SU1597496A1 - Method of incinerating liquid waste - Google Patents

Abstract

The invention relates to methods of fire disposal of high-calorie waste and can be used in the chemical, petrochemical, electrical industry and other industries of the national economy, where liquid coking and non-coking waste is formed. In order to increase the completeness of combustion and reduce the height of the combustion zone, the zone of coking and non-coking wastes is divided into an annular zone and 15-20% of a bubbling agent is fed into it, reducing the flow of secondary air by this amount.

Description

Waste waste across the direction of elevation of the components of non-coking waste at a speed of 25-35 m / s enters the secondary air stream. The vapors and drops of non-coking waste, carried by the bubbling agent into the peripheral zone, intercept part of the secondary air, effectively displace with it and burn to form combustion products. At the same time, the remaining part of the unreacted secondary air and through the superlayer zone (peripheral) of non-coking waste penetrates into the central super-layer zone of the coking waste, taking with it some of the combustion products of non-coking waste and mixing with them. Thus, a low-energy oxygen-depleted secondary air stream is introduced into the central decontamination zone (coking waste combustion zone). Depletion of secondary air with oxygen due to dilution with combustion products is compensated by feeding through the annular zone at a speed of 15-20 m / s of a part of the bubbling agent. Thus, the vapors and drops of the coking waste carried out from the central zone with a bubbling agent are mixed with the bubbling agent introduced through the annular zone and the remaining secondary air. The components of the coking waste are burned in an oxidant stream. The use of the annular air zone intensifies the mixture formation in the zone of coking waste, increases the completeness of combustion of substances, reduces the length of the flare (reduces the height of the zone of neutralization).

The total flow rate of secondary air and bubbling agent through the annular zone is based on the condition of complete combustion of coking and non-coking waste. At the same time, the consumption of secondary air supplied to the above-layer zone is reduced by the amount of bubbling agent consumption through the annular zone. The products of the combustion of coking and non-coking waste, after the high-temperature treatment of toxic substances, are removed from the zone of neutralization.

Example. In the apparatus of the bapt5 type, co-incineration of two liquid combustible wastes is carried out. As a coking waste, M-100 fuel oil is burned, which has been in an open tank for a long time, which led to a significant evaporation of the volatile fractions and an increase in the content of asphalt-rich fractions and coke. Kerosene is used as a lighter of non-coking fuel. A sample of the coking waste is fed to a cylindrical bubbling bath with a diameter of 100 mm, equipped with a flat bubbling grill with a living section of 7.5% of the holes. The cylindrical bath is enclosed in a bubbling bath surrounding it with an outer diameter of 300 mm, which serves to sprinkle non-coking waste liquid. Between the cylindrical and peripheral baths, an air gap of 3 mm width is provided, which is communicated with the bubble agent box through the control gate. The height of the waste layer in the bath is maintained at 45 mm. The flow rate of the bubbling agent through the primary air duct is set so that its speed above the waste layers is 1.0 m / s and in the air annular gap 15 m / s. At the same time, the air flow rate through the annular gap is 18% of the air flow rate through the cherkéz distribution grilles (through the layer). Coke-5 waste and non-coking waste in the form of vapors and droplets with a bubbling agent is removed from the baths and burned in the secondary air flow with an excess air ratio of 1.09. The use of an annular air gap allows to intensify the mixture formation in the zone of coking waste, increase the completeness of the combustion section, yMeHbUJHTb flame length and reduce the height of the combustion chamber.

The optimal ratio of air flow 5 through the annular zone to its consumption through the bubbling zone is 15-20%. When it falls below 15%, the efficiency of mixing in the zone of coking waste deteriorates, the completeness of their combustion decreases, the length of the flame increases and, accordingly, the height of the zone of neutralization. An increase in this ratio is higher than 20%, at the same time leading to a reduction in the secondary air flow rate with the former performance of the method and the former coefficient of excess air, which worsens the completeness of the combustion of non-toxifying waste, reduces the efficiency of the gas-air mixture turbulization in the over-bed zone of both coking and non-coking waste . This reduces the quality of disposal and increases the length of the torch (height of the combustion zone). The implementation of the method makes it possible to increase the completeness of combustion of substances and reduce the height of the combustion zone during co-incineration of substances and reduce the height of the combustion zone when co-incinerated with a no-burner method of coking and non-coking wastes.

Claims (1)

Invention Formula A method of incineration of liquid wastes, including supplying coking wastes to the centigrade, non-coking, their wastes to the peripheral zone, blowing them with a bubbling agent and burning in a secondary air stream, characterized in that in order to increase the combustion efficiency to reduce the height of the combustion zone, the zone Coking 55 s and non-coking waste are separated by an annular zone and 15-20% of a bubbling agent is fed into it, reducing the flow of secondary air by this amount.