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Directional pyrolysis method of combustible wastes

A waste and pyrolysis technology, applied in the removal of solid waste, educts, special forms of dry distillation, etc., can solve the problems of human health, ecological environment hazards, difficult to reach combustion temperature, difficult to decompose waste, etc., to reduce flue gas. The effect of production volume, improvement of utilization rate, and reduction of nitrogen oxide emissions

Inactive Publication Date: 2014-09-10
BEIJING BUILDING MATERIALS ACADEMY OF SCI RES +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

In this new process for producing charcoal or activate slagging materials through controlled decomposition processes that involve burning them under specific conditions such as temperatures, pressures, and time. By controllably decompositing these types of material into different components like fuel oil (tar), coke oven black liquids) and ash residues, it becomes possible to make more efficient uses of available resources.

Problems solved by technology

This patents discusses how household waste management faces challenges because they include production of various types of trash including plastic bags made during house cleanings or recycling processes. These trash contains significant amounts of energy sources such as biomass, nitrogen fertilizers, phosphorus fertilisers, pesticides, and heavy metals like lead and zinc. There is currently no efficient way to dispose these residues effectively without generating new ones through conventional methods involving burning them away.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] A method for directional pyrolysis of combustible wastes, including putting combustible wastes into a pyrolysis furnace, performing gas replacement on the pyrolysis furnace, inputting nitrogen to discharge the air in the pyrolysis furnace, and keeping the nitrogen pressure in the pyrolysis furnace between 0.05 and 0.1 MPa During this time, start to heat up and enter the pyrolysis state, wherein: enter different pyrolysis steps according to different pyrolysis requirements for combustible wastes, the different pyrolysis requirements include: obtaining combustible waste pyrolysis carbon step, obtaining combustible waste pyrolysis Tar step, step of obtaining combustible waste pyrolysis combustible gas;

[0025] The step of obtaining pyrolytic carbon from combustible waste is: increasing the temperature of the pyrolysis furnace to 280°C to 300°C at a rate of 50°C / min until the pyrolysis gas generated by combustible waste is removed to obtain pyrolytic carbon with a microporo...

Embodiment 2

[0033] This example is a further method based on Example 1, that is, the step of obtaining combustible waste pyrolysis tar further includes: raising the temperature of the pyrolysis furnace to 580°C to 600°C at a rate of 10°C / min and then collecting the pyrolysis The gas is passed into petroleum ether to be absorbed into tar as petroleum raw material, and the tar can be further separated into light oil and chemical products.

Embodiment 3

[0035] This embodiment is based on a specific scheme of embodiment 1: the combustible waste is municipal solid waste with a water content of 60%. After sorting, removing foreign matter, and breaking the particle size to below 10cm, the waste is squeezed out by a baler. Press into a dense garbage pile, carry out anaerobic fermentation for 10 days, then mechanically squeeze and dehydrate the garbage, and send it to the fermentation bin for 15 days of aerobic biological drying to reduce the moisture content to 30%. Add a total of 10% titanium dioxide (TiO 2 ), put it into a fixed-bed pyrolysis furnace, raise the temperature of the pyrolysis furnace to 700°C at a rate of 50°C / min, and collect the pyrolysis gas as combustible gas. Combustible gas generation is more than 60%. Tail gas dioxin emissions at 0.05ng / Nm 3 And below, below EU emission standards.

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Abstract

The invention discloses a directional pyrolysis method of combustible wastes. The method comprises the following steps: putting the combustible wastes into a pyrolysis furnace; carrying out air replacement on the pyrolysis furnace, namely feeding nitrogen into the pyrolysis furnace and discharging air from the pyrolysis furnace; maintaining the nitrogen pressure in the pyrolysis furnace within 0.05MPa to 0.1MPa; starting the heating to enter pyrolysis states, namely entering different pyrolysis steps according to different pyrolysis demands for the combustible wastes, wherein the different pyrolysis demands comprise the following steps: obtaining pyrolytic carbon of the combustible wastes, obtaining a pyrolytic tar of the combustible wastes and obtaining a pyrolytic combustible gas of the combustible wastes. According to the method, the combustible wastes are directionally pyrolyzed into the organic carbon, the high-calorific-value gas and the tar by regulating the pyrolysis temperature, the pyrolysis pressure, the heating rate and the catalyst adding mode through the utilization of calorific values of the combustible wastes, so that the utilization rate of the combustible solid wastes is greatly improved; the air is isolated, so that the combustion of the carbon and the volatilization of heavy metals and chlorine are reduced. Thus, the discharge of dioxin is below 0.1ng/Nm<3>.

Description

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Claims

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Application Information

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Owner BEIJING BUILDING MATERIALS ACADEMY OF SCI RES
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