KR20030042924A - Apparatus for supplying waste energy from fuel cell to boiler - Google Patents

Abstract

PURPOSE: An apparatus is provided to allow for ease of recovery and utilization of the waste energy generated from the fuel cell system. CONSTITUTION: An apparatus comprises a waste hot water storage tank(1) for storing the waste hot water generated from a fuel cell system; a unit for supplying the waste hot water stored in the waste hot water storage tank; and a unit for heating the water generated from a boiler including a waste energy recovery heat exchanger(2) mounted in the waste hot water storage tank. The waste hot water storage tank has sensors(7,8) for sensing the level of the waste hot water. The unit for supplying the waste hot water includes a pump(5) for supplying the waste hot water to a hot water heat exchanger, and a three-way valve(6) for selecting the waste hot water or the water supplied from an external source.

Description

Apparatus for Supplying Waste Energy from Fuel Cell to Boiler}

Field of invention

The present invention relates to a system that can recover and use waste heat of a fuel cell system. More specifically, the present invention relates to a system capable of recovering waste heat generated from a fuel cell system and supplying it to a conventional boiler for recycling.

Background of the Invention

When operating a fuel cell system, a large amount of waste heat is generally generated by cooling water. However, the waste heat is not recovered and used, but is wasted as it is, or even if used, it is partially used only for one purpose of heating or hot water. Therefore, many studies have been conducted to recover and recycle waste heat generated from fuel cell systems.

The inventors of the present invention have already developed a fuel cell cogeneration system that can use waste heat generated from a fuel cell system for heating and hot water supply, and applied for a patent application No. 2001-62735 (filed Oct. 11, 2001). . However, the present invention is a system that can recover the waste heat generated from the fuel cell system to be used for heating and hot water supply, and because it is not compatible with the conventional boiler device, it is not applicable to the conventional boiler device as it is, waste heat recovery device Of course, suitable boiler systems should also be developed.

Therefore, the present inventors have come to develop a new system that can easily recover and recycle the waste heat generated from the fuel cell system while using a conventional boiler apparatus already installed in a home or the like.

It is an object of the present invention to provide a system that can easily recover and recycle waste heat generated from a fuel cell system while using a conventional boiler device that is already installed.

Another object of the present invention is to provide a system capable of recycling waste heat generated from a fuel cell system into heating hot water or hot water supply water while using a conventional boiler device installed as it is.

The above and other objects of the present invention can be achieved by the present invention described in detail below.

1 is a schematic configuration diagram of an apparatus for recovering waste heat generated from a fuel cell system according to the present invention.

2 is a schematic configuration diagram of a conventional general domestic boiler device.

3 is a schematic configuration diagram of a system combining a waste heat recovery apparatus according to the present invention with a conventional general domestic boiler apparatus.

4 is a schematic configuration diagram showing a system using waste hot water recovered from a fuel cell system as hot water supply hot water in the system according to the present invention of FIG.

FIG. 5 is a schematic block diagram showing a system for recovering waste heat from waste hot water recovered in a fuel cell system and using it as heating hot water in the system of FIG. 3.

Brief description of the main symbols in the drawing

1: waste hot water storage tank 2: waste heat recovery heat exchanger

3: waste heat recovery outlet 4: heating return inlet a

5: pump 6: 3-way valve

7, 8: sensor 9: waste hot water outlet

10: waste hot water inlet 11: waste hot water or direct water outlet

12: direct inlet 13: heating return inlet b

17: pump 19: main heat exchanger

20: burner 21: hot water heat exchanger

22: 3-way valve 23: fuel cell system

24: waste hot water outlet 25: heating space

26: direct inlet 27: cooling fan

Summary of the Invention

The apparatus for supplying the waste heat of the fuel cell system according to the present invention to the boiler is a waste hot water storage tank (1) for storing the waste hot water generated from the fuel cell system, the waste hot water stored in the waste hot water storage tank to the hot water supply hot water Means for supplying, and means for including a waste heat recovery heat exchanger (2) installed inside the storage tank for supplying the heating return water from the boiler by the waste hot water to supply to the boiler again.

The means for supplying the waste hot water to the hot water supply hot water includes a pump 5 for supplying the waste hot water to the hot water heat exchanger 21 and a three-way valve 6 for selecting the waste hot water and direct water flowing from the outside. )

The means for heating and supplying the heating return of the boiler to the boiler includes a waste heat recovery heat exchanger (2) installed in the storage tank, the waste heat recovery heat exchanger is the heat return from the boiler flows into the main heat exchanger ( 19).

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

Detailed Description of the Invention

1 is a schematic configuration diagram of an apparatus for recovering waste heat generated from a fuel cell system according to the present invention. 1 is simply a waste heat recovery apparatus. This waste heat recovery system can be easily applied to boilers already installed in homes.

2 is a schematic diagram of a typical typical domestic boiler apparatus. As shown in FIG. 2, the boiler apparatus is largely divided into a heater unit including a main heat exchanger 19 and a hot water heat exchanger 21, and a heating space 25 for heating heated hot water. The waste heat recovery apparatus of FIG. 1 can be easily installed in the boiler of FIG. 2 already installed to recover waste heat from the fuel cell system and recycle to the heated hot water and the hot water supply.

3 is a schematic configuration diagram of a system in which the waste heat recovery apparatus of FIG. 1 is combined with the boiler apparatus of FIG. 2.

Waste hot water from the fuel cell system 23 is stored in the waste hot water storage tank 1 through the waste hot water outlet 24 and the waste hot water inlet 10.

Waste hot water is cooling water used to cool the heat generated from the fuel cell system. Of course, as another means for cooling the fuel cell system, a cooling fan 27 is installed in the fuel cell system. Cooling water that cools the fuel cell system is heated and discharged by heat, which is defined as 'waste water'. This waste hot water has thus far been wasted as a result of wasting energy, or partly used in hot water or heating hot water, even if recycled. In the present invention, by connecting the waste heat recovery device to an already installed boiler device such as a home provides a system to utilize the waste hot water together with the boiler device. This waste hot water is clean water that is not contaminated enough to be used as hot water.

The system for using hot water for hot water stored in the waste hot water storage tank 1 is as follows. First, in the conventional boiler system of FIG. 2, the hot water supply hot water is introduced into the hot water heat exchanger 21 through the direct inlet 26 from the outside. The hot water is heated by the hot water heat exchanger and used as hot water supply hot water through the hot water outlet 15. Direct water here means commonly used tap water or clean ground water.

As shown in FIG. 4, when waste hot water is used as hot water supply hot water, a valve entering the heating space 25 from the 3-way valve 22 is closed, and a valve entering the hot water heat exchanger 21 is closed. Open. Water heated by the main heat exchanger 19 is circulated between the main heat exchanger 19 and the hot water heat exchanger 21 by the pump 17. At this time, the waste hot water is heated by the hot water heat exchanger (21).

The waste hot water in the waste hot water storage tank 1 flows into the hot water heat exchanger 21 by the pump 5. That is, when the waste hot water is used as hot water supply hot water, it is introduced into the hot water heat exchanger 21 by the pump 5 through the waste hot water outlet 9. At this time, the waste hot water outlet 9 line is connected by the direct inlet 26 line of the direct water and the 3-way valve 6. The three-way valve 6 selectively supplies waste hot water or direct water to the hot water heat exchanger 21.

In the apparatus of the present invention, a system for recycling waste heat of waste hot water into heating hot water is as shown in FIG. First, in order to recover the waste heat of the waste hot water, a waste heat recovery heat exchanger (2) is installed in the waste hot water storage tank (1). And, the waste heat recovery heat exchanger (2) is provided with a heating return inlet a (4) and waste heat recovery outlet (3), the heating return inlet a (4) is connected to the drain line leaving the heating space 25 of the boiler, The waste heat recovery outlet 3 is connected to the heating return inlet b 13. The heating return water heated by the waste hot water in the waste heat recovery heat exchanger 2 is introduced into the main heat exchanger 19 and circulated to heat the heating space 25. Of course, if the heating hot water circulating to heat the heating space is not enough to compensate for this is the same as the system of a normal boiler. Sensors 7 and 8 for detecting the water level of the waste hot water storage tank 1 are installed to detect the water level. The heating return inlet a (4) and the waste heat recovery outlet (3), the circulation device consisting of a tube and a valve for heating the heating return from the boiler through the waste heat recovery heat exchanger (2), It is within the scope of the invention that the form and route can be implemented more efficiently.

4 is a schematic configuration diagram showing a system using waste hot water recovered from a fuel cell system as hot water supply hot water in the system according to the present invention of FIG.

If the waste hot water is between the low water level limit (8) and the high water level limit (7) of the storage tank (1), close the direct water supply port of the three-way valve (6), and open the waste hot water outlet. By operating the pump (5), the waste hot water of the storage tank (1) is supplied to the hot water heat exchanger (21), and the temperature of the waste hot water supplied at this time is higher than when the direct water is directly supplied from the general boiler of FIG. This reduces the fuel consumption required to obtain hot water. When the waste hot water of the storage tank 1 is below the low water level limit, since there is no waste heat to be supplied to the boiler, the direct water supply port of the 3-way valve 6 is opened, the waste hot water outlet is closed, and the pump 5 is stopped. When the waste hot water of the waste hot water storage tank 1 is above the high water level limit, the waste hot water inlet 10 is blocked, and since the waste hot water is not discharged, the cooling fan 27 is rotated to prevent the temperature rise of the fuel cell system. Cool and circulate waste hot water.

FIG. 5 is a schematic block diagram showing a system for recovering waste heat from waste hot water recovered in a fuel cell system and using it as heating hot water in the system of FIG. 3.

In the heating operation of the boiler, the water heated in the main heat exchanger 19 is supplied to the heating space 25 by the pump 17 to lose heat. Water deprived of heat in the heating space 25 enters the waste heat recovery heat exchanger (2) and is preheated by the waste hot water to enter the main heat exchanger (19). At this time, it is possible to save the fuel of the boiler as much as preheated by the waste hot water.

SUMMARY OF THE INVENTION An object of the present invention is to provide a system capable of easily recovering and recycling waste heat generated from a fuel cell system while using a conventionally installed boiler apparatus as it is, and recycling the waste heat to heated or hot water. Has

Simple modifications or changes of the present invention can be easily carried out by those skilled in the art, and all such modifications or changes can be seen to be included in the scope of the present invention.

Claims (8)

A waste hot water storage tank 1 for storing waste hot water generated from the fuel cell system 23; Means for supplying the waste hot water stored in the waste hot water storage tank (1) with hot water supply hot water; And Means for heating a heating return from a boiler comprising a waste heat recovery heat exchanger (2) installed in the storage tank (1); Apparatus for supplying the waste heat of the fuel cell system to the boiler, characterized in that consisting of. 2. The apparatus according to claim 1, wherein a sensor (7, 8) is installed in the waste hot water storage tank (1) to detect the level of waste hot water. According to claim 1, wherein the means for supplying the waste hot water to the hot water supply hot water pump (5) for supplying the waste hot water to the hot water heat exchanger 21 and for selecting the waste hot water and direct water flowing from the outside Apparatus for supplying the waste heat of the fuel cell system to the boiler, characterized in that it comprises a three-way valve (6). The waste heat recovery heat exchanger (2) installed in the storage tank (1), the heating return inlet a (4) installed in the waste heat recovery heat exchanger and the waste heat recovery outlet ( 3), the heating return inlet a (4) is connected to the drain line leaving the heating space 25 of the boiler and the waste heat recovery outlet (3) is characterized in that connected to the heating return inlet b (13) Apparatus for supplying the waste heat of the fuel cell system to the boiler. Storing the waste hot water from the fuel cell system 23 in the waste hot water storage tank 1; Close the hot water supply port of the 3-way valve (6), open the waste hot water outlet, operate the pump (5) and discharge the waste hot water from the waste hot water storage tank (1) through the waste hot water outlet (9). Enters (21); Close the valve entering the heating space 25 from the 3-way valve 22, open the valve entering the hot water heat exchanger 21, and the water heated in the main heat exchanger 19 is pumped by the pump 17 to the main heat exchanger 19. ) And hot water heat exchanger (21); And The waste hot water is heated by the hot water heat exchanger (21); Method for supplying the waste heat of the fuel cell system to the boiler comprising the steps. The cooling fan (27) according to claim 5, wherein the waste hot water storage tank (1) blocks the waste hot water inlet (10) and prevents the temperature rise of the fuel cell system when the waste hot water of the waste hot water storage tank (1) is higher than the high water level limit (7). Rotating the cooling water to cool and circulate the waste water supply method for supplying the waste heat of the fuel cell system to the boiler. The method of claim 5, wherein when the waste hot water of the waste hot water storage tank (1) is below the low water level limit (8), the direct water supply port of the three-way valve (6) is opened, the waste hot water outlet is closed, and the pump (5). Method of supplying the waste heat of the fuel cell system to the boiler, characterized in that the operation of the suspension. Storing the waste hot water from the fuel cell system 23 in the waste hot water storage tank 1; Heating return from which the heat is removed from the heating space 25 is introduced into the waste heat recovery heat exchanger 2 through the heating return inlet a (4) and heated; The heated heating return flows into the main heat exchanger (19) through the waste heat recovery outlet (3) and further heats it; Closes the valve entering the hot water heat exchanger 21 from the 3-way valve 22, opens the valve entering the heating space 25, and circulates the heating return heated in the main heat exchanger 19 to heat the heating space 25. Letting; Method for supplying the waste heat of the fuel cell system to the boiler comprising the steps.