KR20060116447A - A double pipe for heating fluid - Google Patents

Abstract

A dual pipe for heating fluid is provided to increase the heat exchanging efficiency by U-turning a space through which the fluid flows and thus extending the length of a passage. A dual pipe for heating fluid includes an inner pipe, an outer pipe(3), a partition wall(5), and baffles(6,7). An inlet and an outlet are formed in the outer pipe. The partition wall interrupts a portion of both sides of the space longitudinal direction between the inner and outer pipes so that the inlet and the outlet are separated from each other. The space formed between the inner and outer pipes is divided so as to be used as a single passage. The baffles make the fluid flowing through the space turbulent. The inner pipe is installed in a heat source so that the waste heat of the heat source can heat the fluid flowing through the space.

Description

A double pipe for heating fluid

1 is a front end view showing the inside of the double pipe for heating fluid according to the present invention;

Figure 2 is a plan sectional view showing the inside of the double pipe for heating fluid according to the present invention.

3 is an enlarged detailed view of the inside of the double pipe of FIG.

4 is an exploded perspective view of a double pipe for heating a fluid according to the present invention;

5 is a cross-sectional view of the A-A portion of Figure 1 showing the inside of the double pipe

FIG. 6 is a cross-sectional view of the B-B part of FIG. 1 showing the inside of the double pipe.

7 is a front view showing a first baffle according to the present invention;

8 is a front view showing a second baffle according to the present invention;

Explanation of symbols on the main parts of the drawings

1: double pipe 2: inner pipe

3: exterior view 4: space

5: bulkhead 6: first baffle

6c: passage 7: second baffle

S: clearance H: opening

The present invention relates to a fluid heating double tube for heating a fluid with high temperature waste heat discharged from a heat source or high heat flowing in a flow path, and in particular, is formed to be U-turned so as to extend the length of the flow path. The phase relates to a double pipe for heating a fluid which can increase heat exchange efficiency by forming a baffle so that the fluid flows in a turbulent state.

Various industrial facilities including power plants have been developed to heat fluid by using high temperature waste heat emitted from a heat source engine (engine) or high heat flowing through a flow path in order to use energy efficiently.

In fact, the temperature of the waste heat emitted from the engine of the power plant is about 360 ° C to 600 ° C, so using the high temperature waste heat to make the water used as industrial water into hot water can save energy.

Thus, the conventional fluid heating device for heating a fluid is configured in the form of a double tube wrapped around the outer tube having the inlet and outlet outside the inner tube, so that when the waste heat of the heat source is discharged through the inner tube, between the inner and outer tubes By supplying water to the space, hot waste heat and cold water are exchanged to make hot water.

However, in the conventional fluid heating apparatus, since the outer tube is configured in the form of a simple pipe, the space in which the fluid flows becomes a straight channel, so that the length of the flow path is the same as the length of the outer tube.

Therefore, in order to heat water to a high temperature in a short time, the flow path must be extended, but since the inner pipe is formed in a curved pipe shape for various reasons, it is practically difficult to extend the flow path by making the outer pipe in a curved pipe shape in accordance with the inner pipe. There was a problem.

In addition, heat exchange efficiency is low because there is no means to promote heat exchange with the waste heat by flowing water in turbulent state in the space where water flows, and because of this low thermal efficiency, in order to heat water to high temperature, There was a problem that must be left.

The present invention is to solve all the problems of the conventional fluid heating device as described above, the object is to form a U-turn to extend the length of the flow path through which the fluid flow double pipe for heating fluid to increase the heat exchange efficiency In providing.

Another object of the present invention is to provide a double pipe for heating a fluid which can further increase the heat exchange efficiency by forming a baffle to flow the fluid in a turbulent state on the flow passage.

Such a double pipe for heating fluid of the present invention is an inner tube; An outer tube having an inner diameter larger than an outer diameter of the inner tube and having an inner tube penetrated therein to be sealed, and having an inlet and an outlet formed at one side thereof to allow fluid to flow in a space formed between the inner tube; A partition wall dividing the space formed between the inner and outer pipes to block a part of both sides in the longitudinal direction between the inner and outer pipes so that the inlet and the outlet are isolated to be used as a single flow path; And a baffle provided with a plurality of spaced apart from each other by a predetermined distance in the longitudinal direction of the space between the inner and outer pipes to make the fluid flowing in the space turbulent.

In this case, the inner tube is installed in a heat source engine so that the waste heat of the heat source engine discharged through the inner tube heats the fluid flowing through the space.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment configuration of a double pipe for heating fluid according to the present invention.

1 is a front cross-sectional view showing the inside of a fluid heating double tube according to the present invention, Figure 2 is a plan sectional view showing the inside of a fluid heating double tube according to the present invention, Figure 3 is an enlarged inside of the double pipe of Figure 1 Detailed view shown.

As shown in the drawings, the fluid heating double pipe 1 of the present invention is largely an inner pipe 2; An outer tube 3 sealingly enclosing the inner tube 2; A partition wall 5 for dividing the space 4 formed between the inner and outer pipes 2 and 3 so as to enable U-turn to be used as a single flow path; And a baffle (6) (7) installed in the space (4) forming the flow path to make the flowing fluid turbulent.

The double pipe 1 for heating the fluid of the present invention configured as described above has the inner tube 2 installed at the outlet of the heat source engine so that the waste heat of the high temperature of the heat source engine discharged through the inner tube 2 is removed from the space 4. By heating the fluid flowing in the turbulent state, it is possible to heat the water using the waste heat.

The inner tube (2) uses a metal material to withstand the temperature of the waste heat.

Since the temperature of the waste heat discharged from the engine of the power plant becomes approximately 360 ° C. to 600 ° C., the inner tube 2 made of the metal material can withstand this temperature sufficiently.

Flanges 2a are formed at both ends of the inner tube 2, and the flanges 2a are fastened to the outlet of the fuel engine or the flange of the europipe connected thereto, so that the inner tube 2 is continuously joined. .

The outer tube 3 surrounds the inner tube 2 in a double tube form to form a flow path.

This outer tube (3) has an inner diameter larger than the outer diameter of the inner tube (2) is to receive and seal the inner tube (2) through the inside.

As such, the outer tube 3 encloses the inner tube 2 to be hermetically sealed, so that their assemblies are in the form of double tubes, and the space 4 formed between the inner and outer tubes 2 and 3 has a fluid flowing therein. It becomes a flow path.

In the outer tube 3, the inlet and outlets 3a and 3b are formed at one side of the upper and lower sides so that the fluid can enter and exit the space 4, and a pair of the outer tube 3 supporting the body of the outer tube 3 at the installation place. The support 3c is installed.

The partition wall 5 extends the flow path by allowing the U-turn of the fluid flowing through the space 4 to turn.

The partition wall 5 divides the space 4 formed between the inner and outer pipes 2 and 3 so that the inlets and outlets 3a and 3b are separated from each other to be used as a single flow path. A portion of the space 4 in the longitudinal direction between the 2 and 3 is blocked.

The partition wall 5 has a plate-shaped body, and is assembled in the form of a block between the baffles 6 and 7.

The partition wall 5 has an opening H through which the fluid can U turn at the other end opposite to the inlet and outlet 3a, 3b because the fluid cannot be U-turned if the barrier 5 is blocked over the entire side of the space 4. It is not installed.

Therefore, the fluid flowing through the inlet 3a passes through the bottom of the partition 5 as shown in FIG. 1 and then passes through the opening H at the end of the outer tube 3 where the partition 5 is not installed. After flowing the upper part is discharged to the outside through the outlet (3b) is heated by the waste heat of the inner tube (2).

The baffles (6) (7) is to turbulence the fluid flowing through the space (4) to increase the heat exchange efficiency with the waste heat.

These baffles are formed in the first and second baffles 6 and 6 in the longitudinal direction of the space 4 between the inner and outer tubes 2 and 3 so that the fluid flowing in the space 4 can flow in a zigzag manner. 7) A plurality of dogs are spaced apart at regular intervals and installed alternately in order.

Since the outer circumference of the first baffle 6 is assembled to be sealed to the inner wall of the outer tube 3, the inner diameter of the outer tube 3 having a circular plate-like body as shown in FIGS. It is composed of a shape, that is, a ring or annular shape, the inner body of the receiving tube (6a) is larger than the outer diameter of the inner tube (2) to allow the fluid to flow, the inner tube inside the receiving hole (6a) A plurality of fixing pieces 6b protrude so as to be fixed to (2).

Therefore, the first baffle 6 is formed with a passage 6c as high as the height of the fixing piece 6b as shown in FIG. 7, and the fixing piece 6b is tightly fixed to the inner tube 2 and thus the passage 6c. Is close to the inner tube (2).

The second baffle 7 is installed between the first baffles 6, and cooperates with the first baffle 6 to guide the fluid in a zigzag flow to turbulent flow.

The second baffle 7 is formed such that the outer periphery of the body having a thin plate shape as shown in Figs. 6 and 8 is smaller than the inner diameter of the outer tube (3) to allow the fluid to flow, the inner tube (2) The assembly hole 7a is penetrated so that) can be inserted and fixed.

In other words, the second baffle 7 is loosely accommodated inside the outer tube 3 because the outer diameter is smaller than the inner diameter of the outer tube 3. Accordingly, the second baffle 7 generates a gap S between the outer circumference of the body and the inner wall of the outer tube 3, and fluid flows between the gaps S.

Here, since the clearance S is close to the outer tube 3, and the passage 6c of the first baffle 6 is close to the inner tube 2, their arrangement is shown in Figs. It is installed repeatedly alternately with each other while being spaced apart as shown.

Therefore, since the fluid flowing through the gap S and the passage 6c flows in a zigzag manner, the fluid flows into a turbulent state and actively performs heat exchange with high-temperature waste heat flowing through the inner tube 2.

Next will be described the state of use of the double pipe according to the present invention configured as described above.

One flange 2a of the inner tube 2 is connected to the outlet of the heat source, and the other flange 2a is connected to the pipe of the flow path to form one end of the flow path.

Thus, in the state in which the double tube 1 is installed, when the waste heat is discharged to the inner tube 2, the fluid is supplied to the outer tube 3 through the inlet 3a to be discharged to the outlet 3b.

The fluid supplied to the inner tube 2 through the inlet 3a flows along the lower flow path connected to the inlet with respect to the partition 5, and the passage 3c and the second baffle of the first baffle 6 are provided. (7) Since it flows zigzag through the outer clearance (S) is a turbulent flow.

In this way, the fluid flowing through the lower flow path flows through the upper flow path of the partition 5 through the opening H where the partition 5 is not installed in a turbulent state, and then discharges through the outlet, and the high temperature waste heat flowing through the inner tube 2 and It is heated by heat exchange to become hot water.

The present invention has the advantage of increasing the heat exchange efficiency by securing a large heat exchange time with the waste heat by extending the length of the flow path by U-turn the space in which the fluid flows into the partition wall.

In addition, since the first and second baffles guide the flow of the fluid flowing in the flow path in a zigzag manner, the fluid flows uniformly so that the fluid is heat exchanged uniformly as a whole, thereby further improving heat exchange efficiency.

Claims (2)

Inner tube; An outer tube having an inner diameter larger than an outer diameter of the inner tube and having an inner tube penetrated therein to be sealed, and having an inlet and an outlet formed at one side thereof to allow fluid to flow in a space formed between the inner tube; A partition wall dividing the space formed between the inner and outer pipes to block a part of both sides of the space in the longitudinal direction between the inner and outer pipes so that the inlet and the outlet are isolated to be used as a single flow path; And Includes a plurality of baffles to be spaced apart at regular intervals in the longitudinal direction of the space between the inner, outer tube to turbulence the fluid flowing through the space; Wherein the inner tube is installed in a heat source engine so that waste heat of the heat source engine discharged through the inner tube heats the fluid flowing through the space. The method of claim 1, wherein the baffle is The plurality of inner and outer pipes are installed in the longitudinal direction of the plurality of spaced apart at regular intervals, the body outer periphery having a thin plate shape is formed in the same as the outer diameter of the outer pipe to be fixed to the outer pipe, the body inside The first baffle includes a first baffle through which a plurality of fixing pieces protrude so as to allow the fluid to flow through the water hole larger than the outer diameter of the inner tube, and to be fixed to the inner tube inside the receiving hole; The second baffle is installed between the first baffles, the outer periphery of the body having a thin plate shape is smaller than the inner diameter of the outer tube so that the fluid can flow therein, and the assembly hole penetrates the inner tube so that the inner tube can be inserted and fixed. Baffle; characterized in that it comprises Double tube for fluid heating

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