RU2009180C1 - Fuel briquette - Google Patents

Abstract

FIELD: fuel production. SUBSTANCE: fuel briquette contains mass % : clay 10-25, potassium or sodium nitrate 5-20, aluminium or magnesium 5-15 and coal the rest. EFFECT: decreases fuel briquette cost and its explosion hazard. 1 tbl

Description

 The invention relates to briquetting and can be used for the production of fuel briquettes.

 Many types of fuel briquettes are known, including those using clay up to 30% as a binder (1).

 The disadvantages of such a briquette are low combustion temperature, low calorie content, difficulty in ignition, etc.

The prototype of the claimed object is a briquette containing aluminum, KClO ₄ , clay and coal (2). The main disadvantages of this composition are its high cost and explosiveness of compositions containing KCl ₄ .

 The aim of the invention is to reduce the cost and explosiveness.

 This goal is achieved in that the briquette contains the following ratio of components, wt. %: clay 10-25; potassium or sodium nitrate 5-20; aluminum or magnesium 5-15; coal the rest.

 This invention uses a cheap binder - clay, and the briquetting process is carried out at low pressure and without any heating or pre-drying of the materials. In addition, potassium or sodium nitrates are cheaper and do not form explosive mixtures, unlike potassium perchlorate. All this reduces the cost of briquettes.

 A clay content of less than 10% reduces the strength of the briquette, clay consumption above 25% reduces the calorific value of the briquette and complicates its tanning.

 A content of potassium (or sodium) nitrate below 5% complicates the briquette ignition, reduces the heat of combustion, a content above 20% increases the cost of the briquette, increases its fire hazard, increases the amount of smoke during combustion, reduces the burning time, leads to the destruction of the briquette during combustion.

 The content of magnesium or aluminum below 5% reduces the burning temperature of the briquette and calorie content, the content above 15% increases the cost, increases the fire hazard, reduces the burning time and leads to the destruction of the briquette during combustion.

PRI me R. Coal (anthracite) containing 6% ash was ground to 2 mm, clay (bentonite), magnesium, aluminum and nitrate were ground to 0.2 mm (nitrate separately). Then all the components were mixed in a screw mixer for 30 minutes with the addition of water to a mixture moisture of 15-20%. Then the mixture was pressed at a pressure of 115 kgf / cm ² , at ordinary temperature and dried for 4-8 hours (depending on the weight of the briquette). One of the main briquette options was 200x100x100 and was perforated with 32 holes with a diameter of 10 mm. The weight of the crude briquette was up to 4 kg, dried 2-3.5 kg, dry humidity 1.5-2.8%, density 1.6-1.95 g / cm ³ , strength (fracture pressure) 35-60 kgf / cm ² .

It should be noted that the resulting cinder "can serve as a building material, because its strength was up to 155 kgf / cm ² , it has excellent thermal insulation properties and is completely water resistant.

 A number of basic parameters of briquettes are given in the table.

 Thus, the use of the inventive composition of the briquette can reduce its cost by 70 r / t, and virtually eliminate the possibility of an explosion. (56) Copyright certificate of the USSR N 54977, cl. C 10 L 5/12, 1936.

 Japanese Application N 58-59288, CL C 10 L 5/02, 1983.

Claims (1)

FUEL BRIQUET, including coal, clay, an oxidizing agent - an alkali metal salt and a combustible metal, including aluminum, characterized in that it contains potassium or sodium nitrate as an alkali metal salt in the following ratio of components, wt. %:
Clay 10 - 25
Potassium or Sodium Nitrate 5 - 20
Aluminum or magnesium 5 - 15
Coal Else

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