RU2754535C1 - Solid fuel - Google Patents

Abstract

FIELD: fuels.

SUBSTANCE: invention relates to means for ignition. Proposed is a composition of a solid fuel containing stearic acid, ethanol, alkali metal hydroxide, characterised by the fact that sodium hydroxide or potassium hydroxide is used as alkali metal hydroxide at the following ratio of components, % wt.: stearic acid - 5, sodium hydroxide - 0.7, ethanol - 94.3, or stearic acid - 5, potassium hydroxide - 1.0, ethanol - 94.

EFFECT: increased heat output and uniformity of plasticity throughout the entire volume of the solid fuel with low technological labour intensity during manufacture thereof with increased durability and reliability of the solid fuel.

1 cl, 2 ex

Description

The invention relates to fuel obtained by solidification of liquid fuel, in particular to ignition means, solid fuel consisting of combustible material, and can be used for domestic purposes as a rapidly kindling fuel, for making fire in furnaces, in field conditions for making fires, heating in tents, as well as a means of obtaining fire for heating food and boiling water.

Known solid fuels, including stearic acid, ethanol, alkali, which is a pre-prepared solution of sodium hydroxide (caustic soda) and water (see RF patent No. 2641691, according to IPC C10L 11/04, publ. 01/22/2018, RF patent No. 2648676 , according to IPC C10L 11/04, op .. 28.03.2018.).

The closest in technical essence is a solid fuel, including stearic acid, ethanol and alkali, which is a pre-prepared solution of sodium hydroxide (sodium hydroxide) and water of 44-48 percent concentration with the following ratio of components, wt%: stearic acid 2.5 - 3.5; alkali 6.0-8.0; ethanol - the rest, and in the manufacture of the composition, alkali is introduced into a solution of stearic acid and ethanol preheated to a temperature of 75-79 ° C, and an additional protective shell in the form of a saponified shell-film is made on the outer surface of the hardened mixture (see RF patent No. 2648676, according to IPC C10L 11/04, publ. 03/28/2018.).

The disadvantage of the known composition of solid fuel is the increased technological complexity of manufacturing the composition, since it assumes separate technological processes in the preparation of the composition, namely, the preliminary preparation of alkali, which is a solution of sodium hydroxide (caustic soda) and water of 44-48 percent concentration, which is introduced into a solution of stearic acid and ethanol preheated to a temperature of 75-79 ° C. As a result of the thickening of this composition, a non-plastic solid mass with a large proportion of unreacted alkali is formed. In this case, water entering the composition together with the alkali solution reduces the heat transfer (calorific value) of the fuel, and unreacted alkali, if it comes into contact with the skin, can cause chemical burns in humans.

The technical result is an increase in heat transfer and uniformity of plasticity throughout the volume of solid fuel with low technological labor intensity in its manufacture with increased durability and reliability of solid fuel.

The technical result is achieved by the fact that in a solid fuel containing stearic acid, ethanol, hydroxide, according to the invention, an alkali metal hydroxide is used as a hydroxide with the following ratio of components, wt%: stearic acid - 2.5 - 5.0; alkali metal hydroxide - 0.35 - 1; ethanol is the rest. Sodium hydroxide is used as the alkali metal hydroxide. Potassium hydroxide is used as the alkali metal hydroxide. A mixture of sodium hydroxide and potassium hydroxide is used as the alkali metal hydroxide.

The manufacture of the composition is illustrated with specific examples.

Example 1.

943 g of ethanol are poured into a glass container and, with constant stirring, granular stearic acid is poured in an amount of 50 g with a mixer and heated to 70-78 ° C. After dissolving stearic acid, 7 g of dry sodium hydroxide powder is added to the mixture. After thorough mixing until a homogeneous mass, the composition obtained in a hot state is poured into a packing metal container, followed by cooling at 15-25 ° C to a solid state. After the composition has cured, the metal container is hermetically sealed with a lid.

Example 2.

940 g of ethanol are poured into a glass container, and with constant stirring, granular stearic acid is poured in an amount of 50 g with a mixer and heated to 70-78 ° C. After dissolving stearic acid, 10 g of potassium hydroxide powder is added to the mixture. After thorough mixing until a homogeneous mass, the composition obtained in a hot state is poured into a packing metal container, followed by cooling at 15-25 ° C to a solid state. After the composition has cured, the metal container is hermetically sealed with a lid.

Containers made of various materials can be used as a packaging container, for example, metal, plastic, cardboard.

If it is necessary to change the color of the flame, various dyes can be additionally introduced into the composition - 0.001-0.1%. As a dye, oxides of various metals can be used, for example, chromium oxide (yellow) or bromine oxide (green), etc.

Solid fuel can be used to start a fire in home, field, industrial, industrial conditions, both in open space (for example, in a brazier, fire, field) and in an enclosed space (for example, in a stove, residential or non-residential premises). Solid fuel can also be used as an independent type of fuel, allowing you to warm up in a small room and prepare food.

The proposed solid fuel has a lower manufacturing cost, is non-toxic, odorless, smoke-free, non-explosive, flammable, burns in all weather conditions, as well as in high-altitude conditions, can be spread on various surfaces.

The effectiveness of the proposed solid fuel is confirmed by tests in various conditions.

Claims (4)

A solid fuel composition containing stearic acid, ethanol, an alkali metal hydroxide, characterized in that sodium hydroxide or potassium hydroxide is used as an alkali metal hydroxide in the following ratio of components, wt. %: stearic acid 5 sodium hydroxide 0.7 ethanol 94.3 or stearic acid 5 potassium hydroxide 1.0 ethanol 94