RU2150488C1 - Liquid fuel - Google Patents

Abstract

FIELD: fuels in metallurgy and power engineering areas. SUBSTANCE: invention relates to liquid fuel for blast-furnace and open- hearth production, heat power and steam-and-air-blowing stations. Liquid fuel composed of fine solid carbon-containing materials and water additionally contains fine solid materials containing carbon chemically bound with at least hydrogen, oxygen, and nitrogen and/or liquid substances containing carbon chemically bound with at least hydrogen. The former can be industrial or household wastes of plastics and/or gunpowder, and/or explosives, and/or solid rocket fuels, and/or paper- and-pulp production waste. The latter (liquid substances) can be spent motor oils and/or petroleum product wastes, and/or alcohols, and/or spent transformer oils. Percentage of solid materials with chemically bound carbon in liquid fuel varies from 0.5 to 60% and that of liquid materials with chemically bound carbon 1 to 65%. Fuel can as well contain 0.5 to 10% of fine solids containing of iron oxides and/or calcium oxide, and/or magnesium oxide, and/or rare-earth metal oxide, and/or free metals. EFFECT: enabled reuse of wastes with no environmental harm. 5 cl, 4 ex

Description

 The invention relates to the field of metallurgy and can be used in metallurgical units, for example, in blast furnaces, in open-hearth furnaces, in heating furnaces, in shaft furnaces for matte smelting, in steam-blowing stations, and also in other branches of technology, for example, in the energy sector.

 Known liquid fuel obtained from coal in the processes of hydrogenation of coal / 1 /. The disadvantage of this fuel is the relative complexity and high cost of the process of obtaining it, leading to the high cost of this fuel.

 The closest in technical essence and the achieved result to the invention is liquid fuel, consisting of containing unbound carbon finely divided solid material and water in a ratio that ensures the stability of the properties of liquid fuel and its required thermal characteristics / 2 /. The disadvantage of this fuel is the limited range of solid components for its production, including anthracite, bituminous and brown coals or products of their enrichment.

 An object of the invention is to eliminate this drawback, as well as the disposal of solid and liquid industrial and household waste, waste or contaminated products, substances with an expired shelf life containing combustible components. The solution to this technical problem is achieved by the fact that liquid fuel, including water and finely divided solid material containing unbound carbon, further comprises 0.5-60% of finely divided solid materials containing carbon in the form of compounds with at least hydrogen, oxygen and nitrogen, and / or 1 - 65% of liquid substances containing carbon in the form of compounds with at least hydrogen, while as finely divided solid materials containing carbon in the form of compounds with at least hydrogen, carbon and nitrogen, t the fuel contains gunpowder, and / or explosives, and / or solid rocket fuel, and as liquid substances containing carbon in the form of compounds with at least hydrogen, petroleum waste products and / or alcohols, and / or spent cutting fluids .

 The solution to this technical problem is also achieved by the fact that liquid fuel additionally contains industrial or household waste of plastics and / or waste from pulp and paper production as finely divided solid materials containing carbon in the form of compounds with at least hydrogen, oxygen and nitrogen.

 The solution to this technical problem is also achieved by the fact that, as liquid substances containing carbon associated with at least hydrogen, the fuel further comprises used engine oils, and / or transformer oils, and / or liquid rocket fuel.

 The solution to this technical problem is achieved, in addition, by the fact that liquid fuel, when used in a blast furnace, additionally includes 0.5 to 10% of finely divided solid materials containing iron oxides and / or calcium oxides and / or magnesium oxides, and / or rare earth oxides, and / or metals not bonded to the compounds.

 The solution to this technical problem is also achieved by the fact that waste water from industrial enterprises is used as water.

 The invention consists in the following. Known liquid fuel is a water-coal suspension and is obtained by fine grinding of coal in an aqueous medium, followed by stabilization of the water-coal mixture. According to the invention, fuel, in addition to water and coal, includes finely divided solid materials containing carbon in the form of compounds with hydrogen, oxygen and nitrogen. It may contain liquid substances containing carbon in the form of compounds with hydrogen and other elements. Such solid materials can be industrial and / or household waste of plastics, gunpowder, explosives, solid rocket fuel, waste from the pulp and paper industry or other similar materials that either pollute the environment and are not absorbed in natural mass transfer processes, or which have limited storage time and is associated with significant costs, or the disposal of such substances requires expensive complex technologies.

The listed solid materials are united by the fact that the main substances that make up them are substances whose molecules contain atoms of at least 4 elements: CaHbOcNd, where a, b, c, d are the numbers of carbon, hydrogen, oxygen and nitrogen atoms in the molecules of these substances . The vast majority of gunpowder and explosives are composed of substances whose molecules contain only these 4 elements. These substances contain oxygen, which ensures a high (explosive) rate of combustion. Moreover, their combustion products may contain excess oxygen. So, for example, the reaction of the explosive conversion of nitroglycerin has the form:
2C ₃ H ₅ (ONO ₂ ) ₃ = 6CO ₂ + 5H ₂ O + 0,5O ₂ + 3N ₂
They also have the ability to knock, i.e. capable of exploding from impact. By appropriately proportioning in the fuel composition the contents of water, coal, liquid hydrocarbons and / or alcohols, plastics, pulp and paper industry waste with gunpowder and / or explosives, this ability is completely suppressed, and liquid fuel containing these substances is completely explosion and fireproof.

The use of industrial and household waste plastic materials in liquid fuels solves the problem of their disposal with obtaining a beneficial effect and without harming the environment. When burning liquid fuel containing plastic waste in high-temperature metallurgical units, for example, in blast furnaces, harmful substances, such as dioxins, released during the burning of plastic masses decompose at temperatures of 1800 - 2000 ^o C, which occur in the tuyere foci of blast furnaces.

 The use of waste oil products, such as used engine oils, contaminated water, used transformer oils and used cutting fluids significantly reduces the cost of the disposal of these substances. The use of alcohols in the composition of liquid fuel according to the invention allows to lower the freezing temperature of this fuel and to provide the possibility of its transportation in the winter.

 Depending on the detonation properties of gunpowders and explosives, their content in liquid fuel can be in the range from 0.5 to 60%. The lower limit refers to substances with high detanation properties and ensures the safe disposal of these substances in the preparation and use of liquid fuels according to the invention. The upper limit refers to substances that do not have detanation properties. At such a concentration in liquid fuel of substances containing carbon in the form of compounds with at least hydrogen, nitrogen and oxygen, it is possible to obtain liquid fuel mainly from these substances, which significantly reduces the cost of liquid fuel.

 The lower concentration limit (1%) in liquid fuels of liquid substances containing carbon in the form of compounds is due to the need to have at least 1% hydrocarbon substances in the composition of liquid fuels to impart appropriate plastic properties to the fuel. The upper limit (65%) refers to the cases of the preparation of liquid fuel according to the invention mainly from liquid waste containing hydrocarbon compounds, and is due to the need to provide the specified rheological properties of liquid fuel and its stability.

 The presence in the liquid fuel according to the invention of 0.5 to 10% of finely divided solid materials containing iron oxides and / or calcium oxides and / or magnesium oxides and / or rare earth oxides and / or metals not bound to chemical compounds, gives the liquid fuel according to the invention additional useful properties necessary for its use in a blast furnace, and allows you to utilize fine waste from metallurgical and other industries, for example, sludge, dust, lubricant-cooling other liquids, etc. The use of wastewater from industrial enterprises as water in liquid fuels solves the problem of recycling these waters and reduces the costs of their treatment.

 The invention is illustrated by the following examples.

Example 1
For the preparation of liquid fuel according to the invention, the following components were used: Krasnobrodsky coal - 50%, water - 35%, industrial waste plastic - 0.5%, artillery gunpowder - 13.0% waste engine oil - 1.0%, open-hearth sludge - 0.5%. When burning this fuel in a blast furnace by blowing it into air tuyeres in the amount of 60 kg / t of pig iron, the coke consumption decreased by 31.4 kg / t. The replacement ratio of coke with blown liquid fuel according to the invention was 0.52 kg / kg.

Example 2
The liquid fuel according to the invention was prepared from the following components: Tulgan brown coal - 20%, hydrated waste oil products (40% water, 60% oil products) - 62%, spent lubricant-cooling fluid of a ball-bearing plant - 3%, solid fuel - 10%, waste plastics - 3%, blast furnace sludge - 2%. When this fuel was burned in a blast furnace in an amount of 80 kg / t of pig iron, the coke consumption decreased by 36 kg / t, the coefficient of replacement of coke with blown fuel was 0.45 kg / kg.

Example 3
For the preparation of liquid fuel according to the invention, the following components were used: anthracite - 5%, artillery gunpowder - 60%, wastewater by-product coke production 25%, waste engine oil - 10%. The resulting fuel was used to heat the boiler room instead of fuel oil. While maintaining the steam boiler performance, the liquid fuel consumption according to the invention with respect to fuel oil consumption was 1.2 t / t.

Example 4
The liquid fuel according to the invention was prepared from the following components: brown coal near Moscow - 20%, used engine oil (contains 15% water and 0.2% fine metal particles) - 15% watered oil waste (contains 45% water and 55% oil - 45 %, gunpowder - 15%, blast furnace sludge (containing unbound carbon, as well as iron, calcium, magnesium oxides) - 2% finely dispersed rare-earth metals (Ce) - 1%, plastic waste - 2%. When blown into a blast furnace with a volume of 1033 m ³ of the fuel in an amount of 150 kg / t coke consumption was reduced by 83 kg / t of pig iron, with Erzhanov sulfur in the iron has decreased to 0.004%, productivity of the furnace increased to 45 tons / day.

 Thus, the use of the invention allows the disposal of waste petroleum products, sludge, used motor oils, expired gunpowder, explosives, rocket fuels without harmful effects on the environment and with obtaining an economic effect.

Sources of information
1. Chemical technology of solid fossil fuels. Ed. G.N. Makarov and G.D. Kharlampovich. - M., Chemistry, 1986, p. 342 - 394.

 2. RU 2096476 C, C 21 B 5/00, 11/20/1997.

Claims (5)

 1. Liquid fuel, including water and a finely divided solid material containing unbound carbon, characterized in that it further comprises 0.5-60% of finely divided solid materials containing carbon in the form of compounds with at least hydrogen, oxygen and nitrogen, and / or 1 - 65% of liquid substances containing carbon in the form of compounds with at least hydrogen, while finely divided solid materials containing carbon in the form of compounds with at least hydrogen, carbon and nitrogen, the fuel contains gunpowder, and / or explosives, and / or solid propellant, and as liquids containing carbon in the form of compounds with at least hydrogen, - waste oil and / or alcohols and / or spent metalworking fluids.  2. The liquid fuel according to claim 1, characterized in that it further comprises industrial or household waste of plastics and / or waste from pulp and paper production as fine solid materials containing carbon in the form of compounds with at least hydrogen, oxygen and nitrogen.  3. Liquid fuel according to any one of claims 1 and 2, characterized in that it further comprises used engine oils and / or transformer oils as liquid substances containing carbon in the form of compounds with at least hydrogen.  4. Liquid fuel according to any one of claims 1 to 3, characterized in that when used in a blast furnace, it additionally contains 0.5 to 10% finely divided solid materials containing iron oxides and / or calcium oxides and / or magnesium oxides , and / or rare earth oxides, and / or metals not bonded to the compounds.  5. Liquid fuel according to any one of claims 1 to 4, characterized in that it contains wastewater from industrial enterprises.