiler 17 is given water 27, fuel 23, and air 25. The second boiler 17 generates steam 38 by the heat energy obtained by burning the fuel 23 and the water 27. The generated vapor 38 is given to the evaporative concentrator 13.

That is, the second boiler 17 supplies the vapor 38 to the evaporative concentrator 13 so as to satisfy the vapor demand of the evaporative concentrator 13.

Thereby, even when the steam supply is stopped, the processing capability of the evaporative concentrator 13 can be maintained by the operation of the second boiler 17.

Even when the steam supply is insufficient or when the steam supply is stopped, by maintaining the processing capacity of the evaporative concentrator 13, soluble substances such as adjoining water treatment, seawater desalination treatment, and evaporation to dryness of seawater desalination concentrated water Can be concentrated.

<Third embodiment>
A third embodiment of the present invention will be described with reference to the drawings.

FIG. 3 is a block diagram of the soluble substance concentration system according to the third embodiment. The soluble substance concentration system includes, as a basic configuration, a gas turbine power generation device 11, an exhaust heat recovery boiler 12 that generates steam using hot gas having exhaust heat from the gas turbine power generation device 11, and the exhaust heat recovery boiler 12. And an evaporation type concentrating device 13 for concentrating raw water containing a soluble substance using the steam supplied from as a heat source. Further, as a characteristic configuration, a diesel generator 18 and an exhaust heat recovery boiler 19 for a diesel generator are provided. Prepare.

The diesel generator 18 and the exhaust heat recovery boiler 19 for the diesel generator are provided separately from the exhaust heat recovery boiler 12.

The operation of the soluble substance concentration system during normal times (when the supply and demand of steam is balanced) will be explained.

The gas turbine power generator 11 is provided with a fuel 21 mainly composed of hydrocarbons. The gas turbine power generator 11 burns the fuel 21 and drives the generator to output electric power 41 and discharge the gas turbine power generator exhaust gas 31. The gas turbine power generator exhaust gas 31 has thermal energy and also has oxygen necessary for combustion. The gas turbine power generator exhaust gas 31 and the hot gas 31 are given to the exhaust heat recovery boiler 12.

Water 26 is further given to the exhaust heat recovery boiler 12. The exhaust heat recovery boiler 12 generates steam 37 by the heat energy of the hot gas 31 and the water 26. The hot gas 31 is discarded as exhaust heat recovery boiler exhaust gas 33 after giving thermal energy to the steam 37. The generated steam 37 is given to the evaporative concentrator 11.

On the other hand, raw water 50 (associated water, seawater, seawater desalinated concentrated water, etc.) is separated into fresh water 51 and concentrated water 52 by the reverse osmosis membrane concentrator 14. The fresh water 51 is discharged into a river or reused as irrigation water. The concentrated water 52 is supplied to the evaporative concentration device 13. In the present embodiment, the concentrated water 52 concentrated by the reverse osmosis membrane type concentrator 14 is supplied to the evaporative concentrator 13, but the raw water 50 may be directly supplied to the evaporative concentrator 13.

The evaporative concentrator 13 concentrates the concentrated water 52 (or raw water 50) using the supplied steam 37 as a heat source. The concentrated water 52 (or raw water 50) is separated into fresh water 53 and highly concentrated water 54. Fresh water 53 is discharged into rivers or reused as irrigation water. The highly concentrated water 54 is discharged to a storage facility or completely evaporated to dryness and crystallized.

Explain the operation of the soluble substance concentration system when the steam supply is insufficient.

If the supply of the steam 37 is insufficient due to a decrease in power demand or the like, the processing capacity of the evaporative concentrator 13 decreases. Therefore, the supply amount and demand amount of the steam 37 are always detected. If it is determined that the steam supply amount is insufficient, the diesel generator 18 and the diesel generator exhaust heat recovery boiler 19 operate.

Fuel 24 is given to the diesel generator 18. The diesel generator 18 burns the fuel 24 and drives the generator to output electric power 42 and discharge the diesel generator exhaust gas 35. The diesel generator 18 can be started quickly and can respond quickly. The diesel power generator exhaust gas 35 has thermal energy and also has oxygen necessary for combustion. The gas turbine power generator exhaust gas 35 is provided as a hot gas 35 to the exhaust heat recovery boiler 19 for a diesel generator.

Further, water 28 is given to the exhaust heat recovery boiler 19 for the diesel generator. The diesel generator exhaust heat recovery boiler 19 generates steam 39 by the thermal energy of the hot gas 35 and the water 28. The hot gas 35 gives heat energy to the steam 39 and is then discarded as exhaust heat recovery boiler exhaust gas 36 for a diesel generator. The generated steam 39 is given to the evaporative concentrator 13.

That is, the steam 37 from the exhaust heat recovery boiler 12 and the steam 39 from the diesel generator exhaust heat recovery boiler 19 are supplied to the evaporative concentrator 11, and the steam supply amount increases by the amount of the steam 39.

Thereby, even when the steam supply is insufficient, the processing capacity of the evaporative concentrator 13 can be maintained by the operation of the diesel generator 18 and the exhaust heat recovery boiler 19 for the diesel generator.

Explain the operation of the soluble substance concentration system when the steam supply is stopped.

When the supply of the steam 37 is stopped due to the gas turbine power generation device 11 being stopped or the like, the evaporative concentration device 13 cannot be processed. Therefore, the operation status of the gas turbine power generator 11 is always detected. When it is determined that the gas turbine power generation device 11 is not operating, the exhaust heat recovery boiler 12 stops and the diesel generator 18 and the exhaust heat recovery boiler 19 for diesel generator operate.

The diesel generator exhaust heat recovery boiler 19 is supplied with water 28 and hot gas 35 from the diesel generator 18. The diesel generator exhaust heat recovery boiler 19 generates steam 39 by the thermal energy of the hot gas 35 and the water 28. The generated steam 39 is given to the evaporative concentrator 13.

That is, the exhaust heat recovery boiler 19 for the diesel generator supplies the steam 39 to the evaporative concentrator 13 so as to satisfy the steam demand of the evaporative concentrator 13.

Thereby, even when the steam supply is stopped, the processing capacity of the evaporative concentrator 13 can be maintained by the operation of the diesel generator 18 and the exhaust heat recovery boiler 19 for the diesel generator.

Even when the steam supply is insufficient or when the steam supply is stopped, by maintaining the processing capacity of the evaporative concentrator 13, soluble substances such as adjoining water treatment, seawater desalination treatment, and evaporation to dryness of seawater desalination concentrated water Can be concentrated.

DESCRIPTION OF SYMBOLS 11 Gas turbine power generator 12 Waste heat recovery boiler 13 Evaporation type concentrator 14 Reverse osmosis membrane type concentrator 16 Auxiliary burner 17 Second boiler 17
18 Diesel generator 19 Diesel generator exhaust heat recovery boiler 21-24 Fuel 25 Air 26-28 Water 31-36 Exhaust gas (hot gas)
37 to 39 Steam 41 to 42 Electric power 50 Raw water 51, 53 Fresh water 52 Concentrated water 54 High concentrated water

Claims (6)

1. A gas turbine power generation device (11), a heat recovery steam generator (12) that generates steam from a hot gas (31) having heat exhausted from the gas turbine power generation device, and steam supplied from the heat recovery steam generator (12) 37) a soluble substance concentration system comprising an evaporative concentration device (13) for concentrating raw water (50, 52) containing a soluble substance using as a heat source;
   The soluble substance concentrating system further comprises steam supply assisting means (16, 17, 18, 19) for assisting the supply of steam to the evaporative concentrator.
2. The soluble substance concentration system according to claim 1,
   The steam supply auxiliary means has an auxiliary burner (16) for supplying a hot gas (32) to the exhaust heat recovery boiler (12).
3. The soluble substance concentration system according to claim 1,
   The steam supply auxiliary means includes a second boiler (17) that is provided separately from the exhaust heat recovery boiler (12) and supplies the steam (38) to the evaporative concentrator (13). Sexual substance concentration system.
4. The soluble substance concentration system according to claim 1,
   The steam supply auxiliary means generates a steam by a diesel generator (18) that can be started rapidly and a hot gas (35) having exhaust heat from the diesel generator, and supplies the steam to the evaporative concentrator (13). A soluble substance concentrating system comprising a diesel generator exhaust heat recovery boiler (19) for supplying steam (39).
5. A soluble substance concentration system including a gas turbine power generation device (11), an exhaust heat recovery boiler (12), an evaporation type concentration device (13), and a steam supply auxiliary device (16, 17, 18, 19). An operation method,
   A power generator operating step in which the gas turbine power generator (11) operates;
   A steam generation step in which the exhaust heat recovery boiler (12) generates steam from the hot gas (31) having exhaust heat generated in the power generation device operation step;
   A concentration step in which the evaporative concentrator (13) concentrates raw water (50, 52) containing a soluble substance with the steam (37) generated in the steam generation step;
   A determination step of determining a shortage of steam supply in the concentration step;
   In the determination step, when it is determined that the steam supply amount is insufficient, the steam supply auxiliary device (16, 17, 18, 19) supplementarily supplies steam to the evaporative concentrator. Operation method of soluble substance concentration system.
6. A soluble substance concentration system including a gas turbine power generation device (11), an exhaust heat recovery boiler (12), an evaporation type concentration device (13), and a steam supply auxiliary device (16, 17, 18, 19). An operation method,
   The gas turbine power generator (11) operates, and the exhaust heat recovery boiler (12) generates steam from the hot gas (31) having exhaust heat from the gas turbine power generator, and the evaporative concentrator. (13) is a normal step of concentrating raw water (50, 52) containing a soluble substance by the steam (37) supplied from the exhaust heat recovery boiler;
   A determination step of determining an operation state of the gas turbine power generator (11) in the normal step;
   When it is determined in the determination step that the gas turbine power generation device is not operating, the steam supply auxiliary device (16, 17, 18, 19) supplies the vapor to the evaporative concentrator, and an auxiliary supply step,
   The evaporative concentration apparatus (13) has a concentration step of concentrating the raw water containing the soluble material by the steam in the auxiliary supply step.

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