KR100191799B1 - Heating medium composition for heat-pipe - Google Patents

Abstract

The present invention relates to a heat medium composition for use in an exhaust heat recovery apparatus, particularly a heat pipe used for a high temperature or the like, more specifically, it has a wider operating temperature range, is incombustible and non-toxic, And a low-cost heat-medium composition for a heat pipe.

It is another object of the present invention to provide a heat medium composition for use in a heat pipe made of a steel material such as stainless steel or a material of a nonferrous metal material such as bronze or aluminum and which can prevent corrosion of these materials, On the other hand, it is an object of the present invention to provide a heating medium composition which can further increase the temperature range to be used. The present invention is characterized in that the heating medium composition used in the heart pipe is composed of water (distilled water) To provide a composition for a heat pipe.

Description

Heat medium composition for heat pipe

More specifically, the present invention relates to a heat medium composition for use in a heat exchanger for use in a heat recovery apparatus for use in an exhaust heat recovery apparatus, particularly, for a high temperature, and more particularly to a heat medium composition having a broader operating temperature range and being incombustible and non-toxic, And a low-cost heat-medium composition for a heat pipe.

As the heating medium or the heating medium composition used in the heat pipe, a variety of known compositions such as freon, water, glycerin, and sodium hydroxide aqueous solutions have been known.

For example, water can be used in a relatively wide operating temperature range of 30 to 200 DEG C. However, when it is used for a long period of time, there is a drawback that the material of the metal heat pipe to be used is corroded and also glycerin, an aqueous solution of sodium hydroxide, Aqueous solution or the like has a defect that the range of the freezing operation temperature is not widened.

In addition, the fluorocarbon hydrocarbon-based fluorocarbon-based heating medium, which is a carbon compound containing fluorine, which is widely used as a heating medium, has a narrow operating temperature range at about -10 to 140 ° C and is harmful to the human body. Due to the fact that the ozone layer of the global stratosphere is destructed (OPP) and global warming (GWP), the production itself is regulated, prohibited, and the price is also high.

Unlike the conventional heating medium, the present invention has a wide operating temperature range and a large corrosion resistance of the heat pipe, and can be replaced with a heating medium of the Freon system in particular.

In the specification of Japanese Patent Application No. 5-195308 filed by the present applicant, it is preferable to use water, sodium triphosphate, sodium hexametaphosphate, sodium tertiary phosphate, potassium primary phosphate, sodium secondary phosphate (anhydrous) and potassium secondary phosphate And a heat transfer medium composition for a heat pipe comprising distilled water and sodium triphosphate is proposed in Japanese Patent Application No. Hei 6-0148925.

The above composition is particularly useful in improving the corrosion resistance of a heat pipe, and the temperature range in which the composition is used is limited to 400 ° C to 350 ° C.

INDUSTRIAL APPLICABILITY The present invention relates to a heat medium composition for use in a heat pipe composed of a steel material such as stainless steel and a material made of a non-ferrous metal such as bronze or aluminum, which can prevent corrosion of these materials and has all the drawbacks The present invention is directed to a heating medium composition which can increase the temperature range to be used.

The present invention provides a heat medium composition for a heat pipe, which comprises a water (distilled water), a phosphate and an aqueous silicone oil, as a heat medium composition used in a heat pipe.

The phosphates include metal phosphates, diphosphates, ultrafin phosphates, triphosphates, and the like, and include at least one of these phosphates. Of these phosphates, triphosphates may be used singly, among which sodium triphosphate is most suitable. That is, trisphosphate forms an ion complex with calcium and other metal ions, and has ion blocking action to prevent precipitation of metal salts.

In the present invention, it is preferable that, in the composition, the composition is such that the quantitative ratio thereof is 40 to 70% by weight of water (distilled water or ion exchange water), 10 to 20% by weight of sodium triphosphate and 10 to 40% It can be seen that it is most effective.

Further, in addition to sodium triphosphate, sodium hexametaphosphate, potassium phosphate monophosphate as a primary salt of orthophosphate, sodium secondary phosphate (anhydrous) as a secondary phosphate, potassium secondary phosphate, and sodium tertiary phosphate as a tertiary salt , That is, may be added in whole or in part.

The heating medium composition of the present invention can be applied to any part of a heat pipe having a wider operating temperature range and made of stainless steel, copper, bronze, or aluminum as its material, and corrosion thereof can be effectively prevented.

Further, the composition is easy to handle, is nonflammable, is practically harmless to the human body, that is, it is harmless and inexpensive.

[Example]

Hereinafter, embodiments of the present invention will be described including the specific composition (composition) and aspects of the production thereof, but it goes without saying that the present invention is not limited to this embodiment.

In the present embodiment, the following substances were previously prepared as constituent components of the composition at the following ratios.

[Example 1]

[Example 2]

[Example 3]

[Example 4]

[Production methods of Examples 1 to 4]

Using a reaction heat mixer equipped with a stirrer and a mixer, the above components were combined in their respective quantitative ratios. First, the inside of the reaction heat mixer was washed with water, and after confirming that there was no foreign substance therein, it was washed again with water (distilled water).

After distilled water was added to the reaction heat mixer (the quantitative ratio of the substance was the same as above), sodium triphosphate was added, and the mixture was mixed by operating the mixer for about 30 minutes. After waiting for the temperature to become room temperature, silicone oil was added and the mixture was waited for 30 minutes, and the preparation of the composition was completed.

The composition of the heat medium of the present invention is composed of 40 to 70% by weight of distilled water, 10 to 20% by weight of sodium triphosphate, and 10 to 40% by weight of an aqueous silicone oil.

When water is used in an amount of 40 wt% or less, it can not transmit heat at a high temperature (300 to 400 ° C.). When it is used in an amount of 70 wt% or more, corrosion of the heat pipe is induced and the life thereof is shortened.

In the range of 10 to 20% by weight of sodium triphosphate, when the heat flowing into the inside of the heat pipe exceeds a certain limit, reflux of the working fluid from the condensing portion due to the capillary force does not follow the evaporation portion, Thereby causing a limit of the heat transport capability.

Other than 10 to 40% by weight of water-based silicone oil, because of the critical temperature due to inherent physical properties, it can not be used at a high temperature of 300 to 400 캜 and heat can not be transported. The thickness of the heat pipe used must be changed.

Therefore, the heating medium of the present invention is a new heating medium which is suitable for use in a high temperature region in the heat pipe and does not corrode the heat pipe.

This composition was used for a long period of time such as 10 months as a heating medium for a heat pipe made of stainless steel which is a steel product, but no corrosion occurred in the steel product.

This is because the component of sodium triphosphate in the composition forms a phosphoric acid coating on the surface of the pipe by indirect heating through the pipe.

Further, the above-mentioned product composition was used as a heat pipe for brass, bronze and aluminum, respectively, as in the case of the above, but corrosion of these materials was not recognized as in the case of using it as a heat pipe for stainless steel. The physical properties of the thus-prepared heating medium composition are as follows.

The product is packed in a plastic container, for example, in a suitable container such as 20 to 100 liters (liters), and packed in a suitable container, such as a plastic container. It is shipped.

The heat medium composition of the present invention has the composition and properties (characteristics) as described above. When used as a heat medium composition for a heat pipe, corrosion of the heat pipe is not caused. , Copper (bronze) such as brass or bronze, aluminum, etc., regardless of the kind of the material for the heat pipe.

Further, the heat medium composition of the present invention has a wide range of operating temperatures including lower heat and higher heat, and furthermore, it can be used stably over a long period of time.

It also has various advantages such as being nonflammable, harmless to the human body, easy handling and use, and low price.

Claims (5)

A heat medium composition for use in a heat pipe, which comprises water, a phosphate and a silicone oil. The heating medium composition for a heat pipe according to claim 1, wherein the phosphate triphosphate is triphosphate. The heat medium composition for a heat pipe according to claim 2, wherein the triphosphate is sodium triphosphate. The heating medium composition for a heat pipe according to claim 1, wherein the silicone oil is aqueous. The heating medium composition for a heat pipe according to claim 1, which comprises 40 to 70% by weight of water, 10 to 20% by weight of sodium triphosphate, and 10 to 40% by weight of the silicone oil.