RU2008563C1 - Method for thermal disposing solid explosive wastes - Google Patents

Abstract

FIELD: disposing technology. SUBSTANCE: wastes are mixed with water in a ratio of 1 : (1-3) providing formation of a paste system. A solid inert material is added to the resulting mixture to form a loose mass which does not liberate moisture while storage. Ash, fillings, dry hydrophilic wastes which are free from explosive materials are used as the solid inert material. EFFECT: improved quality. 2 cl

Description

 The invention relates to methods for thermal disposal of industrial explosive wastes and can be used in chemical, petrochemical and other industries.

 A known method of thermal disposal of explosive wastes in a fluidized bed furnace, comprising supplying water pulp of an explosive into a layer of finely ground catalytic material [1].

 The disadvantage of this method is the limited scope for waste containing substances with a low melting point, and a high degree of dilution with water of solid explosive waste.

 Closest to the proposed technical solution is a method of burning waste containing explosives, based on the fact that the crushed waste is suspended in water, then this suspension and air are introduced into a rotary kiln for burning. After evaporation of a thin layer of suspension water, the solid particles are dried and ignited. Gaseous products of combustion are burned and wet cleaned before being released into the atmosphere [2].

 The disadvantage of this method is the inefficiency of the neutralization process due to the need to grind waste, while increasing the likelihood of an explosion and complicating the process flow due to the installation of additional equipment for grinding waste. In the case of supply and unmilled waste, fine spraying is not possible, and with coarse spraying, large particles with water may get into the lining of the furnace, which fails.

 The purpose of the invention is to increase the efficiency and efficiency of burning solid explosive waste containing nitric acid salts.

 In the method of thermal disposal of solid explosive wastes, including mixing waste with water, supplying fuel, air and waste, burning them together, burning gas combustion products, cleaning and removing flue gases, removing ash, solid waste containing nitric acid salts is mixed with water in in a ratio that ensures the formation of a pasty system, which is separated during storage into an irrigated layer and sediment, a solid inert material is added to the resulting mixture until a free-flowing mass is formed moisture during storage. In this case, the waste is mixed with water in a ratio of 1: (1-3), and ash, sawdust, dry hydrophilic waste that does not contain explosive substances are used as a solid inert material.

 Mixing explosive waste with water eliminates the explosive nature of waste burning. If the waste is mixed with water in a ratio of less than 1: 1, then a pasty system does not form and the effect of extinguishing the explosion does not occur. If the waste is mixed with water in a ratio of more than 1: 3, then the water in this case becomes ballast, the efficiency of the waste disposal process decreases due to additional fuel combustion for water evaporation.

 Adding a certain amount of solid inert material with the formation of granular mass eliminates thermal shock during direct contact of the waste with the lining of the furnace. At the same time, ash, sawdust, and sludge that do not contain explosive substances are used as an inert mass, as a result of which the efficiency of the neutralization process is increased. Adding water to the waste eliminates the possibility of explosive formation and uses such an amount that is necessary to obtain a pasty mass, which will reduce fuel consumption for thermal disposal of waste. The addition of a solid inert mass to dry explosive waste containing nitric acid salts without the use of water does not preclude the explosive nature of the waste, or it is necessary to use a large amount of additive, which leads to a significant recycling of non-combustible material. Adding a solid inert material to the pasty system before the formation of a granular mass allows uniform distribution of coarse waste into the furnace, eliminating thermal shock during direct contact of the waste with the furnace lining, which increases the efficiency of the neutralization process.

 The method of thermal disposal of explosive waste is as follows.

 Explosive wastes are mixed with water before being fed into the oven until a pasty system is formed, which is separated during storage into a flooded layer and sediment (in ratios from 1: 1 to 1: 3). An inert material is added to the resulting mixture of wastes until a loose mass is formed that does not release moisture during storage. The waste mixture is sent to incineration in a rotary kiln. The process of neutralization goes together with the supply of air and fuel. The resulting flue gases are sent to the afterburning, cleaning and removed into the atmosphere. The mineral residue after calcination is removed from the furnace, and it can be used as an inert mass. Slurries containing a small amount of moisture and organic impurities or sawdust can also be used as additives.

PRI me R. Explosive wastes are sawdust with a pyrocomposition based on nitric salts of barium, strontium and mercury. Explosive sawdust is added to the water and mixed until a separable pasty system is formed. A description of the behavior of the resulting mass in the furnace depending on the amount of water is given as follows: Ratio Observed water: waste effect 1: 1 Observed
suppression
explosive ha-
Raktera woe
waste ratio 2: 1 Education
pasty system
highlighted topics
water repayment
explosions
due to
explosive
concentration. 3: 1 Education
pasty system
topics sharing-
watered
layer and sediment
explosive action
education, increase
fuel consumption for
water evaporation
An inert material is added to the resulting mixture of water and explosive sawdust (ratio of pasty waste and inert additive 3: 5). As an additive, waste from the production of sawdust contaminated with oils is used. After mixing, the waste is sent to a fire-fighting unit for burning. The thermal decontamination process takes place in conjunction with the supply of air and fuel. Organic components are burned in a rotary kiln, and the mineral residue after calcination is removed from the kiln. The oxidation processes of products of incomplete combustion to CO ₂ and H ₂ About complete in the afterburner. The flue gases are then purified, cooled and removed to the atmosphere. (56) 1. UK patent N 1485807, CL. F 23 G 7/00, 1977.

 2. French patent N 2252537, cl. F 23 G 7/00, 1975.

Claims (2)

 1. METHOD FOR THERMAL WASTE CONSUMPTION OF SOLID EXPLOSIVE WASTE by mixing them with water, burning together with fuel and air, afterburning gaseous combustion products, cleaning and removing flue gases and removing ash, characterized in that, in order to increase the efficiency and effectiveness of the disposal of waste containing nitric acid salts, waste are mixed with water in a ratio of 1: (1-3) and a solid inert material is added to the resulting mixture until a loose mass is formed that does not release moisture during storage.  2. The method according to p. 1, characterized in that as a solid inert material using ash, sawdust or dry hydrophilic waste that does not contain explosive substances.