JPH07270085A - Heat pipe type heat exchanger - Google Patents

Abstract

PURPOSE:To obtain a heat exchanger in which gas can be heated with hot spring water as a heat source and leakage of the water to the gas side is prevented. CONSTITUTION:The heat pipe type heat exchanger comprises a vessel 5 through which hot spring water flows, a duct 10 through which gas flows, and a heat pipe which is disposed from an interior of the vessel 5 into the duct 10, in which working liquid is sealed, heated by heat exchanging with the water to be evaporated, cooled by heat exchanging with the gas to be condensed thereby to supply thermal energy of the water in the vessel 5 to the gas in the duct 10.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a heat pipe type heat exchanger.

[0002]

2. Description of the Related Art In an area where hot spring water is available, it is possible to use the thermal energy of the hot spring water for all industries by heating the gas using the hot spring water as a heat source.

Conventionally, when it is attempted to heat a gas by using hot spring water as a heat source, generally, the hot spring water is passed through the heat transfer tube for transferring heat and the gas is passed outside the heat transfer tube or inside the heat transfer tube. The gas is passed through and the hot spring water is passed outside the heat transfer tube to directly exchange heat between the hot spring water inside and outside the heat transfer tube and the gas. However, when the heat transfer tube is corroded by the sulfur content contained in the hot spring water, the hot spring water leaks to the gas side, which may cause a serious obstacle or accident to the equipment on the gas side.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and is capable of heating gas using hot spring water as a heat source and preventing the hot spring water from leaking to the gas side. An object of the present invention is to provide a heat exchanger.

[0005]

According to the present invention, a container in which hot spring water is circulated, a duct in which gas is circulated in the container, and a duct arranged from the inside of the container to the inside of the duct are provided. , The working liquid is enclosed therein, the working liquid is heated by heat exchange with the hot spring water to evaporate, and is cooled by heat exchange with the gas to be condensed and thereby heat of the hot spring water in the container. A heat pipe heat exchanger for supplying energy to the gas in the duct.

The portion of the heat pipe that comes into contact with the hot spring water is lined with resin from the viewpoint of preventing corrosion, or
Alternatively, it is desirable to use a material that can withstand corrosion.

[0007]

According to the heat pipe type heat exchanger of the present invention, by supplying the heat energy of the hot spring water in the container to the gas in the duct by the heat pipe, the hot spring water can be used as a heat source to heat the gas. . Moreover, since the hot spring water and the gas are separately circulated through the container and the duct, even if the heat pipe is corroded by the contact with the hot spring water, the hot spring water does not leak to the gas side.

[0008]

Embodiments of the present invention will now be described in detail with reference to the drawings.

FIG. 1 is an explanatory view showing a heat pipe type heat exchanger of this embodiment, and FIG. 2 is an explanatory view of FIG. 1 seen from the side. In this heat pipe type heat exchanger, a plurality of heat pipes 1 arranged on the same straight line at equal intervals are arranged in a staggered manner (6 sets in which the heat pipes 1 are spaced from each other by 1/2). It is parallel. The heat pipe 1 is one in which the working fluid is enclosed in a sealed pipe, and the central portion thereof is attached to the hole of the support plate 2 by adhesion or the like. As shown in FIG. 3, the heat pipe 1 is lined with a resin 3 on the outer peripheral surface extending from the vicinity of the central portion to the lower end. On the outer surface of the heat pipe 1 above the support plate 2, fins 4 are attached to improve heat conductivity with the surroundings (gas).

On the lower surface of the support plate 2, polyvinyl chloride (P
A container 5 made of VC) is tightened with bolts 7 via a packing 6 and attached. The container 5 is the heat pipe 1.
Is arranged so as to cover the lower portion of the support plate 2. An inlet nozzle 8 for supplying hot spring water is attached to the lower side surface of the container 5, and an outlet nozzle for letting the hot spring water outflow to a position opposite to the inlet nozzle 8 via the heat pipe 1 on the upper side surface thereof. 9 is attached, and hot spring water is circulated therein to contact the heat pipe 1. The nozzles 8 and 9 may be flanges. The reason for making the container 5 overflow in this way is that the hot spring water in the container 5 can be maintained at a predetermined amount.
Even if all heat pipes 1 cannot be used due to corrosion, the hot spring water will not overflow and leak to the gas side.
Moreover, the heat transfer area (contact area between the hot spring water and the heat pipe) necessary for heating the gas can be secured.

A duct 10 is attached to the upper surface of the support plate 2 by a bolt 12 via a packing 11. The duct 10 is arranged so as to cover the upper portion of the support plate 2 of the heat pipe 1 and the fins 5. Duct 1
No. 0 has a structure in which the gas flows from the same side as the outlet nozzle 9 of the container 4 toward the opposite side and contacts the heat pipe 1 and the fins 5.

According to the heat pipe type heat exchanger described above, the working liquid on the lower side of the container 5 in the heat pipe 1 is heated and evaporated by heat exchange with the hot spring water in the container 5, and the upper duct 10 is heated. Move to the side at high speed. The moved hydraulic fluid is cooled by heat exchange with the gas in the duct 10 and condensed, and returns to the lower container 5 side again. By supplying the thermal energy of the hot spring water in the container 5 to the gas in the duct 10 by repeating such evaporation and condensation of the working liquid, the hot spring water can be used as a heat source to heat the gas. Moreover, since the hot spring water and the gas are separately circulated in the container 5 and the duct 10, respectively, even if the heat pipe 1 is corroded by the contact with the hot spring water, the hot water in the duct 10 on the gas side remains. It never leaks.

Further, the heat pipe 1 is lined with the resin 6 in the portion which comes into contact with the hot spring water, so that corrosion is also prevented.

In the above embodiment, the case where the gas is heated by using the hot spring water as the heat source has been described, but it is also possible to heat the gas by utilizing the exhaust heat of the corrosive fluid other than the hot spring water.

[0015]

As described above in detail, according to the present invention, there is provided a heat pipe type heat exchanger capable of heating gas by using hot spring water as a heat source and preventing the hot spring water from leaking to the gas side. It

[Brief description of drawings]

FIG. 1 is an explanatory view showing a heat pipe type heat exchanger of this embodiment.

FIG. 2 is an explanatory view of FIG. 1 seen from a side surface.

FIG. 3 is an explanatory view showing a mounted state of a heat pipe.

[Explanation of symbols]

1 ... Heat pipe, 2 ... Support plate, 3 ... Resin, 4 ... Fin, 5 ... Container, 6, 11 ... Packing, 10 ... Duct.

Claims (1)

[Claims] 1. A container in which hot spring water is circulated, a duct in which gas is circulated therein, a duct extending from the inside of the container to the inside of the duct, and a working fluid enclosed therein. The working fluid is heated by heat exchange with the hot spring water to evaporate, and is cooled by heat exchange with the gas to be condensed to condense the thermal energy of the hot spring water in the container into the gas in the duct. A heat pipe type heat exchanger comprising: a heat pipe for supplying.