JPH0726252A - Cold storage material - Google Patents

Abstract

PURPOSE:To obtain a cold storage material having a suitable range of a service temperature, a high cold storage capacity and flowability. CONSTITUTION:This cold storage material can easily be packed into the freezer of a refrigerator car because it is made of a solution prepared by adding glycol to water and adding a salt as a freezing point depressant to this aqueous solution, and therefore, the flowability of the glycol is improved, and can keep the refrigeration temperature (-18 deg.C or below) for a long time because the salt added increases the latent heat decreased by the glycol added.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a regenerator material applied to refrigeration equipment in a refrigeration vehicle.

[0002]

2. Description of the Related Art Conventional cold storage in a refrigerating vehicle has been carried out by loading a condensing unit or loading and unloading a container containing a cold storage material, but these consume a lot of fuel. It was troublesome.

In order to solve the above problems, the invention of the applicant's patent application (Japanese Patent Laid-Open No. 3-307974,
The title of the invention is "refrigeration equipment for refrigerated vehicles"). In this method, the latent heat storage material is stored in advance in a tank on the ground, and the cold plate loaded on the cold storage vehicle is filled with the latent heat storage material by a pump to keep the cold storage vehicle cold.

[0004]

As a conventional regenerator material for refrigeration equipment, there are a latent heat utilization type regenerator material and a sensible heat utilization type regenerator material.

The latent heat utilization type has a large amount of cold storage heat because it is accompanied by a phase change, but has little fluidity and is difficult to transfer by a pump. Also, the sensible heat type has high fluidity because the antifreeze liquid (brine) is used in a liquid state,
There is a problem that the amount of cold storage heat is small.

[0006] As a fluid cold storage material that can utilize latent heat, a liquid ice system for rapidly cooling an ethylene glycol aqueous solution (freezing, Vol. 62, No. 715 (1987) 25
Page, Research on Machinery Vol. 43, No. 11 (1991, page 82) is well known, but it is applied to building air-conditioning, etc. Can not be used for.

A fluid regenerator material which can be used in the freezing temperature range is a water-acetone system (-
Although there is a research example (Unichemy Technical Report No. 4 (1993)) in the temperature range of 20 ° C to -50 ° C, acetone cannot be used for transportation vehicles because it is flammable.

In order to solve the above-mentioned problems, the present invention is to provide a cold storage material having the following conditions as a cold storage material for a refrigeration vehicle. (1) It has fluidity in the operating temperature range of -18 ° C or lower. (2) The latent heat can be used in the operating temperature range. (3) It is chemically stable, does not deteriorate even after repeated heating and cooling, and is highly safe against fires. (4) Less toxic and corrosive. (5) It is inexpensive.

[0009]

[Means for Solving the Problems]

(1) In the cold storage material of the present invention, by adding glycols to water and further adding salts as a freezing point depressant,
It is characterized by having fluidity and latent heat in the freezing temperature range (-18 ° C or lower).

(2) The present invention is characterized in that propylene glycol is added as a glycol and nitrate is added as a freezing point depressant to the regenerator material described in the above invention (1).

(3) The present invention is the regenerator material according to the above invention (2), wherein the propylene glycol is 10 to 40 w.
It is characterized by containing 1 to 40 wt% of sodium nitrate among t% and nitrates.

[0012]

In the above invention (1), regarding the glycol aqueous solution obtained by adding glycols to water, when a cool storage material having fluidity at about -20 ° C. is to be obtained, 35-40 wt.
% Glycol concentration is required, and the amount of latent heat becomes small.

Therefore, when the glycol concentration is reduced and a freezing point depressant is added thereto, only the freezing temperature can be lowered without lowering the latent heat, and the liquidity and the latent heat are obtained at around -20 ° C. A cold storage material can be obtained.

The glycols include ethylene glycol, diethylene glycol, propylene glycol and the like, and freezing point depressants include nitrates, sulfates, carbonates, acetates, hydroxides, halides and the like. It is applicable to this.

Regarding the above invention (2), when propylene glycol is added as the glycols and nitrate is added as the salts in the regenerator material described in the above invention (1), the latent heat amount is reduced particularly in the glycol-water system. This is because the freezing temperature can be reduced and the freezing start temperature can be lowered. The nitrates include sodium nitrate, ammonium nitrate, potassium nitrate, calcium nitrate, magnesium nitrate and the like.

As for the invention (3), in the regenerator material according to the invention (2), propylene glycol is 10 to 40 wt% and sodium nitrate is 1 as nitrate.
This is because the heat storage amount and fluidity are optimized when -40 wt% is added.

[0017]

EXAMPLE An example of the present invention will be described below. The regenerator material of this example is produced by adding glycols to water and then adding salts as a freezing point depressant to this aqueous solution.

This embodiment was obtained as a result of the following examinations. That is, by having a solidification component (mainly ice) that solidifies at a temperature at which cold should be stored and a liquid component that does not solidify as main components, and mixing the liquid component and the solidification component in a cold storage state, it has fluidity, and As a result of intensive studies aimed at obtaining a substance capable of storing latent heat, it was concluded that it is effective to use a sherbet-like product obtained by cooling an aqueous solution of glycols as a regenerator material. .

However, the melting temperature of the aqueous solution of glycols is higher than the freezing temperature when the concentration of glycols is low, and it is necessary to increase the concentration of glycols in order to lower the melting temperature. In that case, the amount of latent heat decreases.

In order to solve this problem, the concentration of glycols was lowered and an inorganic salt was added, so that the freezing point could be lowered, and the cold storage with a large fluid flow and a large latent heat amount in the freezing temperature range of -18 ° C or lower was obtained. The wood was obtained.

Regarding the above, in order to quantitatively grasp the properties of the aqueous solution at the respective concentrations of glycols and salts, the measurement using the low temperature differential scanning calorimetry (hereinafter referred to as DSC) was carried out, and the result was obtained. This will be described below with reference to Tables 1 and 2.

Table 1 shows the results of measuring the melting temperature and the amount of phase transition heat of ethylene glycol and propylene glycol. In addition, Table 2 shows the measurement results when salts were added to these glycols.

[0023]

[Table 1]

In the case of an aqueous solution obtained by adding ethylene glycol or propylene glycol to water, as shown in Table 1, in order to bring the melting temperature into the freezing temperature range (-18 ° C. or lower),
40 for both ethylene glycol and propylene glycol
% Or more, but the latent heat is 17.8 and 16.
It decreases to 4 cal / g.

[0025]

[Table 2]

When the glycol concentration of the above aqueous solution is reduced to 25% and salts are added, as shown in Table 2, it is possible to obtain one having a latent heat of 20 cal / g or more even at a melting temperature of -18 ° C or less. In particular, it can be seen that a high amount of heat can be obtained when propylene glycol and nitrate are combined.

With respect to the regenerator material of this example, a fluidity confirmation test was conducted, and the results are shown in Table 3. In the above test, 200 g of the regenerator material was put in a container and the atmosphere temperature was changed, and the change in fluidity was visually observed. From Table 3, the regenerator material obtained by adding salts to propylene glycol and ethylene glycol showed fluidity. You can see that it is equipped.

[0028]

[Table 3]

[0029]

INDUSTRIAL APPLICABILITY The regenerator material of the present invention is produced by adding glycols to water and then adding salts as a freezing point depressant to this aqueous solution, so that the glycols increase their fluidity. It is easy to fill the freezer with
Since the salts increase the amount of latent heat reduced by the addition of glycols, a regenerator material that can maintain the freezing temperature (-18 ° C or less) for a long time is realized.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Kyosuke Sasaki 3-chome, Asahi-cho, Nishibiwajima-cho, Nishikasugai-gun, Aichi Pref., Air-conditioning factory, Mitsubishi Heavy Industries, Ltd. 3-1, Asahi-cho, Air Conditioning Plant, Mitsubishi Heavy Industries, Ltd. (72) Inventor Yoshitaka Yada, Nishibakijima-cho, Nishikasugai-gun, Aichi 3--1, Asahi-cho, Air Conditioning Plant, Mitsubishi Heavy Industries, Ltd. (72) Ritsuji Morishima No. 1 Takamichi, Iwazuka-machi, Nakamura-ku, Nagoya City Nagoya Research Laboratory, Mitsubishi Heavy Industries, Ltd. (72) Inventor, Haruhide Suzuki No. 1 Takamichi, Iwatsuka-machi, Nakamura-ku, Nagoya City, Nagoya Research Institute, Mitsubishi Heavy Industries, Ltd.

Claims (3)

[Claims] 1. A regenerator material having fluidity and latent heat in a freezing temperature range (-18 ° C. or lower) by adding glycols to water and further adding salts as freezing point depressants. 2. The cold storage material according to claim 1, wherein propylene glycol is added as a glycol and nitrate is added as a freezing point depressant. 3. The cold storage material according to claim 2, wherein the propylene glycol contains 10 to 40 wt% and the sodium nitrate in the nitrate contains 1 to 40 wt%.