CN110686243A

CN110686243A - Microwave vacuum pyrolysis method for combustible solid waste

Info

Publication number: CN110686243A
Application number: CN201910888389.0A
Authority: CN
Inventors: 左莉; 李霄; 李藐; 罗中兴; 张开; 邓云跃; 陈显波; 袁伟; 赵锋涛
Original assignee: Institute Of Nuclear Technology Rocket Army Research Institute Pla
Current assignee: Institute Of Nuclear Technology Rocket Army Research Institute Pla
Priority date: 2019-09-19
Filing date: 2019-09-19
Publication date: 2020-01-14

Abstract

The invention aims to provide a microwave vacuum pyrolysis method of combustible solid waste, which comprises the following steps of (1) vacuumizing the combustible solid waste; (2) heating the combustible waste after the vacuumizing treatment; (3) stopping heating; (4) and (4) ventilating to burn the pyrolyzed product, wherein the temperature is rapidly increased during burning, and the burning is basically finished when the temperature is reduced. The invention has the beneficial effects that: the combustion time is greatly shortened and the combustion is more sufficient by applying the method provided by the invention, the volume reduction and weight reduction ratio of the method is far more than 40, and the smoke quality meets the requirements specified by GB18484-2001 hazardous waste incineration pollution control standard.

Description

Microwave vacuum pyrolysis method for combustible solid waste

Technical Field

The invention belongs to a waste treatment method, and particularly relates to a microwave vacuum pyrolysis method for combustible solid waste, which utilizes microwave (magnetron) as a heat source to pyrolyze the combustible solid waste in a vacuum state, and the combustible solid waste is incinerated in a ventilation state after being pyrolyzed completely.

Background

Pyrolysis refers to thermal degradation of materials in an oxygen-free or oxygen-deficient environment, and is a complex thermochemical process with staggered endothermic and exothermic reactions, and finally three-phase components such as gas, liquid, solid and the like are generated. At present, the common heating mode mainly comprises electric heating pyrolysis, the heat efficiency is low, and the equipment composition and operation are complex.

The prior various pyrolysis technologies are compared and shown in table 1.

TABLE 1 comparison of various pyrolysis techniques

Pyrolysis mode	Quality of flue gas	Final product	Volume of the apparatus	Operation of
					Pyrolysis of	Is higher than	Ash content	Big (a)	Complexity of
Fluidized bed pyrolysis	Is low in	Ash content	Is larger	Complexity of
					Pyrolysis of slag	Is low in	Slag of molten slag	Big (a)	Complexity of
Rotary pyrolysis	In general	Ash content	Big (a)	Complexity of
					Microwave pyrolysis	Height of	Ash content	Small	Simple and convenient

Microwave pyrolysis is proposed and developed by combining microwave heating technology on the basis of the research of traditional pyrolysis. Microwave heating is also known as "bulk heating" without temperature gradients. Researchers at home and abroad apply microwave heating to the field of organic matter pyrolysis and carry out a great deal of research. Research shows that microwave pyrolysis has obvious superiority and is a good alternative to conventional pyrolysis.

However, a large amount of gas such as methane, hydrogen, carbon monoxide, etc. is generated in the pyrolysis process, and if the gas is not properly treated, deflagration occurs in the heating process, so that the safety is poor. The method is used for pyrolysis in a vacuum state, sufficient vacuum degree is ensured in the pyrolysis process, so that generated gas is rapidly discharged out of the hearth, oxygen is supplied again after the pyrolysis process is finished, the method not only can ensure the complete pyrolysis of the waste to be treated, but also can ensure that deflagration does not occur in the pyrolysis process, and pyrolysis products are completely combusted, so that an ideal volume reduction effect is achieved.

Disclosure of Invention

The invention aims to provide a microwave vacuum pyrolysis method for combustible solid waste, which utilizes microwave as a heat source to pyrolyze the combustible solid waste in a vacuum state, and then the combustible solid waste is incinerated in a ventilation state after being pyrolyzed completely.

The technical scheme of the invention is as follows: a microwave vacuum pyrolysis method of combustible solid waste comprises the following steps,

(1) vacuumizing the combustible solid waste;

(2) heating the combustible waste after the vacuumizing treatment;

(3) stopping heating;

(4) and (4) ventilating to burn the pyrolyzed product, wherein the temperature is rapidly increased during burning, and the burning is basically finished when the temperature is reduced.

The vacuum degree in the step (1) is kept at least-30 KPa.

The heating mode in the step (2) adopts microwave heating.

The heating temperature in the step (2) is 580-640 ℃.

In the step (2), the vacuum degree is kept between-30 KPa and-70 KPa all the time in the heating process.

And (3) discharging gas generated by pyrolysis in the step (2).

The heating time in the step (2) is determined according to the weight of the combustible solid waste.

In the step (3), when the temperature rises to 670-720 ℃, the vacuum pumping is stopped, and protective pressure relief is performed after the vacuum degree is reduced to 0KPa at the normal pressure, wherein the pressure relief value should also be 0 KPa.

The invention has the beneficial effects that: the combustion time is greatly shortened and the combustion is more sufficient by applying the method provided by the invention, the volume reduction and weight reduction ratio of the method is far more than 40, and the smoke quality meets the requirements specified by GB18484-2001 hazardous waste incineration pollution control standard.

Detailed Description

The present invention will be described in further detail with reference to specific examples.

A microwave vacuum pyrolysis method of combustible solid waste comprises the following steps:

(1) and vacuumizing the combustible solid waste to reach a negative pressure state, wherein the vacuum degree is kept at least-30 KPa.

(2) Heating the combustible waste after vacuum-pumping treatment by adopting microwave heating to 580-70 KPa, wherein the vacuum degree is kept to be-30 KPa to-70 KPa all the time in the heating process, extracting gas generated by pyrolysis, and discharging the gas after purification by a flue gas purification system; the heating time varies depending on the weight of the combustible solid waste, and the reference values are: the heating time of 2 kg of pure cotton cloth is 22 min.

(3) Stopping heating, the temperature of the combustible solid waste will continue to rise, and the temperature will rise to different heights according to the different weight of the combustible solid waste, and usually will be between 670 and 720 ℃, stopping vacuum pumping, and after the vacuum degree drops to the normal pressure of 0KPa, then performing protective pressure relief, and the pressure relief value should be also 0 KPa.

Effects of the implementation

Tests prove that no deflagration occurs in the operation process of the method, the pressure in the hearth is stable, the reaction is well carried out, the combustion time is greatly shortened, and the combustion is more sufficient. The volume reduction and weight reduction ratio of the method is far more than 40, and the smoke quality meets the requirements specified by GB18484-2001 hazardous waste incineration pollution control standard.

Tests prove that the volume reduction and weight reduction ratio of the device is far more than 40, and the detection result of the gas effluent is shown in table 2.

TABLE 2 gas effluent test results

Note: ND represents below the detection limit of the method,/represents that the emission concentration of the monitored item is less than the detection limit, so that the emission rate need not be calculated, — represents that the criteria do not limit the item.

The results of dioxin detection are shown in Table 3.

TABLE 3 Dioxin assay results

Note: emission limit of dioxin was 0.5ng TEQ/m³The smoke quality meets the requirements specified by GB18484-2001 hazardous waste incineration pollution control standard.

Claims

1. A microwave vacuum pyrolysis method of combustible solid waste is characterized in that: comprises the following steps of (a) carrying out,

(1) vacuumizing the combustible solid waste;

(2) heating the combustible waste after the vacuumizing treatment;

(3) stopping heating;

2. The microwave vacuum pyrolysis method of combustible solid waste according to claim 1, wherein: the vacuum degree in the step (1) is kept at least-30 KPa.

3. The microwave vacuum pyrolysis method of combustible solid waste according to claim 1, wherein: the heating mode in the step (2) adopts microwave heating.

4. The microwave vacuum pyrolysis method of combustible solid waste according to claim 1, wherein: the heating temperature in the step (2) is 580-640 ℃.

5. The microwave vacuum pyrolysis method of combustible solid waste according to claim 1, wherein: in the step (2), the vacuum degree is kept between-30 KPa and-70 KPa all the time in the heating process.

6. The microwave vacuum pyrolysis method of combustible solid waste according to claim 1, wherein: and (3) discharging gas generated by pyrolysis in the step (2).

7. The microwave vacuum pyrolysis method of combustible solid waste according to claim 1, wherein: the heating time in the step (2) is determined according to the weight of the combustible solid waste.

8. The microwave vacuum pyrolysis method of combustible solid waste according to claim 1, wherein: in the step (3), when the temperature rises to 670-720 ℃, the vacuum pumping is stopped, and protective pressure relief is performed after the vacuum degree is reduced to 0KPa at the normal pressure, wherein the pressure relief value should also be 0 KPa.