SU812821A1 - Heat-accumulating composition based on lithium nitrate trihydrate - Google Patents

Description

The invention relates to the development of heat accumulators used in thermostabilizing devices.

Known heat storage vesche-, GUSTs used in the de- vice termostabilizi- ^e [1].

Closest to the proposed technical essence and the achieved result is a heat storage substance - lithium nitrate trihydrate [2].

The disadvantage of this heat-retaining substance is the high ’melting point (AOC).

The purpose of the invention is the expansion of the temperature field of application of crystalline hydrates in thermostabilizing devices.

This goal is achieved in that the heat storage composition based on lithium nitrate trihydrate additionally contains nickel nitrate hexahydrate in the following components, wt.%:

Hexa nickel nitrate hydrate

Lithium nitrate trihydrate

PRI me R 1. In a glass tube load 6.5 g (65 wt.%) Three

The rest of the hydrate lithium nitrate brand h.ch. and 3.5 g (35 wt.%) nickel nitrate hexahydrate grade H. Then this mixture is kept at a temperature above 60-70 ° C until the components are completely melted. The resulting mixture has a melting point of 24.2 ° C and a heat of fusion of 235 J / g.

Example 2. 6.0 g (60 wt.%) Of lithium nitrate hydrate trig and 4.0 (40 wt.%) Of nickel nitrate hexahydrate are loaded into a glass tube. This mixture is then held at temperatures above 60 ° C until the components are completely melted. The resulting mixture has a melting point of 24.2 ° C and a heat of fusion of 230 J / g

Example 3. Into a glass tube, 5.5 g of '55% by weight of lithium nitrate trihydrate and 4.5 g (45% by weight) of nickel nitrate hexahydrate are loaded. Then this mixture is kept at a temperature above 60 ° C until the components are completely melted. The resulting composition has a melting point of 24.2 ° C. and a heat of fusion of 225 J / g.

An increase or decrease in the selected limiting concentrations of the components leads to a change in the given parameters. temperature and heat of fusion of the heat storage composition Thus, the heat storage composition has a melting point of 24.2 + 0.1 ° C, which is 5.8 ° C lower than the known one, and a high heat of fusion of 230 + 5 J / g.

Claims (2)

The invention relates to the development of heat accumulators used in thermal stabilizing devices. Heat accumulating substance used in thermal stabilizing devices ij is known. The closest to the proposed technical essence and the achieved result is the heat accumulator of the lytic substance - lithium nitrate trihydrate 2. The disadvantage of this heat accumulating substance is the high melting point (30 ° C). The purpose of the invention is the expansion of the temperature range of application of crista llogidrate in thermostabilizing devices. This goal is achieved by the fact that the heat-accumulating composition based on lithium nitrate trihydrate additionally contains nickel nitrate hexahydrate in the following ratio of components, wt.%: Nickel nitrate hexahydrate Nickel nitrate trihydrate Example. 6.5 g (65 wt.%) Of lithium nitrate trihydrate of the brand of chemically pure are loaded into a glass probe. and 3.5 g (35 wt.%) of nickel nitrate hexahydrate brand h.ch. This mixture is then kept at a temperature of 60-70 ° C until the components are completely melted. The resulting mixture has a melting point of 24, and a heat of melting of 235 J / g. Example 2. 6.0 g (60 wt.%) Trig of lithium nitrate hydrate and 1.0 (40 wt.% Nickel nitrate hexahydrate) are loaded into a glass test tube. Then this mixture is held at a temperature above until the components are completely melted. has a melting point of 24.2 ° C and a heat of fusion of 230 J / g. Example 3: 5.5 g are loaded into a glass test tube: (55 wt.%) lithium nitrate trihydrate and 4.5 g (45 wt.%) nickel nitrate hexahydrate This mixture is then held at a temperature above until the components are completely melted. The resulting composition has a melting point temperature 24, the heat of fusion is 225 J / g. Increasing or decreasing the selected limiting concentrations of the components leads to a change in the set parameters - t, that is, the temperature and heat of fusion of the teloaccumulative composition. 8 below the well-known and high heat of fusion 23015. Claims of the invention Thermal storage composition based on lithium nitrate trihydrate, characterized in that, with the aim of expanding the temperature range of change, it additionally contains It nickel nitrate hexahydrate in the following ratio of components, wt.%: Nickel nitrate hexahydrate 35-45 Nitrate trihydrate. lithi Else Sources of information taken into account during the examination 1. USSR author's certificate No. 568669, cl. From 09 to 5/06, 1975. 2.Alekseev V.A. Cooling of electronic equipment using melting substances. M., Energie, 1975, p. 12-13 (pro1--тнп).