KR200222271Y1 - Cyclone which can supply hot water - Google Patents

Abstract

The present invention relates to a cyclone capable of producing hot water by installing a heat exchanger inside a cyclone to produce hot water by heating cold water passing through the heat exchanger with hot exhaust gas passing through the cyclone.

Cyclone capable of producing hot water of the present invention, the coil heat exchanger 24 is installed on the outer circumferential surface of the exhaust gas discharge pipe 26 extending through the central portion of the upper surface of the cyclone 24 to the inner middle portion or less There is a characteristic.

The cyclone capable of producing hot water of the present invention can not only reduce energy costs by recovering waste heat from the exhaust gas, but also reduce the energy cost and recover the waste heat from the heat exchanger installed inside the cyclone. The temperature is lowered, and as a result, the efficiency of separating foreign matters such as dust can be improved by reducing the absolute amount of dust and the like that may be contained in the exhaust gas, thereby reducing the environmental pollution by the exhaust gas.

Description

Cyclone which can supply hot water}

The present invention relates to a cyclone capable of producing hot water, and more particularly, a heat exchanger is installed inside the cyclone to produce hot water by heating cold water passing through the heat exchanger with hot exhaust gas passing through the cyclone. It is about a cyclone capable of producing hot water.

Cyclone is a device that separates solid or liquid droplets contained in the exhaust gas by centrifugal force, and can be used at high temperature and high pressure.

Cyclone is a representative dust collecting device that removes dust contained in various exhaust gases generated in various industrial sites along with bag filter, and the exhaust gas flowing into the cyclone tangentially proceeds with respect to the cylindrical cycle body. The inner cylindrical body of the motorway is rotated on the highway, and by the centrifugal force generated at this time, particles such as dust contained in the exhaust gas collide with the inner wall of the cyclone, which is separated from the exhaust gas and moves to the lower portion of the cyclone along the inner wall of the cyclone. Are gathered.

The cyclone is used where a heating device such as a burner is used, and is mainly used where a high temperature exhaust gas containing dust or the like above the emission standard is generated therein, and is used together with a bag filter which is a typical dust collector or used alone. As a dust collector, the function of a conventional cyclone will be described in more detail as follows.

As shown in the schematic longitudinal, cross-sectional view of the cyclone shown in FIG. 1, the cyclone 1 consists of a cylindrical upper portion 1A and a funnel-shaped lower portion 1B and tangential to the outer peripheral surface of the upper end side of the cylindrical upper portion 1A. The exhaust gas inlet pipe 1C of the direction is attached, and the exhaust gas inlet pipe 1D which penetrates the center of the upper surface 1E from the inside center of the cyclone 1 is provided, The said exhaust gas inlet pipe 1C Exhaust gas introduced into NX is discharged through the exhaust gas discharge pipe by descending while rotating along the cylindrical upper wall 1A.

At this time, the centrifugal force is applied to the exhaust gas rotating along the cylindrical upper wall 1A. Particles such as dust contained in the exhaust gas collide with the cylindrical upper wall 1A and collide with the wall. The particles descend along the wall and collect along the lower 1B wall of the cyclone and accumulate in the dust collection tank 2.

As described above, the conventional cyclone is used only for separation of dust and the like contained in the exhaust gas, and has a disadvantage in that the waste heat contained in the exhaust gas passing through the cyclone is not taken into consideration and is discharged. There is a problem that adversely affects the separation of foreign substances such as dust contained in the exhaust gas.

The present invention was devised to solve the shortcomings of the conventional cyclone, which does not recover the waste heat possessed by the exhaust gas as described above, and separates foreign substances such as dust from the exhaust gas by embedding a heat exchanger inside the cyclone. At the same time, the purpose of the present invention is to provide a cyclone that can recover waste heat of the exhaust gas and save energy and improve the separation efficiency of dust and the like.

1 shows a conventional cyclone,

(A) is a longitudinal sectional view,

(B) is a cross-sectional view.

Figure 2 is a layout of the gas discharge and hot water supply facility is installed cyclone of the present invention.

((Explanation of symbols for main part of drawing))

1,23. Cyclone 1C, 22. Exhaust gas inlet pipe

1D, 26. Exhaust gas discharge line 2,25. Dust collection tank

21. Combustion plant 24. Heat exchanger

27. Blowers 28. Stacks

29. Hot water tank 30. Cold water pipe

31. Hot water pipe

The object of the present invention is achieved by a coil-type heat exchanger installed on the outer circumferential surface of the exhaust gas discharge pipe extending through the central portion of the cyclone upper surface and extending into the cyclone.

The heat exchanger installed on the outer circumferential surface of the cyclone exhaust gas discharge pipe capable of producing hot water according to the present invention is not a fin type coil heat exchanger, but the coil type heat exchanger is applied to the cyclone inner wall and the exhaust gas discharge tube. It rotates along the outer circumferential surface of the in order to make the flow more smooth without disturbing the flow of the descending exhaust gas.

Details of the effects and the resulting effects, including the object and technical configuration of the present invention will be clearly understood by the following description with reference to the drawings showing a preferred embodiment of the present invention.

2 is a schematic layout of a gas discharge facility and a hot water production facility in which a cyclone capable of producing hot water of the present invention is installed.

As shown, the hot exhaust gas generated in the combustion facility 21 is introduced into the cyclone 23 through the exhaust gas inlet pipe 22 by the suction force of the blower 27, the cyclone (23) Exhaust gas introduced into the exhaust gas discharge pipe 26 is formed to rotate and descend along the inner wall of the cyclone 23 extends through the central portion of the upper surface of the cyclone 23 to the middle portion of the cyclone or less. Through the blower 27 and the stack (28) through the discharge into the air.

While the hot exhaust gas is discharged from the combustion facility 21 to the atmosphere through the stack 28 as described above, combustion soot, dust, and the like contained in the exhaust gas rotate along the inner wall of the cyclone 23. The inner wall of the cyclone 23 is separated from the exhaust gas by the centrifugal force generated by the rotational force, and then descends along the inner wall of the cyclone 23 to be accumulated in the dust tank 25.

The cold water supplied to the cyclone 23 through the cold water pipe 30 is cycled through the coil type heat exchanger 24 mounted on the outer circumferential surface of the exhaust gas discharge pipe 26 inside the cyclone 23. After being heated by the exhaust gas which rotates along the inner wall of the clone and descends, it is stored in the hot water tank 29 through the hot water pipe 31.

The cyclone 23 capable of producing hot water of the present invention, which can produce hot water by using the waste heat of the dust and the exhaust gas contained in the exhaust gas as described above, extends through the central portion of the upper surface of the cyclone to an inner middle portion or less. There is a technical feature in that the coil heat exchanger 24 is installed on the outer circumferential surface of the exhaust gas discharge pipe 26.

In addition, the spiral groove 24A between the water pipes formed on the outer surface of the coil type heat exchanger 24 flows into the cyclone 23 from the exhaust gas inlet pipe 22 and descends while rotating, thereby discharging the exhaust gas. It serves to smoothly rotate the flow of the discharge gas discharged to the discharge pipe (26).

As described above, the cyclone of the present invention having a coil-type heat exchanger installed therein has an advantage of reducing energy costs by recovering waste heat of the exhaust gas to produce hot water.

In addition, the temperature inside the cyclone is reduced by the collection of waste heat from the heat exchanger, and as a result, the efficiency of separating foreign matters such as dust can be improved by reducing the absolute amount of dust and the like that may be contained in the exhaust gas. There is an effect of reducing the environmental pollution by the exhaust gas.

Claims (1)

In the cyclone for separating foreign substances such as dust contained in various exhaust gases, a coil type is formed on the outer circumferential surface of the exhaust gas discharge pipe 26 extending through the central portion of the upper end surface of the cyclone 24 and extending to below the middle portion of the cyclone. Cyclone capable of producing hot water, characterized in that the heat exchanger 24 is installed.