KR101724277B1 - Exhaust heat collection apparatus of boiler - Google Patents

Abstract

The present invention relates to an exhaust heat recovery apparatus for a boiler, and more particularly, to the protection of a steam generator of a steam or hot water boiler in which a hot water generator is bypassed to a steam turbine installed in a flue of a boiler, So that hot water can be used in combination.
The present invention relates to a boiler, comprising: a cutlery (20) installed in a flue (14) of a boiler and having a heat exchange pipe (22) disposed in the housing (21); Both ends of the bypass conduit 31 are connected to the water supply inlet and the outlet of the heat exchange pipe 22 in a closed circuit so that the heat exchange heat exchanger 32 is installed in the bypass conduit 31, A hot water generator (30) having a hot water tank (33) formed around the hot water tank (32); A temperature sensor 41 is provided at the water outlet of the heat exchange pipe 22 and a solenoid valve 36 is provided at the inlet side of the bypass conduit 31. By the temperature sensor 41, And a controller (42) for controlling the valve (36).

Description

[0001] EXHAUST HEAT COLLECTION APPARATUS OF BOILER [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an exhaust heat recovery apparatus for a boiler, and more particularly, to a protection of a steamer of a steam or hot water boiler in which a hot water generating apparatus is installed bypassed in a burner installed in a flue of a boiler.

As is known, in order to generate steam or hot water by heating the water (heat medium) by burning the fuel in the combustion chamber of the boiler to heat the heat transfer surface, and to recover the heat of the exhaust gas of 200 ° C or higher, And preheating the water supplied to the boiler to reduce fuel and improve the thermal efficiency (see Patent Document 1)

On the other hand, when the boiler is operated normally and the usage load of the steam or hot water is normal, the water is not heated by the heat of the exhaust gas because the water is continuously supplied to the burner, but the preliminary load operation of the boiler, The feed water is kept in a stagnant state in the tubular heat exchanger, which is the heat transfer surface of the vacuum cleaner, so that steam is generated while being overheated by the exhaust gas heat. When the steam is generated in the tubular heat exchanger as described above, the heat exchanger tube is charged by the steam hammer phenomenon, thereby damaging the heat exchanger tube such as cracks, thereby causing leakage.

In order to solve the above-mentioned problem, an air heater is installed in front of a silk-screening machine, that is, an exhaust gas inflow side of a silk-screening machine to heat the air supplied to the burner by exhaust gas holding heat, Thereby preventing evaporation of the water in the water tank.

Also, a structure for preventing the evaporation phenomenon of feed water in the cut-and-through machine is disclosed in Patent Document 2, wherein the evaporation-preventing structure is provided with a first valve installed in an inlet pipe of the absorbent core, A bypass pipe connected to the inner pipe of the band-cutter is installed and a second valve is provided in the bypass pipe. When the water outlet temperature of the absorbing unit is lower than the outlet temperature of the evaporator, the second valve is closed, When the water outlet temperature of the absorbent is higher than the outlet temperature of the evaporator, the first valve is closed to allow the water supplied from the water feed pump to flow to the bypass pipe to shorten the flow path of the absorbent So as to prevent the water from evaporating by lowering the temperature at the exit of the absorber.

KR 20-0184809 Y1 KR 10-0201587 B1

However, the provision of the air heater on the exhaust gas inflow side of the cut-and-through machine has the advantage of increasing the combustion efficiency by heating the air supplied to the burner. However, The amount of nitrogen oxides (NOx) generated is increased, which causes environmental pollution.

 The reason why the bypass pipe is provided in the internal pipe of the absorbent article of Patent Document 2 described above is that the feed water is heated only in a part of the heat exchange pipe of the absorbent article installed therein, It is impossible to satisfy the purpose of installation of the absorbent panel.

It is an object of the present invention to provide an apparatus for recovering exhaust heat of a boiler that can prevent the evaporation of feed water from a cutlery and can generate hot water.

In order to achieve the above-mentioned object, the present invention provides a steam turbine comprising: a burner installed in a flue of a boiler and having a heat exchange tube disposed in the housing; A hot water generator for connecting a both ends of a bypass conduit to a water inlet and an outlet of the heat exchange tube in a closed circuit so that a heat dissipation heat exchanger is installed in the bypass conduit and a hot water tank is formed around the heat dissipation heat exchanger; A temperature sensor is provided at a water outlet of the heat exchange tube and a solenoid valve is provided at an inlet side of the bypass conduit to control the solenoid valve by the temperature sensor.

As described above, according to the present invention, a water-extracting tank is installed in the water to preheat the water, and when the temperature of the water to be heated in the water-absorbing unit becomes the set temperature or more, the water heated to the set temperature or more is circulated in the hot water tank to generate hot water Therefore, it is possible to improve the thermal efficiency of the boiler because it does not discard exhaust gas holding heat while satisfactorily preventing evaporation of the feed water.

In addition, the manufacturing cost can be reduced by using both the heat exchanger tube of the crusher and the heat exchanger tube of the heat source of the hot water generator.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-
2 is a sectional view taken along the line AA in Fig. 1
Figure 3 is an enlarged cross-sectional view of the main part of the embodiment of the present invention
4 is a cross-sectional view of the archer of the embodiment of the present invention
Fig. 5 is a side view of the absorbent article of the embodiment of the present invention
6 is a control block diagram of the hot water generator of the embodiment of the present invention

1 is a cross-sectional view taken along the line AA in Fig. 1, Fig. 3 is an enlarged cross-sectional view of a substantial part of an embodiment of the present invention, and Fig. 4 is a cross- 6 is a control block diagram of a hot water generating apparatus according to an embodiment of the present invention. The reference numeral 10 is a boiler body. The boiler body 10 includes a cylindrical body 11, And a plurality of associations 13 are formed around the hearth 12 in such a manner that a flame burned in the hearth 12 can be discharged from the rear of the hearth 12 And a flue (14) is provided in front of the cylinder (11).

Although the boiler body 10 has been shown and described as a boiler-related boiler, the boiler body 10 can be used for other boilers such as a water tube boiler. Also, the boiler body 10 can be used in a steam boiler or a hot water boiler. In the case of the steam boiler, the steam generated in the cylinder 11 is directly supplied to the use place, and in the case of the hot water boiler, a separate heating and / or hot water heat exchanger is built in the upper part of the cylinder 11, ) Indirectly heat-exchanges the hot water generated by the heat exchanger and the water flowing through the heat exchanger to generate hot water in the heat exchanger.

Reference numeral 20 denotes a sheet cutting machine. The sheet cutting machine 20 is provided with a plurality of heat exchange tubes 22, preferably a spiral heat exchange tube, in the housing 21 provided in the flue 14, (23a) and (23b) are installed so as to cover the two heat exchange tubes (22) adjacent to both sides of the outer surface of the housing (21) of the heat exchange tube (22) The feed water flowing into the feed water inlet pipe 25 provided in the outlet side header 24a is heated by the exhaust gas heat while flowing in a zigzag manner through the heat exchange pipe 22 and then discharged through the water discharge pipe 26 connected to the outlet side header 24b 11).

The heat absorbing unit 20 is configured such that the low temperature water supplied by the water supply pump (not shown) to the water supply inflow pipe 25 is discharged to the housing 21 via the flue 14 while zigzagging the heat exchange pipe 22 And the preheated water is supplied to the cylinder 11 through the water discharge pipe 26. [

The heat exchange tube 22 is provided with a plurality of rectilinear heat exchange tubes 22 projecting out of the housing 21 to the housing 21 and adjacent to both outer surfaces of the housing 21 of the heat exchange tube 22 The present invention is not limited to this, and a plurality of rows of heat exchange tubes may be integrally formed as a jig material in the housing 21 so that the heat exchange tubes 22a, It is obvious that the present invention can also be applied to a case in which an inlet side and an outlet side header are provided only at both ends of a pipe.

The hot water generator 30 includes a heat exchanger 22 and a closed circuit at both ends of the bypass conduit 31 at the water inlet and outlet of the heat exchanger tube 22 The opposite ends of the bypass conduits 31 are connected to the outlet side header 24b to which the inlet side header 24a of the header 23a connected to the inlet side header 24a and the water discharge pipe 26 are connected, A hot water tank 33 is formed so that a heat dissipating heat exchanger 32 is installed in the bypass conduit 31 so that the heat dissipating heat exchanger 32 is surrounded and the hot water tank 33 The water supply pipe 34 and the hot water discharge pipe 35 are connected to each other.

A solenoid valve 36 and a circulation pump 37 are provided on the inlet and outlet sides of the bypass conduit 31. The circulation pump 37 is arranged such that the hot water tank 33 is higher than the absorbent member 20 If it is installed in the location, it will perform the circulation assist function.

A temperature sensor 41 is provided on the outlet side header 24b of the heat exchange pipe 22 so that the temperature of the outlet of the feed water heated in the heat exchange pipe 22 is lower than the set temperature The detection value is input to the controller 42 to open the solenoid valve 36 so that the heat is flowed to the bypass conduit 31 before being evaporated when the water is heated in the heat exchange tube 22 And the heat of the heated water heated by the heat-radiating heat exchanger (32) is released.

In the present invention as described above, the fuel (heat medium) filled in the cylinder 11 at the time of normal operation of the boiler is heated by the flame at the furnace 12 and is heated by the flame, When the low-temperature feed water is supplied to the feed water inlet pipe 25 of the sheet cutting machine 20 installed in the flue 14 at the time of discharge to the flue 14 by the water feed pump, when the heat exchange pipe 22 is circulated stagnantly, The heated water is heated to the temperature (before the evaporation) and then the heated water is supplied to the cylinder 11 through the water discharge pipe 26.

On the other hand, when the boiler continues the combustion of the fuel at the time of the preliminary load operation until the operating pressure is reached or when the working load is small, the water is stagnant in the heat exchange pipe 22 of the absorbent unit 20, If the congestion of the water supply occurs, overheating of the water supply occurs. The detected value of the temperature sensor 41 provided at the water outlet of the heat exchange pipe 22 is inputted to the controller 42 and compared with the set value of the controller 42, (36) is opened.

When the solenoid valve 36 is opened as described above, the water that has been overheated in the heat exchange pipe 22 flows to the inlet of the bypass conduit 31 connected to the outlet side header 24b, and is discharged from the heat radiating heat exchanger 32 to the hot water tank 33 And then returns to the inlet side header 24a to be reheated by the exhaust gas heat in the heat exchange pipe 22. When the outlet temperature of the heated water in the heat exchange pipe 22 is lower than the set temperature The controller 42 closes the solenoid valve 36 so that the heating of the hot water in the hot water generator 30 is stopped.

As described above, according to the present invention, when the outlet temperature of the water feeder heated by the heat absorber becomes equal to or higher than the set temperature (the temperature below the evaporation temperature), the water heated to the set temperature or higher can be circulated to the hot water tank, It is possible to improve the thermal efficiency of the boiler since it does not discard the exhaust gas holding heat.

In addition, the manufacturing cost can be reduced by using both the heat exchanger tube of the crusher and the heat exchanger tube of the heat source of the hot water generator.

Further, the present invention has no worry about environmental pollution because it does not cause a ventilation trouble as compared with a conventional air absorber provided with an air heater, and compared with a case where water is heated only in a part of a heat exchanger tube of a vacuum cleaner, Therefore, the purpose of installation of the sheet metal removing machine is satisfactory.

14: Year 20: Cutter 22: Heat exchanger tube
30: hot water generator 31: bypass conduit
32: heat radiating heat exchanger 33: hot water tank

Claims (4)

A burner installed in the flue of the boiler and provided with a heat exchange pipe in the housing; A hot water generator for connecting a both ends of a bypass conduit to a water inlet and an outlet of the heat exchange tube in a closed circuit so that a heat dissipation heat exchanger is installed in the bypass conduit and a hot water tank is formed around the heat dissipation heat exchanger; And a controller that controls the solenoid valve by the temperature sensor by providing a temperature sensor at a water outlet of the heat exchange tube and a solenoid valve at an inlet side of the bypass conduit, The heat extraction unit according to claim 1, wherein a plurality of heat exchange tubes are horizontally disposed in the housing so as to protrude to the outside of the housing, and a header is provided so as to cover two heat exchange tubes adjacent to both outer sides of the housing, Wherein the water inlet pipe is connected to the outlet header, and both ends of the bypass pipe are connected to the inlet header and the outlet header. 2. The heat exchanger according to claim 1, wherein the thermotoler is provided with a plurality of rows of integrated heat exchange tubes arranged in a zigzag form in the housing, an inlet side and an outlet side header are provided at both ends of the heat exchange tube, Exhaust heat recovery system of boiler connecting both ends of conduit. 2. The boiler according to claim 1, further comprising: an exhaust heat recovery device of a boiler provided with a circulation pump at an outlet side of the bypass conduit

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