KR101019193B1 - Waste heat recovery system - Google Patents

Abstract

Disclosed is a waste heat recovery apparatus. A first conduit through which waste discharged from the power source flows, a second conduit connected to the first conduit and having a different fluid flow direction than the first conduit, an economizer installed on the fluid flow path of the second conduit, from the first conduit The waste heat recovery apparatus including a flow guide for guiding the flow of waste flowing into the two conduits in the flow direction of the second conduit improves the efficiency of the waste heat recovery apparatus by improving the heat recovery performance of the economizer.

Waste Heat Recovery, Piping, Flow, Guide

Description

Waste heat recovery system {Waste heat recovery system}

The present invention relates to a waste heat recovery apparatus, and more particularly, to a waste heat recovery apparatus for controlling the flow of waste to increase the waste heat recovery efficiency.

Currently, when transporting large cargoes such as automobiles, petroleum and liquefied natural gas, it is common to use a ship in consideration of cost and efficiency. Since high propulsion force is required for the operation of such vessels, engines, turbines, etc., which produce high power as the main power source, are used. By the way, since an engine or a turbine discharges hot gas after burning fuel, it is common for ships to employ the waste heat recovery apparatus which regenerates by power using the hot gas discharged for efficiency improvement.

Waste heat recovery device is a device that increases the efficiency of the power engine by generating additional power by absorbing heat inevitably discharged while the power source generates power. In particular, in the case of ships, the waste heat recovery device is generally composed of an economizer, a steam turbine and a generator.

The economizer generates steam by absorbing heat in high temperature waste and heating the feed water, and the steam turbine generates rotational force by using the steam generated by the economizer. And, the generator is connected to the steam turbine to convert the rotational force into electric power.

Here, the economizer should be located in the path through which the hot waste discharged from the main power source passes. And the disposal of the ship is discharged to the top of the ship. Thus, economizers are generally installed perpendicular to the vessel along the discharge path of disposal.

However, since the piping connected to the economizer and supplying waste is generally connected from the side of the economizer due to the arrangement problem with other devices of the ship, the portion into which the waste flows into the economizer has a curved shape. As a result, the flow of waste becomes uneven.

This is because, when the fluid passes through the curved shape, the velocity and pressure of the flow increase in the outer part, and the velocity of the flow slows or the stagnant region or the backflow region may be formed in the inner part.

As described above, when the flow of waste is uneven, heat exchange of waste through the economizer is not evenly performed, resulting in a problem of poor heat recovery performance of the economizer.

The present invention has been made to solve the above problems, an object of the present invention is to provide a waste heat recovery device to even the flow of waste at the economizer inlet to increase the efficiency of the waste heat recovery device.

In order to achieve the above object, according to the present invention, a waste condensate discharged from a power source flows in a first conduit, a second conduit connected to the first conduit and having a different fluid flow direction than the first conduit, the second conduit And an economizer installed on the fluid flow path of said waste flow path, said flow guide being disposed on said waste flow path to direct the flow of waste flowing from said first conduit into said second conduit in the flow flow direction of said second conduit. Waste heat recovery apparatus is provided.

At this time, the fluid flow direction of the second conduit is formed upward with respect to the first conduit.

Also, the flow guide is preferably installed at the intersection of the first conduit and the second conduit.

In addition, the second conduit is preferably provided with a drain port for discharging the condensed fluid from the economizer, the flow guide is installed on the upper side of the drain port.

Meanwhile, the flow guide may have a plate shape inclined with respect to the first conduit and the second conduit, or one end thereof may extend in a direction opposite to the fluid flow direction of the first conduit, and the other end thereof may extend in the fluid flow direction of the second conduit. It may be a curved surface shape.

In this case, two or more flow guides may be provided, and the two or more flow guides may be arranged in parallel with each other.

At this time, the flow guide may be rotatably formed about an axis perpendicular to the flow direction of the waste.

In addition, the flow guide may be formed to be movable along the second conduit.

In addition, the flow guide may be formed of a pair of mutually separable combinations.

The present invention improves the efficiency of the waste heat recovery apparatus by improving the heat recovery performance of the economizer.

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

1 is a cross-sectional view showing a waste heat recovery apparatus according to an embodiment of the present invention.

As shown in FIG. 1, the waste heat recovery apparatus according to an embodiment of the present invention includes an economizer 10, a supply pipe 50, and a flow guide 40.

The economizer 10 is a kind of heat exchanger that generates steam by absorbing heat of waste generated from a power source. The economizer 10 generally attaches a plurality of water pipes in the middle of a pipe through which high temperature waste passes and heats the water supply using waste heat. Economizer 10 of the waste heat recovery apparatus according to an embodiment of the present invention is installed vertically so that waste is introduced from the bottom and discharged upward.

The supply pipe 50 is a pipe connected so that the waste generated from the power source is supplied to the economizer 10. At this time, the supply pipe 50 is composed of the first conduit 30 and the second conduit 20.

The first conduit 30 is configured to supply the waste discharged from the power source to the second conduit 20.

The second conduit 20 is connected in a different direction to the first conduit 30 and supplies waste to the economizer 10. The second conduit 20 of one embodiment of the present invention is connected to the lower portion of the economizer 10 in the same direction as the economizer 10. The first conduit 30 is horizontally connected to the lower portion of the second conduit 20.

Accordingly, waste is introduced into the second conduit 20 in the horizontal direction through the first conduit 30, and the direction of flow in the second conduit 20 is changed in the vertical direction and flows into the economizer 10.

The flow guide 40 is installed between the first conduit 30 and the second conduit 20, and the second conduit 20 receives the flow of waste flowing from the first conduit 30 into the second conduit 20. To guide the flow flow. The flow guide 40 serves to prevent congestion or backflow occurring in a portion where waste is introduced into the economizer 10 due to the bending of the flow. To this end, the flow guide 40 guides the flow direction of the waste in the flow direction of the second conduit 20, that is, in the vertical direction through which waste flows from the economizer 10.

Referring to FIG. 1, the flow guide 40 of one embodiment of the present invention has a plate shape, and the length of the second conduit 20 at the place where the first conduit 30 and the second conduit 20 cross each other. It is installed fixedly inclined with respect to the direction. Accordingly, waste introduced into the side of the second conduit 20 through the first conduit 30 is guided to the economizer 10 along the flow guide 40.

The flow guide 40 is installed at the intersection of the first conduit 30 and the second conduit 20 so that the waste guided to the economizer 10 along the shape of the flow guide 40 at the end side of the first conduit. When leaves the flow guide 40, the waste flow path becomes similar to the flow flow direction of the second conduit 20. Accordingly, waste may be supplied to the economizer 10 consistently along the waste flow direction of the second conduit 20.

As such, the waste is constantly supplied to the economizer 10, whereby the economizer 10 exchanges heat with the waste. Therefore, compared with the prior art, the waste heat recovery apparatus according to an embodiment of the present invention is improved heat recovery efficiency is improved efficiency of the waste heat recovery apparatus.

At this time, the flow guide 40 is preferably located in the second conduit 20.

More specifically, the lower portion of the second conduit 20 connected to the lower end of the economizer 10 installed in the vessel is generally formed with a drain 22 for discharging the water and rain water condensed in the economizer 10. Thus, if the flow guide 40 is positioned above the drain 22, i.e. on the path of the second conduit, water condensed in the flow guide 40 by the steam in the waste stream is passed through the existing drain 22. May be discharged.

On the other hand, in the present embodiment, the flow guide is configured to have a plate shape, but may be of a curved shape, for example, airfoil or streamline, bent along the direction of fluid flow between the first conduit and the second conduit. In this type of flow guide, in order to reduce the friction loss between the flow guide 40 and the waste, the flow flow of the first conduit 30 is guided so that waste introduced from the first conduit 30 is introduced at one end thereof. Direction in the opposite direction, and the other end extends in the flow flow direction of the second conduit 20 to guide disposal to the second conduit 20.

In addition, a plurality of flow guides 40 may be installed in the supply pipe 50 in order to make the flow of the waste flowing into the economizer 10 more constant. In one embodiment of the present invention, as can be seen in FIG. 1, two flow guides 40 arranged side by side are used.

On the other hand, the flow guide 40 is not only fixedly installed, but also to be installed in a variety of movable structures, it can be convenient to work during the position adjustment and maintenance of the flow guide 40 according to the conditions of disposal. Hereinafter, various installation structures of the flow guide 40 will be described.

2 is a front view showing the flow guide 40 of the waste heat recovery apparatus according to the second embodiment of the present invention, Figure 3 is a side view showing a flow guide 40 of the waste heat recovery apparatus according to the second embodiment of the present invention to be. 2 to 3 are enlarged views of the installation area A of the flow guide 40 of FIG.

As shown in Figures 2 to 3, the flow guide 40 may be formed with a rotary lever 42 for rotating around the axis perpendicular to the flow direction of the waste to be adjusted to the optimum angle in accordance with the change in the speed of the waste. have.

In addition, the flow guide 40 may not only be adjusted according to the speed change of the waste, but also when the work is required in the supply pipe 50 to maintain the economizer 10, the flow guide ( The angle of 40 can be adjusted.

More specifically, in general, a manhole 24 for maintenance is installed in the waste heat recovery apparatus installed in the ship. And, when maintenance is required, the worker enters the waste heat recovery device through the manhole 24 to perform the work. At this time, when the flow guide 40 is fixed, it is difficult for the worker to move inside the waste heat recovery apparatus.

Therefore, according to this embodiment, the installation angle of the flow guide 40 can be adjusted so that the work is not disturbed by the flow guide 40. More specifically, when operating the economizer 10, the flow guide 40 can be positioned in a state (B) suitable for guiding disposal, and during maintenance, in a state (C) that does not interfere with the movement of the operator. have.

Here, in order to facilitate the rotation of the flow guide 40, it is preferable to connect the gearbox 60 between the flow guide 40 and the rotary lever 42.

Since the used economizer 10 of the ship is large, the flow guide 40 can also be large and heavy, and by connecting the gearbox 60 to amplify the force transmitted from the rotary lever 42, the flow guide 40 Angle adjustment can be made easy.

4 is a front view showing a flow guide of the waste heat recovery apparatus according to a third embodiment of the present invention, Figure 5 is a side view showing a flow guide of the waste heat recovery apparatus according to a third embodiment of the present invention. In the third embodiment of the present invention, the flow guide 40 is formed to move along the supply pipe 50.

According to the third embodiment of the present invention, as shown in Figures 4 to 5, in order to allow the flow guide 40 to move along the supply pipe 50, the supply pipe 50 in the flow guide 40 The guide rail 26 for moving () is installed.

In addition, the flow guide 40 may also be formed with a rotary lever 42 for rotating the flow guide 40. Therefore, the flow guide 40 may be adjusted to have an optimal angle at an optimal position corresponding to the conditions of the waste gas.

In addition, according to the present embodiment, the position of the flow guide 40 can be adjusted to facilitate the operation when the operation is required in the supply pipe 50 for maintenance of the economizer 10. Accordingly, when operating the economizer 10, the flow guide 40 is moved to a position (D) suitable for guiding disposal, and during maintenance can be moved to a position (E) that does not interfere with the movement of the operator. .

6 is a side view showing a flow guide of the waste heat recovery apparatus according to a fourth embodiment of the present invention. In the fourth embodiment of the present invention, the flow guide 40 is formed to be detachably installed.

As illustrated in FIG. 6, in order to freely install or separate the flow guide 40 from the supply pipe 50, an insertion groove 28 into which the flow guide 40 may be inserted is formed in the supply pipe 50. do. Then, the flow guide 40 is formed to be installed in the supply pipe 50 through the insertion groove (28). In particular, when the flow guide 40 is formed of a pair of flow guides 40 that can be separated and assembled, the pair of flow guides 40 are inserted from both sides of the pipe, and the flow guide 40 is shown in FIG. As described above, by coupling the projections 44 and the recesses 46 formed in the respective portions, the installation of the flow guide 40 can be facilitated.

The fourth embodiment of the present invention has the advantage of removing the flow guide 40 when working in the supply pipe 50 for maintenance of the economizer 10, and can be installed again after the operation.

 Although the waste heat recovery apparatus according to an embodiment of the present invention has been described above, the spirit of the present invention is not limited to the embodiments presented herein, and those skilled in the art to understand the spirit of the present invention are within the scope of the same idea. Other embodiments may be easily proposed by adding, changing, deleting, or adding components, but this will also fall within the spirit of the present invention.

1 is a cross-sectional view showing a waste heat recovery apparatus according to an embodiment of the present invention.

Figure 2 is a front view showing a flow guide of the waste heat recovery apparatus according to a second embodiment of the present invention.

Figure 3 is a side view showing a flow guide of the waste heat recovery apparatus according to a second embodiment of the present invention.

Figure 4 is a front view showing a flow guide of the waste heat recovery apparatus according to a third embodiment of the present invention.

Figure 5 is a side view showing a flow guide of the waste heat recovery apparatus according to a third embodiment of the present invention.

Figure 6 is a side view showing a flow guide of the waste heat recovery apparatus according to a fourth embodiment of the present invention.

Explanation of symbols on main parts of drawing

10: economizer 20: second conduit

22: drain hole 24: manhole

26: guide rail 28: insertion groove

30: first conduit 40: flow guide

42: rotation lever 44: projection

46: groove 50: supply piping

60: gearbox

Claims (9)

A first conduit through which waste discharged from the power source flows; A second conduit connected to said first conduit, said second conduit having a different fluid flow direction than said first conduit; An economizer installed on the fluid flow path of the second conduit; And A flow guide disposed on the flow path of the waste to direct the flow of waste flowing from the first conduit to the second conduit in the flow flow direction of the second conduit, The flow guide may have a plate shape or one end that is inclined with respect to the first conduit and the second conduit so as to extend in a direction opposite to the flow direction of the fluid in the first conduit and the other end extend in the fluid flow direction of the second conduit. Waste heat recovery device characterized in that the curved shape, formed of a pair of mutually separable combinations. The method of claim 1, And the fluid flow direction of the second conduit is upwardly formed relative to the first conduit. The method of claim 1, And the flow guide is installed at the intersection of the first conduit and the second conduit. The method of claim 1, The second conduit is provided with a drain port for discharging the condensed fluid from the economizer, the flow guide is installed in the upper portion of the drain hole, waste heat recovery device. delete The method of claim 1, The flow guide is composed of two or more, the two or more flow guides are arranged side by side with each other, waste heat recovery apparatus. The method of claim 1, And the flow guide is rotatably formed about an axis perpendicular to the flow direction of the waste. The method of claim 1, And the flow guide is formed to be movable along the second conduit. delete

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