UA70551U - Composition of low-temperature heat carrier - Google Patents

Abstract

A composition of low-temperature heat carrier comprises water and glycerol, zinc oxide, sodium or potassium hydroxide, sodium silicate, oxyethylidenediphosphonic acid, thiocarbamide, dextrin, foam suppressor, tolyltriazole.

Description

The useful model belongs to refrigeration and heating equipment, in particular to liquid compositions for use as a coolant or a low-freezing heat carrier, as well as for cooling engines and in air conditioning installations.

Known compositions of coolants based on ethyl glycol with special additives that reduce corrosion on internal surfaces, see Pokrovsky H.P. Fuel, lubricant material. M.: 1985. - P. 162-167). To protect against the destruction of zinc and chrome coatings, sodium molybdenum oxide (7-8 g/l) is introduced (ibid., p. 1641).

The use of other corrosion inhibitors in ethylene glycol antifreezes is also known: triethanolamine phosphate (Z 95), mercaptobenzothiazole or benzotriazole (0.2-0.3 95), sodium benzoate (5-7.5 95), sodium tetraborate (2.4-3, 0) | see Non-flammable coolants and hydraulic fluids, ed. Sukhotina A. M.-1979. - P. 275 and 289| and other components of the same scale, p.-290 and 2911.

The disadvantages of these coolants are their high toxicity. Ethyl glycol is a strong food poison.

Getting it into the body even in small amounts causes severe poisoning.

The lethal dose of ethyl glycol for a person is only 20-30 g. A significant disadvantage of coolants based on ethyl glycol is their property of increased permeability. The more threaded connections, gaskets in the cooling system, seals, the higher the probability of their leakage.

The known composition of the coolant |Patent О5Мо4455248, МПКСО9К5/00, 19.06.1984|, which contains mass 9:

Alkali metal silicate 0.1 Alkali metal phosphate 1.8-2.2 Sodium tetraborate 0.15-0.5 Sodium nitrate 0.1-0.4

Ma - mercaptobenzthiazole 0.15-0.5 alkali metal hydroxide 013 water 0.12-013 ethylene glycol the rest.

Defoamer, dye, ethylene glycol (if necessary, the rest).

Such composition of the coolant has a high freezing point of up to -13 "С, which makes it unusable in winter conditions. The components present in the composition have carcinogenic properties.

A known composition of a low-temperature coolant for cooling systems of internal combustion engines and heat exchangers (Patent OA Mo 55383, MPK СО9К5/00 15.04.2003) based on ethylene glycol with the following ratio of components, mass 9o: ethyl carbitol 10.0-45.0 ethylene glycol 15.0 -64.0 sodium tetraborate 0.3-1.8 alkali metal phosphate 0.2-1.2 alkali metal salt 2-mercaptobenzthiazole 0.005-0.02 alkali metal silicate 0.005-0.5 alkali metal hydroxide 0.08-0 .25 silicone defoamer 0.0005-0.015 dye 0.001-0.002 water the rest.

The main disadvantage of such a coolant is that it uses ethylene glycol as its base (GOST 19710-83|. According to clause 2 of GOST 12.1.007-76 "Trebovaniya bepozanosti", ethylene glycol is poisonous and has a narcotic effect. According to GOST 19710- 83. Antifreezes, which

Co.) developed on the basis of ethylene glycol, can be dangerous for both people and the environment.

The coolant also includes ethyl carbitol, which is a technical product

GGUb6-01-5757583-89| and holds 20-30 95 ethylene glycol. Ethylcarbitol is toxic. People with kidney and skin diseases need to be especially careful when working with ethyl carbitol. In addition, ethylcarbitol affects the genitals and vision, although it is less toxic than ethylene glycol (including due to its lower content of ethylene glycol).

Thus, coolant using ethylene glycol and ethyl carbitol is toxic, harmful to the environment and humans, and expensive.

The disposal of ethylene glycol and products based on it requires strict compliance with all requirements and norms according to GOST 19710-83. Replacing the basis of such a composition - ethylene glycol with a non-toxic substance, for example glycerin, leads to a decrease in the stability of the mixture and its delamination.

The known composition of the low-temperature heat carrier, see book Non-flammable coolants and hydraulic fluids. Under the editorship Sukhotina A.M. - 1979. - P. 312, fig. 10.10), containing glycerin, water and benzotriazole.

However, the known low-temperature coolant composition has an insufficient freezing point. When using it, corrosion of metal samples was observed and insoluble deposits were formed.

A known composition of a low-temperature coolant (Patent KO Me2137798, MPK СО9КБ/00, 20.09.1999) consisting of glycerol, water and benzotriazole, sodium molybdate, sodium tetraborate and disodium phosphate with the following ratio of components, by weight. glycerin 30-32 sodium molybdate 1-3 disodium phosphate 0.5-2 sodium tetraborate 1-3 benzotriazole - 0.01-0.2 water the rest.

The disadvantages of this composition of the low-temperature coolant are its noticeable corrosive activity relative to metal materials and chemical instability, which leads to the formation of insoluble sediment, which is unacceptable in cooling systems, since the sediment impairs the flow of the coolant through the system, leads to clogging of small gaps in the cooling system, which leads to the formation of stagnant zones and a decrease in the efficiency of the cooling system. A significant disadvantage of this composition is noticeable foaming and delamination of the composition. The components of the well-known low-temperature coolant composition, in particular sodium molybdate, cause eye and skin irritation. Compositions with benzotriazole are classified as dangerous for the environment. Regulatory materials require careful handling of products containing it, it cannot be poured into the ground, sewers or water bodies.

The basis of a useful model is the task of creating a composition of a low-temperature coolant in which, due to the use of new ingredients in its composition and the use of a new ratio of components, its chemical stability is increased, foaming and delamination of the composition is reduced, corrosive activity relative to metal materials is reduced, and the solubility of sealants and sealing materials of natural origin - cardboard, yarn (hemp), oils.

The task is solved by the fact that the composition of the low-temperature coolant includes water and glycerin.

New in the composition of the low-temperature coolant is the use of zinc oxide, sodium hydroxide, or potassium, sodium silicate, oxyethylidenephosphonic acid, thiourea, dextrin, defoamer, tolyltriazole in the following ratio, by weight. Fo: glycerol 12.0--57.0 maonlcon 0.264--0.462 7po 0.016-0.028 oxyethylidenephosphonic acid 0.088--0.154 defoamer 0.004--0.007

Ma»5iOz 0.004--0.007 thiocarbamide 0.004--0.007 dextrin 0.02-0.035 tolyltriazole 0.044--0.077 water, the rest.

The use of new ingredients in the composition of the low-temperature heat carrier and the use of a new ratio of the content of components increases its chemical stability, reduces foaming and delamination of the composition, reduces corrosion activity relative to metal materials, and reduces the solubility of sealing and sealing materials of natural origin - cardboard, yarn (hemp), oil . The basis of the composition - glycerin is a food product that is safe for both people and the environment.

Disposal of the new low-temperature coolant composition does not cause problems. The specified properties significantly facilitate the replacement of the heat carrier after the end of its service life.

The development is illustrated by examples of its implementation.

For the approval of the composition of the low-temperature coolant, the compositions of the composition of the low-temperature coolant were prepared, the components of which (in mass. 95) are listed in Table 1.

When examining the delamination of the samples obtained in the examples, the composition of the composition of the low-temperature heat carrier obtained in the examples was defended for 500 hours and the delamination was visually assessed.

Corrosion activity of examples of the composition of low-temperature coolant was studied on samples in accordance with GOST 9.054-75 by assessing surface damage in 100 hours, 9o (method 4).

Foam formation of examples of low-temperature coolant compositions was studied on heated coolant samples by passing air through the sample layer in accordance with

GOST 28084-89.

Swelling and dissolution of rubber was studied according to GOST 9.030 by the volumetric hydrostatic method on a rubber sample of brand 57 grade TRP 100-60 for 70 hours.

Table 1 of Lada coins

Indicators: 77111111 foam formation according to GOST 28084-89Y.Sh.SNEU8 and 5 77871169 corrosion activity (damage

Re sviis NNNSLINES NNYA POST ON according to GOST 9.030 in 95

Claims (1)

USEFUL MODEL FORMULA The composition of a low-temperature coolant containing water and glycerin, which is distinguished by the fact that it additionally contains zinc oxide, sodium or potassium hydroxide, sodium silicate, oxyethylidenephosphonic acid, thiourea, dextrin, defoamer, tolyltriazole in the following ratio, by weight. 9o: glycerol 12.0--57.0 masonlcon 0.264--0.462 7po 0.016--0.028 oxyethylidenephosphonic acid 0.088--0.154 defoamer 0.004--0.007 Ma»5iOz 0.004--0.007 thiourea 0.004--0.007 decstry 0.004--0.007 tolyltriazole 0.044--0.077 water, the rest. 000 KompyuternaverstkaL.Tsikhanovska.dD (00000000 State Intellectual Property Service of Ukraine, str. Urytskogo, 45, m. Kyiv, MSP, 03680, Ukraine SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, m. Kyiv - 42, 01601