DE102022127964A1 - A coal pulverized coal boiler based system and method for the disposal of waste from multiple sources - Google Patents

Abstract

The invention discloses a pulverized coal boiler based system and method for disposal of waste from multiple sources, comprising a material storage system, a regenerative air system, an alkaline removal system, an integrated disposal system, a burner, a pulverized coal boiler and a pollutant removal system; wherein the outlet of the material storage system is connected to the material inlet of the integrated disposal system; a high temperature flue gas connection is arranged on the chimney between the combustion chamber outlet and the coal saver of the pulverized coal boiler, a medium temperature flue gas connection is arranged on the outlet duct of the coal saver of the pulverized coal boiler, and the high temperature flue gas connection and the medium temperature flue gas connection are connected to the flue gas inlet of the integrated disposal system; the regenerative air system is connected to the flue gas inlet of the integrated disposal system; the outlet of the regenerative air system is connected to the air inlet of the integrated disposal system; the outlet of the alkaline removal system is connected to the solution inlet of the integrated disposal system; the outlet of the integrated disposal system is connected to the inlet of the burner, and the outlet of the burner is connected to the combustion chamber of the pulverized coal boiler

Description

Technical area

The present invention belongs to the field of waste disposal from multiple sources and relates to a system and method for the disposal of waste from multiple sources based on pulverized coal boilers

Background technology

With the accelerated urbanization process in China, the generation of multi-source waste has increased rapidly, and the disposal capacity of existing environmental protection facilities has become insufficient, and the national awareness of environmental protection has gradually increased, so the resourceful and environmentally sound disposal of multi-source waste has become a challenge for local authorities. Pulverized coal boilers in coal-fired power plants, with their high thermal output, high combustion temperatures, and complete environmental protection facilities at the end of the process, attract the attention of the state and industry to develop a new way of waste incineration and disposal. However, the various dry and wet forms of multi-source waste do not meet the special requirements of suspension combustion in pulverized coal boilers, which limits the development of waste disposal in the thermal power industry. In addition, the elemental Cl content of the waste is high, and a large amount of gaseous HCl is generated during combustion, which causes severe corrosion of the water-cooled walls of the boiler and affects the operation reliability of the original boiler system; Some of the wastes have high heavy metal content, which causes the heavy metal content in the coal fly ash generated by the boiler plant to exceed the norm and affect the comprehensive utilization of fly ash. The above factors and potential risks have caused a serious delay in the development of the use of pulverized coal boilers to dispose of multi-source waste, coupled with the current situation of low utilization rate of thermal power plants, resulting in low utilization rate of the country's large-scale facilities, and the construction of new waste power plants or incineration plants and other processes lead to a waste of social investment funds and land.

Content of the invention

The aim of the present invention is to overcome the above-mentioned deficiencies of the prior art and to provide a multi-source waste disposal system and method based on pulverized coal boilers that enables the disposal of waste from multiple sources.

To achieve this, the pulverized coal boiler based multi-source waste disposal system described in the present invention comprises a material storage system, a remedial air system, an alkaline removal system, an integrated disposal system, a burner, a pulverized coal boiler and a pollutant removal system;
the outlet of the material storage system is connected to the material inlet of the integrated disposal system; a high-temperature flue gas port is arranged on the chimney between the combustion chamber outlet and the coal saver of the pulverized coal boiler, a medium-temperature flue gas port is arranged on the outlet duct of the coal saver of the pulverized coal boiler, and the high-temperature flue gas port and the medium-temperature flue gas port are connected to the flue gas inlet of the integrated disposal system; the healing air system is connected to the flue gas inlet of the integrated disposal system; the outlet of the healing air system is connected to the air inlet of the integrated disposal system; the outlet of the alkaline removal system is connected to the solution inlet of the integrated disposal system; the outlet of the integrated disposal system is connected to the inlet of the burner, and the outlet of the burner is connected to the combustion chamber of the pulverized coal boiler.

The outlet of the material storage system is connected to the material inlet of the integrated disposal system via the feed system.

A high temperature flue gas connection and a medium temperature flue gas connection are connected to the inlet of the flue gas main pipe and the outlet of the flue gas main pipe is connected to the flue gas inlet of the integrated disposal system.

The outlet of the integrated disposal system is connected to the inlet of the burner via the fan.

The outlet of the pulverized coal boiler is connected to the pollutant removal system.

• Abfälle aus mehreren Quellen aus dem Materiallagersystem werden in das integrierte Entsorgungssystem eingespeist, und das von dem Hochtemperatur-Rauchgasanschluss abgezogene Hochtemperatur-Rauchgas von 600-700°C wird mit dem von dem Mitteltemperatur-Rauchgasanschluss abgezogenen Mitteltemperatur-Rauchgas von 300-400°C gemischt, um ein gemischtes Rauchgas mit einer Temperatur von 550-600°C zu bilden, das dann in das integrierte Entsorgungssystem eingespeist wird, wobei das Heil luftsystem 300°C heil e Luft erzeugt, die in das integrierte Entsorgungssystem geleitet wird und das alkalische Material aus dem alkalischen Entfernungssystem wird in das integrierte Entsorgungssystem geleitet;
• das Gemisch aus Rauchgas, Heil luft und alkalischem Entferner und Abfälle aus mehreren Quellen werden in dem integrierten Entsorgungssystem durch direkten Kontakt in einem integrierten Prozess der Trocknung, Karbonisierung, Entölung, Entsäuerung, Zerkleinerung und Förderung der Abfälle aus mehreren Quellen behandelt;
• der Produktausstoß des integrierten Entsorgungssystems gelangt über den Brenner in die Brennkammer des Kohlenstaubkessels zur schadlosen Verbrennung.

The pulverized coal boiler based method for disposal of waste from multiple sources in this invention comprises the following steps:

• Multi-source waste from the material storage system is fed into the integrated disposal system, and the high-temperature flue gas of 600-700°C discharged from the high-temperature flue gas port is mixed with the medium-temperature flue gas of 300-400°C discharged from the medium-temperature flue gas port to form a mixed flue gas with a temperature of 550-600°C, which is then fed into the integrated disposal system, the healing air system generates 300°C healing air, which is fed into the integrated disposal system, and the alkaline material from the alkaline removal system is fed into the integrated disposal system;
• the mixture of flue gas, curing air and alkaline remover and waste from multiple sources are treated in the integrated disposal system by direct contact in an integrated process of drying, carbonisation, deoiling, deacidification, shredding and conveying of the waste from multiple sources;
• The product output from the integrated disposal system is fed via the burner into the combustion chamber of the pulverized coal boiler for harmless combustion.

• Bei der spezifischen Funktionsweise des in der vorliegenden Erfindung beschriebenen auf Kohlenstaubkesseln basierendes System und Verfahren zur Entsorgung von Abfällen aus mehreren Quellen werden das Hochtemperatur-Rauchgas, die Heil luft, der alkalische Entferner und der Abfall in integrierter Weise durch Trocknen, Verkohlen, Entölen, Entsäuern, Zerkleinern und Fördern innerhalb des integrierten Entsorgungssystems durch direkten Kontakt entsorgt, wobei der Ausstoß von dem integrierten Entsorgungssystem zur Verbrennung und Entsorgung in die Brennerkammer des Kohlenstaubkessels gelangt, wobei die durch die Verbrennung erzeugten Schadstoffe in die Verbrennungsanlage am Ende des Prozesses zur Entfernung geleitet werden; Diese Erfindung durchbricht den technischen Engpass, dass die trockenen und nassen Formen von Abfällen aus mehreren Quellen nicht die Bedingungen zur Schwebeverbrennung von Kohlenstaubkesseln erfüllen und realisiert die effektive Entfernung von Teer, sauren Gasen und Schwermetallen, verwirklicht die ressourcenschonende und unschädliche Entsorgung von Abfällen aus mehreren Quellen in Kohlenstaubkesseln, fördert den technologischen Fortschritt der Abfallentsorgungsindustrie und der Elektrizitätswirtschaft, verbessert die Effizienz des Einsatzes von nationalen Großgeräten, ersetzt herkömmlicher Verfahren wie Müllverbrennungsanlagen oder Verbrennungsanlagen, wodurch Sozialkapital und Landfläche eingespart werden. Es eignet sich für Abfälle aus mehreren Quellen, wie z. B. Klärschlamm, Schaumstoffplatten, Biomasse, Hausmüll, Schwimmstoffe aus Flüssen, Gummistoffe und Schuhmaterialien, Ölschlamm, medizinischen und gefährlichen Abfälle.

The present invention has the following advantageous effects:

• In the specific operation of the pulverized coal boiler based multi-source waste disposal system and method described in the present invention, the high temperature flue gas, the healing air, the alkaline remover and the waste are disposed of in an integrated manner by drying, carbonizing, deoiling, deacidifying, crushing and conveying within the integrated disposal system by direct contact, the discharge from the integrated disposal system enters the burner chamber of the pulverized coal boiler for combustion and disposal, the pollutants generated by the combustion are directed to the incinerator at the end of the process for removal; This invention breaks through the technical bottleneck that the dry and wet forms of multi-source waste do not meet the floating combustion conditions of pulverized coal boilers, and realizes the effective removal of tar, acid gases and heavy metals, realizes the resource-saving and harmless disposal of multi-source waste in pulverized coal boilers, promotes the technological progress of waste disposal industry and electric power industry, improves the efficiency of using national large-scale equipment, replaces traditional methods such as waste incineration plants or incinerators, thereby saving social capital and land area. It is suitable for multi-source waste such as sewage sludge, foam board, biomass, domestic garbage, river floating matter, rubber and shoe materials, oil sludge, medical and hazardous waste.

Illustration of the attached drawings

• 1 shows a schematic representation of the structure of the present invention.

Where 1 is the material storage system, 2 is the feeding system, 3 is the high temperature flue gas connection, 4 is the medium temperature flue gas connection, 5 is the healing air system, 6 is the alkaline removal system, 7 is the integrated disposal system, 8 is the blower, 9 is the burner, 10 is the pulverized coal boiler and 11 is the pollutant removal system.

Specific embodiments

The technical solutions in the embodiments of the invention will be clearly and completely described below in conjunction with the accompanying drawings of the embodiments of the invention in order to make them more complete. Of course, the embodiments described are only a part of the embodiments of the invention and do not represent all of them. Moreover, in the following description, descriptions of known structures and techniques have been omitted in order to avoid unnecessary confusion with the concepts disclosed in the present invention. Starting from the embodiments of the present invention, all other embodiments achieved by a person skilled in the art without creative effort fall within the scope of the present invention.

In the accompanying drawings, schematic structural drawings according to the disclosed embodiments of the present invention are shown. These drawings are not even true to scale, certain details being enlarged for the purpose of better understanding and certain details being omitted. The shapes of the various regions and layers shown in the drawings and the relative size and position relationships between them are only exemplary and may differ in practice due to manufacturing tolerances or technical limitations, and a person skilled in the art may additionally see regions/layers with other shapes, sizes and relative positions. design depending on what is actually required.

Referring to 1 a pulverized coal boiler-based multi-source waste disposal system comprising a material storage system 1, a healing air system 5, an alkaline removal system 6, an integrated disposal system 7, a burner 9, a pulverized coal boiler 10 and a pollutant removal system 11;
the outlet of the material storage system 1 is connected to the material inlet of the feeding system 2, and the outlet of the feeding system 2 is connected to the material inlet of the integrated disposal system 7; a high-temperature flue gas port 3 is arranged on the chimney between the combustion chamber outlet and the coal saver of the pulverized coal boiler 10, a medium-temperature flue gas port 4 is arranged on the outlet duct of the coal saver of the pulverized coal boiler 10, and the high-temperature flue gas port 3 and the medium-temperature flue gas port 4 are connected to the flue gas inlet of the integrated disposal system 7; the healing air system 5 is connected to the flue gas inlet of the integrated disposal system 7; the outlet of the healing air system 5 is connected to the air inlet of the integrated disposal system 7; the outlet of the alkaline removal system 6 is connected to the solution inlet of the integrated disposal system 7; the outlet of the integrated disposal system 7 is connected to the inlet of the blower 8 and the outlet of the blower 8 is connected to the inlet of the burner 9, and the outlet of the burner 9 is connected to the combustion chamber of the pulverized coal boiler 10.

• Abfälle aus mehreren Quellen aus dem Materiallagersystem 1 werden durch das Zuführsystem 2 in das integrierte Entsorgungssystem 7 eingespeist, und das von dem Hochtemperatur-Rauchgasanschluss 3 abgezogene Hochtemperatur-Rauchgas von 600-700°C wird mit dem von dem Mitteltemperatur-Rauchgasanschluss 4 abgezogenen Mitteltemperatur-Rauchgas von 300-400°C gemischt, um ein gemischtes Rauchgas mit einer Temperatur von 550-600°C zu bilden, wobei die Temperatur des gemischten Rauchgases in verschiedenen Extraktionsverhältnissen vom Hochtemperatur-Rauchgas und Mitteltemperatur-Rauchgas entsprechend den physikalischen Eigenschaften von Abfällen aus mehreren Quellen reguliert werden kann, wobei das gemischte Rauchgas dann in das integrierte Entsorgungssystem 7 eingespeist wird, wobei das Heil luftsystem 5 Heil luft von 300°C erzeugt, die in das integrierte Entsorgungssystem 7 geleitet wird und das alkalische Material (NaOH oder Ca(OH)₂) aus dem alkalischen Entfernungssystem 6 in das integrierte Entsorgungssystem 7 geleitet wird.

The pulverized coal boiler based method for disposal of waste from multiple sources in this invention comprises the following steps:

• Multi-source wastes from the material storage system 1 are fed into the integrated disposal system 7 through the feeding system 2, and the high-temperature flue gas of 600-700°C withdrawn from the high-temperature flue gas port 3 is mixed with the medium-temperature flue gas of 300-400°C withdrawn from the medium-temperature flue gas port 4 to form a mixed flue gas having a temperature of 550-600°C, wherein the temperature of the mixed flue gas can be regulated in different extraction ratios of the high-temperature flue gas and medium-temperature flue gas according to the physical properties of multi-source wastes, the mixed flue gas is then fed into the integrated disposal system 7, the healing air system 5 generates healing air of 300°C, which is fed into the integrated disposal system 7, and the alkaline material (NaOH or Ca(OH) ₂ ) from the alkaline removal system 6 is fed into the integrated disposal system 7.

The mixed flue gas is then fed via the flue gas main line into the integrated disposal system 7, the 300°C cured air from the cured air system 5 is fed via a line into the integrated disposal system 7, and the alkaline material (NaOH or Ca(OH)2) from the alkali remover system 6 is fed into the integrated disposal system 7.

The mixture of flue gas, curing air and alkaline remover and multi-source waste are treated in the integrated disposal system 7 by direct contact in an integrated process of drying, carbonizing, deoiling, deacidifying, crushing and conveying the multi-source waste; the role of the high temperature flue gas is to dry and carbonize the multi-source waste; the role of the curing air is to convert as much of the carbon from the multi-source waste as possible into combustible gases such as CO and to convert the large tar molecules into small gas molecules or solids; the role of the alkaline remover is to remove the HCl and HF gases generated during the integrated process to produce highly stable materials such as calcium chloride and calcium fluoride. The remedial air system 5 and the alkaline removal system 6 are operated depending on the physical and chemical properties of multi-source waste and the amount of tar and acid gases generated during the integrated disposal process, as well as the size of the operation.

The temperature of the exhaust gas discharged from the integrated disposal system 7 is determined depending on the physical and chemical properties of the waste from multiple sources and is generally 200-350 °C. The exhaust gas is fed through the closed pipeline via the blower 8 and the burner 9 into the combustion chamber of the pulverized coal boiler 10 where it is harmlessly burned, and the pollutants generated during combustion are efficiently removed by the original pollutant removal system 11 at the end of the pulverized coal boiler 10.

The amount of waste to be disposed of depends on the heavy metal content of the fly ash disposal of waste from multiple sources in the pulverised coal boiler 10.

Claims (6)

A pulverized coal boiler based system for the disposal of waste from multiple sources, characterized in that it comprises a material storage system (1), a healing air system (5), an alkaline removal system (6), an integrated disposal system (7), a burner (9), a pulverized coal boiler (10) and a pollutant removal system (11); the outlet of the material storage system (1) is connected to the material inlet of the integrated disposal system (7); a high temperature flue gas connection (3) is arranged on the chimney between the combustion chamber outlet and the coal saver of the pulverized coal boiler (10), a medium temperature flue gas connection (4) is arranged on the outlet duct of the coal saver of the pulverized coal boiler (10), and the high temperature flue gas connection (3) and the medium temperature flue gas connection (4) are connected to the flue gas inlet of the integrated disposal system (7); the healing air system (5) is connected to the flue gas inlet of the integrated disposal system (7); the outlet of the healing air system (5) is connected to the air inlet of the integrated disposal system (7); the outlet of the alkaline removal system (6) is connected to the solution inlet of the integrated disposal system (7); the outlet of the integrated disposal system (7) is connected to the inlet of the burner (9), and the outlet of the burner (9) is connected to the combustion chamber of the pulverized coal boiler (10). A coal dust boiler based system for the disposal of waste from multiple sources to Claim 1 , characterized in that the outlet of the material storage system (1) is connected via the feed system (2) to the material inlet of the integrated disposal system (7). A coal dust boiler based system for the disposal of waste from multiple sources to Claim 1 , characterized in that it further comprises a flue gas main pipe; that a high-temperature flue gas connection (3) and a medium-temperature flue gas connection (4) are connected to the inlet of the flue gas main pipe and the outlet of the flue gas main pipe is connected to the flue gas inlet of the integrated disposal system (7). A coal dust boiler based system for the disposal of waste from multiple sources to Claim 1 , characterized in that the outlet of the integrated disposal system (7) is connected to the inlet of the burner (9) via the fan (8). A coal dust boiler based system for the disposal of waste from multiple sources to Claim 1 , characterized in that it further comprises a pollutant removal system (11); that the outlet of the pulverized coal boiler (10) is connected to the pollutant removal system (11). A coal dust boiler based process for the disposal of waste from multiple sources to Claim 1 , characterized in that it comprises the steps of: feeding multi-source waste from the material storage system (1) into the integrated disposal system (7), and mixing the high temperature flue gas of 600-700°C withdrawn from the high temperature flue gas port (3) with the medium temperature flue gas of 300-400°C withdrawn from the medium temperature flue gas port (4) to form a mixed flue gas having a temperature of 550-600°C which is then fed into the integrated disposal system (7), wherein the healing air system (5) produces 300°C healing air which is fed into the integrated disposal system (7), and the alkaline material from the alkaline removal system (6) is fed into the integrated disposal system (7); the mixture of flue gas, healing air and alkaline remover and waste from multiple sources are treated in the integrated disposal system (7) by direct contact in an integrated process of drying, carbonization, deoiling, deacidification, crushing and conveying of waste from multiple sources; the product output of the integrated disposal system (7) passes via the burner (9) into the combustion chamber of the pulverized coal boiler (10) for harmless combustion.

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