KR101287035B1 - Boiler system of providing dry steam for renewed pipe - Google Patents

Abstract

PURPOSE: A boiler system for supplying dry steam to a renewed pipe is provided to reduce curing time and prevent the generation of a non-cured portion. CONSTITUTION: A boiler system for supplying dry steam to a renewed pipe comprises a water supply tank (10), a boiler (30), a gas-water separator (50), a dry steam heating device (70), a steam header (80), and a primary condensate water recovering line (50a). The boiler heats the water supplied from the water supply tank, thereby generating wet steam. The gas-water separator separates the wet steam discharged from the boiler into primary dry steam and primary condensate water. The dry steam heating device heats the primary dry steam discharged from the gas-water separator. The steam header supplies tertiary dry steam generated by making secondary dry steam discharged from the dry steam heating device pass through the steam header to a reversal vehicle. The primary condensate water recovering line recovers the primary condensate water discharged from the gas-water separator to the water supply tank. [Reference numerals] (AA) Wet steam; (BB) Primary dry steam; (CC) Primary condensate water; (DD) Secondary dry steam; (EE) Tertiary dry steam; (FF) Secondary condensate water; (GG) Tertiary condensate water

Description

Boiler system of providing dry steam for renewed pipes

The present invention relates to a boiler system for supplying tube regeneration dry steam without generating condensate in the tube regeneration but without recovering the waste heat in the tube regeneration. In particular, a separator, a dry steam heating device and a steam header are provided between the boiler and the inverted vehicle. The present invention relates to a boiler system for supplying tube regeneration dry steam for improving the quality of the tube regeneration and shortening the curing time by preventing boiler internal hardening due to the low temperature of condensate caused by wet steam. .

BACKGROUND ART Conventionally, for example, a device interposed in a patent document has been proposed as a device for supplying heating steam for tube regeneration.

In the conventional pipe repair and rehabilitation method, as shown in FIG. 2, the inverted tube 130 is inserted into the repaired target pipeline 1 to heat the water in the water supply tank 120 to the boiler 110 by the boiler 110. Inverting tube curing step of curing the inverted tube by injecting the generated high-temperature steam; A use steam discharge step of discharging steam used for curing the inversion tube through one or more withdrawal pipes 210 inserted from the manhole 2 on one side of the inversion tube; Steam collecting step of collecting the high temperature steam discharged from the withdrawal pipe to the air tank 230; Steam cooling step of cooling the steam by passing the steam discharged through the withdrawal pipe to the cooling pipe 220 provided in the water supply tank to perform a heat exchange between the steam and the water of the water supply tank; A cooling steam discharge step of sucking the cooled steam discharged through the cooling pipe and deodorizing it through the deodorizing equipment 240 and discharging it to the atmosphere; And a odor removing step of deodorizing the odor generated in the manhole together with steam using suction power generated in the blowing fan 244 of the deodorizing equipment.

That is, since the high-temperature steam introduced into the conventional inverting tube flows into the inverting tube as it is, the wet steam containing water (saturated water), which is the steam heated in the boiler 110, water is lowered in the temperature of the wet steam, for example, 100 degrees or less. Lowering them creates an uncured portion, which can be hardened manually or has to be partially removed and reinforced.

In addition, when water is condensed and collects in the pipeline during curing, it should be drained.

In addition, the use steam is discharged to exchange heat with the water supply tank, but the temperature of the used steam is remarkably low while passing through a long pipeline, and the preheating effect is not so good.

Korean Patent Publication No. 10-084a4783

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, while minimizing the uncured and condensate pools generated when the pipeline lining is hardened by wet steam, while significantly improving the boiler preheating efficiency and improving the quality of the regeneration liner and shortening the curing time. It is an object of the present invention to provide a boiler system for supplying pipe regeneration dry steam.

In order to achieve the above object, Claim 1 of the present invention is a boiler system for supplying dry steam for supplying dry steam into the inverted tube for tube regeneration supplied through an inverted vehicle to cure the thermosetting resin of the inverted tube,

feed tank; A boiler for heating the water supplied from the water supply tank to generate wet steam; A water separator separating the wet steam from the boiler into primary dry steam and condensate; Dry steam heating device for heating the primary dry steam from the separator; A steam header for supplying the third dry steam passing through the second dry steam from the dry steam heating apparatus to the inverted vehicle; And a primary condensate recovery line for recovering primary condensate from the water separator to the feed tank.

The primary condensate return line is a condensate return pipe connecting the water separator and the water supply tank, a strainer and a trap installed on the condensate return pipe, a first valve installed at an inlet side of the strainer and an outlet side of the trap. And a second valve, a bypass pipe connecting the inlet side of the first valve and the outlet side of the second valve, and a valve installed in the bypass pipe.

In the boiler system for pipe regeneration dry steam supply of claim 2 of the present invention, the dry steam heating apparatus and the steam header are preferably further provided with a secondary condensate recovery line and a tertiary condensate recovery line connected to the feed water tank. Do.

The present invention has the following effects.

The presence of a separator, dry steam heating unit and steam head that separates the wet steam from the boiler into dry steam and condensate ensures that the liquid (drain) does not collect in the pipeline due to virtually 100% waterless dry steam. First of all, shortening of curing time (a significant improvement in construction speed) and suppression of occurrence of uncured parts (ie, uniform curing quality) can be achieved.

In addition, since the condensed water separated from the wet steam is directly recovered to the water supply tank, the saturation temperature of the condensed water is mixed with the water supply as it is, so that the boiler feed water heating effect is very large, thereby improving the energy efficiency of the boiler and reducing the operating time.

In addition, condensate recycling reduces piping corrosion resulting from dissolved oxygen removal, in particular, corrosion control.

In particular, by adding a dry steam heating device, the dry steam from the separator can be heated again to send near 100% of the dry steam to the steam header.

Furthermore, by adding steam headers, the dry steam from the steam header itself is not only required to dispense dry steam from the dry steam heating unit, but is also applicable in the form of spares, and if there is dry steam that has not been heated again in the dry steam heating unit. Separation of the tertiary dry steam and condensate (flowing light dry steam up and heavy condensate down) allows the supply of substantially 100% dry steam.

1 is a system showing the interior of the boiler system for pipe regeneration dry steam supply according to a preferred embodiment of the present invention.
Figure 2 is a connection diagram showing a state connecting the conventional boiler and the inverter.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, in which like reference numerals refer to like parts, and detailed description thereof will be omitted.

In addition, the water separator 50 in the boiler system of the present invention is the primary dry steam and the first condensed water, the dry steam heating device 70 is the secondary dry steam and condensate, the steam header 80 is the tertiary dry steam and condensate This can be understood as.

1 is a system showing the interior of the boiler system for pipe regeneration dry steam supply according to a preferred embodiment of the present invention.

As shown in FIG. 1, the boiler system for supplying tube regeneration dry steam is largely heated in the water supply tank 10, the water supply tank 10, and the boiler 30 and the boiler 30 to generate wet steam. Water vapor separator (50) for separating the wet steam from the primary dry steam and condensate, dry steam heating device 70 for heating the primary dry steam of the water separator (50), secondary steam coming out of the dry steam heating device (70) Primary condensate recovery line (50a) for recovering the primary header of the dry steam passed through the dry steam to the inverted vehicle 100, the primary condensate of the water separator 50 to the water supply tank (10) It includes.

The water supply tank 10 and the boiler 30 are connected to the water supply pipe 11, and a ball valve 13 is installed in the water supply pipe 11.

The wet steam outlet of the boiler 30 and the wet steam inlet of the water separator 50 are connected by a wet steam pipe 31. The steam valve 31 is provided with a valve 33 for the boiler and a primary pressure gauge 35.

The drain pipe 37 is further provided in the boiler 30, and the remaining water in the boiler 30 can be drained and cleaned.

The water separator 50 is a conventional steam separator for separating wet steam into dry steam and condensed water, and is a device that separates and removes moisture of steam flowing through a pipe by a device such as a diaphragm, a wire mesh, or a cyclone. to be.

The dry steam supply line 60 includes a primary dry steam pipe 61 connected to the primary dry steam outlet of the water separator 50, a pressure reducing valve 60 installed in the primary dry steam pipe 61, and a pressure reduction. The first flow path open / close valve 65 and the second flow path open / close valve 67 provided in the pipe 61 before and after the valve 63 are included.

The first flow path opening and closing valve 65 and the second flow path opening and closing valve 67 are installed for maintenance of the pressure reducing valve 63. That is, the first flow path opening and closing valve 65 and the second flow path opening and closing valve 67 are always open.

The first flow path opening and closing valve 65 and the second flow path opening and closing valve 67 may be implemented as a gate valve.

The pipe 61 between the first flow path opening and closing valve 65 and the pressure reducing valve 63 may further include a Y-type strainer 69 for removing foreign matter contained in the primary dry steam.

In addition, the primary dry steam pipe 61 may be further provided with a secondary pressure gauge 68 for measuring the pressure through the second flow path opening and closing valve 67.

On the other hand, the bypass line 40 is preferably further included between the inlet pipe 31 of the separator 50 and the outlet pipe 61 of the second flow path opening and closing valve 67.

The bypass line 40 includes a bypass pipe 41 for connecting the inlet pipe 31 of the separator 50 and the outlet pipe 61 of the second flow path opening / closing valve 67, and the bypass pipe ( It consists of the bypass valve opening and closing valve 43 provided in 41).

It is preferable that the globe valve is implemented as the bypass valve for opening and closing the valve 43.

By such a configuration of the bypass line 40, when there is an abnormality in the primary dry steam pipe 61 side flow path, it is bypassed so that the operation can be continued without stopping the operation.

The primary condensate recovery line 50a is a primary condensate recovery pipe 51a connecting the condensate outlet of the water separator 50 and the water supply tank 10, and a Y-type strainer installed in the primary condensate recovery pipe 51a. 53a and the trap 55a for extracting only liquid from the primary condensate, the first valve 56a provided in the inlet pipe of the Y-type strainer 53a, and the agent provided in the outlet pipe of the trap 55a. It consists of two valves 57a.

In addition, the primary condensate return line 50a is further provided with a primary condensate bypass line composed of a bypass pipe 58a and a bypass valve 59a provided in the bypass pipe 58a. Maintenance of the strainer 53a and the trap 55a is facilitated.

On the other hand, the dry steam supply line 60 is preferably further provided with a dry steam heating device 70 and the steam header 80.

The dry steam heating device 70 generates secondary dry steam closer to the superheated steam by passing the primary dry steam into a chamber in which the heating coil is electrically heated. Preferably, the dry steam heating device 70 is implemented as an intensive dry steam heating device. .

That is, the dry steam heating device 70 passes the primary dry steam coming in through the primary dry steam pipe 61 and passes through the heated coil, and the secondary dry steam generated by heating enters the steam header 80. When secondary condensate is generated, the secondary condensate is recovered through the secondary condensate recovery line 70a connected to the water supply tank 10.

A dry steam heating device valve 71 is installed at an inlet pipe of the dry steam heating device 70, and a valve 74 is connected to a pipe connected to an inlet of the steam header 80 at an outlet side of the dry steam heating device 70. ) Is installed.

Dry steam heating device 70 can be manufactured in a small size because it is heated by an electric heater, it is very useful when mounted in a boiler vehicle for tube regeneration.

The secondary condensate recovery line (70a) is a secondary condensate recovery pipe (71a) connecting the condensate outlet of the dry steam heating device 70 and the water supply tank (10), similar to the primary condensate recovery line (50a), and the secondary A Y-type strainer 73a provided in the condensate return pipe 71a, a trap 75a for extracting only liquid from the secondary condensate, a first valve 76a provided in an inlet pipe of the Y-type strainer 73a, It consists of the 2nd valve 77a provided in the piping at the outlet side of the trap 75a.

In addition, the secondary condensate return line 70a further includes a bypass conduit for secondary condensate composed of a bypass pipe 78a and a bypass valve 79a provided in the bypass pipe 78a. Maintenance of the strainer 73a and the trap 75a is facilitated.

The secondary condensate recovery pipe 71a is connected to the primary condensate recovery pipe 51a to recover the primary and secondary condensate into the water supply tank 10.

Steam header 80 is a distributor, a cylindrical vessel that distributes the tertiary dry steam where necessary.

That is, the steam head 80 is discharged through the tertiary dry steam pipe 83 when the secondary dry steam vertically enters the inside and hits the floor, and the heavy tertiary condensate is supplied to the water supply tank 10. Recovered through the third condensate recovery line (80a) connected to.

A steam head valve 81 is installed at the inlet side pipe of the steam head 80, and a spare pipe 85 is further formed at the outlet side of the steam head 80. ), Only the pipe 85 or both of the pipes 83 and 85 can be made to flow.

The valve 84 and the valve 86 are also provided in the piping 83 and the piping 85.

In particular, the pipe 83 is connected to the inversion vehicle 100 to supply the tertiary dry steam into the inversion tube 130.

The third condensate recovery line (80a) and the third condensate recovery pipe (81a) and the third condensate recovery line connecting the condensate outlet of the steam header 80 and the water supply tank 10, similar to the secondary condensate recovery line (70a) Y-type strainer 83a provided in the pipe 81a, a trap 85a for extracting only liquid from the tertiary condensate, a first valve 86a provided in the inlet-side pipe of the Y-type strainer 83a, and a trap ( It consists of the 2nd valve 87a provided in the outlet piping of 85a).

Further, the third condensate return line 80a further includes a bypass line 88a and a bypass line for the third condensate composed of a bypass valve 89a provided in the bypass pipe 88a. It is easy to maintain the strainer 83a and the trap 85a.

In addition, a drain valve 82a is further installed in the branched pipe in the tertiary condensate water return pipe 81a so that water can be discharged immediately.

Through the configuration of the water separator 50, the dry steam heating device 70 and the steam header 80, the wet steam is made to be substantially 100% or close to dry steam and supplied into the inverting tube 130, the conduit 1 ), The temperature distribution is kept uniform in a high state to obtain a uniform curing quality.

In addition, the configuration of the primary condensate recovery line 50a of the separator 50, the secondary condensate recovery line 70a of the dry steam heating device 70 and the third condensate recovery line 80a of the steam header 80 Through the condensed water at a relatively high temperature (nearly 100 degrees) is provided to the water supply tank 10 to increase the water temperature of the water supply tank 10 to reduce the fuel cost of the boiler.

As described above, although described with reference to a preferred embodiment of the present invention, the present invention can be variously changed or modified within the scope without departing from the spirit and scope of the present invention described in the claims Those skilled in the art will appreciate.

1: pipeline 10: water tank
11: water supply pipe 13: ball valve
30: boiler 31: wet steam piping
33 boiler valve 35 primary pressure gauge
37: drain piping 40: bypass line
41: bypass piping 43: bypass flow opening and closing valve
50: water separator 50a: primary condensate recovery line
51a: Primary condensate recovery pipe 53a: Y type strainer
55a: trap 56a, 57a: valve
58a: bypass piping 59a: valve
60: dry steam supply line 61: primary dry steam piping
63: pressure reducing valve 65: the first flow path opening and closing valve
67: second flow opening and closing valve 68: secondary pressure gauge
69: Y type strainer 70: dry steam heating device
71,74: Valve 70a: 2nd condensate recovery line
71a: Second condensate recovery pipe 73a: Y type strainer
75a: Steam header trap 76a, 77a: Valve
78a: bypass piping 79a: valve
80: steam header 81,84,86: valve
83: 3rd dry steam piping 85: spare piping
80a: 3rd condensate return line 81a: 3rd condensate return line
82a: Drain valve 83a: Y type strainer
85a: Steam header trap 86a, 87a: Valve
88a: bypass piping 89a: valve
100: inverted vehicle 130: inverted tube

Claims (2)

A boiler system for supplying dry steam for supplying dry steam by supplying dry steam into an inverting tube for reinforcing tubes supplied through an inverting vehicle, thereby curing the thermosetting resin of the inverting tube.
feed tank;
A boiler for heating the water supplied from the water supply tank to generate wet steam;
A water separator separating the wet steam from the boiler into primary dry steam and condensate;
Dry steam heating device for heating the primary dry steam from the separator;
A steam header for supplying tertiary dry steam, which has passed through the secondary dry steam from the dry steam heating apparatus, to the inverted vehicle; And
Including; primary condensate recovery line for recovering the primary condensate from the separator to the feed tank;
The primary condensate return line is a condensate return pipe connecting the water separator and the water supply tank, a strainer and a trap installed on the condensate return pipe, a first valve installed at an inlet side of the strainer and an outlet side of the trap. And a second valve, a bypass pipe connecting the inlet side of the first valve and the outlet side of the second valve, and a valve installed on the bypass pipe.
The method according to claim 1,
And a second condensate recovery line and a third condensate recovery line connected to the water supply tank are installed on the dry steam heating device and the steam header.

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