TH19348B - Combustion system for equipment producing sooty smoke - Google Patents

Abstract

The DC60 here has disclosed a combustion system for equipment that generates sooty smoke. That allows the exhaust gas from Combustion caused by burning different types of waste Mixtures are continuously analyzed in such a way that, based on results, the furnace operating conditions may be altered and / or the furnace may be fed. With suitable neutralizers And therefore the air pollutants contained in the exhaust gases may be collected very quickly and allow the dust collection efficiency that the dust collector is collecting air pollutants or other substances to be continuously measured to be the right time for Cleaning of the dust collector and / or replacement of parts may be reliably determined at measurement point A near the incinerator outlet 1, a collector pipe 7a connected to the spectroscopy analyzer. Infrared 10 in which the combustion flue gas is sent for analysis of the mixture The analysis results were sent to a control path 12 when air pollutants above a predetermined value were present in the flue gas. Control paths 12 to neutralize delivery pathways 13 and regenerative pathways 14 with control signals. That direct these pathways to take appropriate preventive steps To fulfill those orders. Neutralizer 13 Feed the incinerator 1 with a suitable neutralizer. To make substances that do not These desires are neutral. And the way to adjust the operating conditions. 14 The operating conditions of the furnace 1 can be regulated, for example, the combustion temperature and the combustion period of the kiln 1 and the turbulent conditions during the combustion. The flue gas sampled at measurement point B along pipeline 6b is fed into the Method of analyzer 10 to analyze mixtures And was considered that the exhaust gas that would be released into Does the atmosphere contain air pollution? The ratio between the concentrations of a given substance at Defined at measure point A and defined at measure point B are calculated for the Dust Collection Rights of Dust Collectors 3 Here reveals the combustion system for equipment that produces sooty smoke. That allows the exhaust gas from The incineration produced by different inciners is continuously analyzed in such a way that, based on the analysis results, the kiln operating conditions may be altered and / or the incinerators may be fed. With suitable neutralizers And therefore the air pollutants contained in the exhaust gases may be collected very quickly and allow the dust collection efficiency that the dust collector is collecting air pollutants or other substances to be continuously measured to be the right time for Cleaning of the dust collector and / or replacement of parts may be reliably determined at measurement point A near the incinerator outlet 1, a collector pipe 7a connected to the spectroscopy analyzer. Infrared 10 in which the combustion flue gas is sent for analysis of the mixture The analysis results were sent to a control path 12 when air pollutants above a predetermined value were present in the flue gas. Control paths 12 to neutralize delivery pathways 13 and regenerative pathways 14 with control signals. That direct these pathways to take appropriate preventive steps To fulfill those orders. Neutralizer 13 Feed the incinerator 1 with a suitable neutralizer. To make substances that do not These desires are neutral. And the way to adjust the operating conditions. 14 The operating conditions of the furnace 1 can be regulated, for example, the combustion temperature and the combustion period of the kiln 1 and the turbulent conditions during the combustion. The flue gas sampled at measurement point B along pipeline 6b is fed into the Method of analyzer 10 to analyze mixtures And was considered that the exhaust gas that would be released into Does the atmosphere contain air pollution? The ratio between the concentrations of a given substance at Defined at measure point A and defined at measure point B are calculated for the Image rights of dust collector 3

Claims (7)

1. The combustion system for equipment producing sooty fumes, which is provided for after action. For flue gas from combustion, close to the furnace outlet. And flue gas from combustion The fires are released into the atmosphere after it has undergone a post-operation phase, such combustion systems include; A first analyzer optimized for allowing the intake of flue gases from The combustion into the first analyzer from a point near the furnace outlet. And analysis Flue gas mixture from such combustion, a second analyzer optimized for the analysis of flue gas mixtures from The combustion that flows from the aforementioned operations to a fume emission, a regulator optimized for processing the analytical signal supplied from the One such analyzer And to output a control signal based on such analytical signals, a suitable neutralizer for the delivery of a neutralizer. Predetermined to the said furnace When the aforementioned control signal supplied from the said regulator, and a new operating condition suitable for change at least One of the greatest values of the combustion temperature And the period of the burning of the kiln And turbulent conditions during combustion when the aforementioned control signal supplied from the said regulator For conditioning Operation of the new furnace, which is based on the said control signal. Such neutralizer The neutralizer will be supplied to such furnaces in sufficient quantities to neutralize the amount of each component contained in the flue gas from such combustion. And the aforementioned regenerator regulates the operating conditions of the furnace, and where the second analyzer monitors the combustion flue gas mixture to be Emitted into the atmosphere 2. Combustion system for equipment that produces sooty fumes, which has been arranged for operation. Later, for the flue gas from the combustion, close to the furnace outlet. And exhaust gas from Such combustion is released into the atmosphere after it has undergone a post-operation phase, such combustion systems include; Analyzers optimized for the analysis of such combustion flue gas mixtures, controllers optimized for processing of the analytical signals provided from Such analyzer And to output a control signal based on such analytical signals, a suitable neutralizer for the delivery of a neutralizer. Predetermined to the said furnace When such a control signal is received from the said regulator, a new operating condition that is optimized for at least a change One of the greatest values of the combustion temperature And the period of the burning of the kiln And turbulent conditions during combustion when the control signal supplied by the regulator is received for the reconfiguration of the furnace, the first pipe through which the combustion flue gas is condensed. Passed in from a point near the exit. Of the furnace goes into the aforementioned analyzer, a second pipe through which the combustion flue gas flows from such subsequent operations into the chimney. The fumes are imported through the analyzer, and the duct switcher serves to switch the flow path for the flue gas between the first pipes. And the second as mentioned at a predetermined period, where, based on such control signals, is based on the analysis results of the flue gas from The combustion brought in through the first pipe. On the one hand, the neutralizer The neutralizer will be delivered to the furnace in sufficient quantities to make In the amount of components contained in such combustion flue gases as neutral And on the other side The new regenerator regulates the operating conditions of the furnace in a controlled manner, and where the flue gas mixture from such combustion is released into the atmosphere. It will be observed based on the analysis results of such combustion flue gas imported. It is passed through the second pipe. 3. Combustion system for equipment that produces soot-containing smoke, which has been provided for an operating procedure. Later, for the flue gas from the combustion, close to the furnace outlet. And exhaust gas from Such combustion is released into the atmosphere after it has undergone a post-operation phase, the said combustion system includes: a dust collector provided in the post-operation phase as follows. For combustion flue gases for the preset collection of substances contained in the flue gases generated from such furnaces, a first analyzer built optimized for allowing flue gas ingestion. Enter The first analyzer from the gas pipeline extending between the furnaces. And such dust collector And for the analysis of such flue gas mixtures, a second analyzer optimized for receiving flue gas shipments from a pipeline. Gas filed between the aforementioned dust collector And an outlet that goes into the atmosphere immediately and for the analysis of the aforementioned flue gas mixtures, and a regulator suitable for receiving the analytical signals from the aforementioned first and such second analyzers respectively, at The regulator calculates the ratio between the concentrations of a given substance at Determined out by the aforementioned analyzer And the concentration of this substance is determined by The aforementioned second analyzer And measure the dust collection efficiency of the said dust collector on the basis 4. The combustion system for equipment producing sooty fumes, which is provided after the procedure. For the flue gas from combustion, stay close to the furnace outlet. And exhaust gas from Such combustion is released into the atmosphere after it has undergone a post-treatment phase, the said combustion system includes: a dust collector provided in the post-operation stage for the gas. Combustion flue for the preset collection of substances present in the flue gases generated by the furnace, a optimized first analyzer for allowing the flue gas to be imported into The first analyzer from the gas pipeline extending between the furnaces. And for the analysis of such flue gas mixtures, a second analyzer built to be suitable for receiving flue gas shipments from the pipeline. Gas filed between the aforementioned dust collector And an outlet to the atmosphere immediately, a regulator optimized for receiving the analytical signal from the aforementioned analyzer and the aforementioned second analyzer respectively, a properly built neutralizer for arranging Send neutralization The type predetermined to the said furnace When receiving the operating control signal supplied from The regulator, due to the results of such analysis signal processing from the aforementioned analyzer, and a re-engineered regulator optimized for at least change in value One of the greatest values of the combustion temperature And the period of burning of the said furnace And turbulent conditions During burning When it receives the said operation control signal To adjust the working conditions of The new furnace, where the regulator calculates the ratio between the concentrations of a given substance. Determined out by the aforementioned analyzer And the concentration of this substance is determined by The aforementioned second analyzer And measure the dust collection efficiency of the said dust collector on the basis Is based on the aforementioned concentration ratio, and where it is based on the control signal. Neutralizer It will deliver a sufficient amount of the neutralizer to the furnace. In making components Each component in the amount contained in the neutral flue gas. And a new working condition regulator The aforementioned will adjust the operating conditions of the aforementioned kiln. 5. Combustion system for equipment that generates soot fumes that have been provided for later operation. For flue gas from combustion, close to the furnace outlet. And flue gas from combustion The fires are released into the atmosphere after undergoing a series of subsequent operations, such combustion systems include: a dust collector provided in the latter stage for flue gas from Combustion to store predetermined substances contained in the flue gases produced by such furnaces, an analyzer built suitable for analyzing such flue gas mixtures, a regulator suitable for Processing of the analytical signals provided by The analyzer, the first pipe through which the flue gas is introduced into the analyzer from the overhanged gas pipeline. Between the said kilns And the aforementioned dust collector, a second pipe through which the flue gas is introduced into the analyzer from a gas pipeline. Between the aforementioned dust collector And an instantaneous outlet into the atmosphere, and an optimized pipe switch for alternating flow paths for flue gas. Between the aforementioned first and second pipelines at a predetermined period, where the regulator calculates the ratio between the available concentrations of the given substance In the flue gas brought in through the first pipe. And the concentration of this substance contained in the flue gas that Brought in through the second such pipe And measure the dust collection efficiency of the said dust collector with 6. Combustion systems for soot-producing smoke equipment where a post-action procedure for combustion flue gases is placed closer to the exhaust gas outlet. Kiln And exhaust gas from Such combustion is released into the atmosphere after it has undergone a post-treatment phase, the aforementioned combustion system includes: a dust collector provided in the aforementioned post-operation phase of the furnace. Burned for storage of the substance Predetermined the presence of flue gases produced from such furnaces, an analyzer built suitable for analyzing such flue gas mixtures, a regulator optimized for processing of the supplied analytical signals. To come from The analyzer, the first pipe through which the flue gas is introduced into the analyzer from the overhanged gas pipeline. Between the said kilns And the aforementioned dust collector, a second pipe through which the exhaust gas is passed into the analyzer. From a gas pipeline filed Between the aforementioned dust collector And an outlet channel that immediately goes into the atmosphere, a duct switcher made suitable for alternating flow paths for flue gas. Between the aforementioned first and second pipelines at predetermined intervals, a neutralizer specially built for the delivery of neutralizers. The type predetermined to the said furnace When receiving the operating control signal supplied from Such a controller, as a result of processing such analytical signals from the machine Such analyzes are based on the combustion flue gases imported through the aforementioned pipe, a reconditioner built to suit at least change in value. One of the greatest values of the combustion temperature And the period of burning of the said furnace And turbulent conditions During burning When it receives the said operation control signal To adjust the working conditions of The new furnace, where the regulator calculates the ratio between the concentrations of a given substance present in the flue gas brought in through the aforementioned pipe. And the concentration of this substance contained in the flue gas that Brought in through the second such pipe And measure the dust collection efficiency of the said dust collector with It is based on this concentration ratio, and where it is based on the signal controlling the action. Neutralizer The neutralizer is delivered to the furnace in sufficient quantities to allow the components to Each component in the amount contained in the neutral flue gas. And a new working condition regulator This will adjust the operating conditions of the furnace in a new and controllable way. 7. Combustion system for equipment producing sooty fumes in accordance with one of Clause 3 to 6, where such dust collectors are provided in the form of a filter bag. 8.Combustion system for equipment producing sooty smoke in accordance with claim 7, includes: a properly constructed alarm that will be triggered when a supplied alarm is received. From the aforementioned regulator, and the said regulator provides an alarm when the calculated concentration ratio Comes by the said regulator below each preset value. 9. Combustion system for equipment producing sooty smoke according to claim 7, where the apparatus Analysis used in the aforementioned combustion system for equipment that generates soot-containing smoke is provided. In the form of a meter For dioxin precursors such as chlorophenol, chlorobenzene or PCB (polychlorinated biphenyl) 1 0. Combustion system for equipment that produces smoke at There is soot in accordance with claim 3 or 4, where the combustion flue gas mixture released into the atmosphere is monitored on the basis of the predetermined concentration of the substance. The second analyzer is issued by the aforementioned 1. 1. The combustion system for the soot-producing apparatus in accordance with claim 10, includes: a properly constructed alarm that will be Triggered when receiving the notification provided From the aforementioned regulator, and the said regulator provides an alarm when the calculated concentration ratio It is supplied by the said regulator below each preset value 1 2. Combustion system for equipment producing sooty smoke according to claim 10, where the machine Analyzes used in such combustion systems For equipment generating sooty fumes have been provided in Figure of meter for CO or O2 1 3. Combustion system for apparatus producing sooty smoke according to claim 10, where the machine Analyzes used in such combustion systems For equipment producing sooty fumes has been provided in Measuring instrument for dioxin substrate such as chlorophenol, chlorobenzene or PCB (polychlorinate biphenyl) 1 4. Combustion system for equipment that generates Soot fumes according to claim 5 or 6, where combustion flue gas mixtures emitted into the atmosphere are observed on the basis of a predetermined concentration of the substance. Contained in the flue gas brought into the analyzer. Through the aforementioned second pipe And determined by the aforementioned analyzers. 1 5. Combustion system for equipment producing sooty smoke according to claim 14, including: alarms that are properly constructed to be triggered. When receiving the notification provided From the said controller, and the said controller provides such an alarm. When the calculated concentration ratio It is supplied by the said regulator below each preset value 1 6. Combustion system for equipment producing sooty smoke according to claim 14, where the machine Analysis used in the aforementioned furnace system For equipment producing sooty smoke has been provided. In the form of a meter for CO or O2 1 7. Combustion system for devices that produce sooty smoke according to claim 14, where the machine Analysis used in the aforementioned furnace system For equipment producing sooty smoke has been provided. In the form of a meter for CO or O2 1 8. Combustion system for devices that produce sooty smoke according to claim 14, where the machine Analyzes used in such combustion systems For equipment producing sooty fumes has been provided in Picture of the meter For dioxin precursors such as chlorophenol, chlorobenzene or PCB (polychlorinated biphenyl) 1 9. Combustion system for smoke-generating equipment with Soot according to claims 3 to 6, either Also included: properly crafted reminders to get triggered. When receiving the notification provided From the said controller, and the said controller provides such an alarm. When the calculated concentration ratio The combustion system is supplied by the said regulator below each preset value 2 0. Combustion system for equipment producing sooty smoke according to claim 19, where the machine Analyzes used in such combustion systems For equipment producing sooty smoke has been provided. In the form of a meter for CO or O2 2 1. Combustion system for equipment that produces sooty smoke in accordance with claim 19, where the apparatus Analyzes used in such combustion systems For equipment producing sooty fumes has been provided in Picture of the meter For dioxin precursors such as chlorophenol, chlorobenzene or PCB (polychlorinated biphenyl) 2 2. Combustion system for equipment that produces sooty smoke in accordance with claim 6, where the apparatus Such analyzes are available as gauges for CO or O2 2. 3. Combustion system for equipment that produces sooty smoke in accordance with claim 6, where the machine Such analyzes are provided in the form of a measuring instrument. For dioxin precursors such as chlorophenol, chlorobenzene or PCB (polychlorinated biphenyl) 2 4. Combustion system for soot-generating equipment where a post-operation procedure for combustion flue gases is placed closer to the furnace outlet. And flue gas From combustion through treatment, it is later released into the atmosphere after it has passed through an episode. The latter practice, the aforementioned combustion system, includes: a properly constructed infrared spectroscopy analyzer. For the analysis of mixtures Of flue gas from combustion through post-treatment brought in from the aforementioned furnace into the machine Such infrared spectroscopy was analyzed. In such a way that the flue gas mixture from Continuous 2 burning 5.Combustion system for soot-generating equipment where a post-action procedure for combustion flue gases is placed closer to the furnace outlet. And flue gas The combustion is released into the atmosphere after it has passed through the process. Subsequently, the aforementioned combustion system includes: a filter bag provided in the latter operations. For the furnace to collect the existing substances In the combustion flue gas produced by the furnace, and a properly constructed infrared spectroscopy analyzer For the analysis of mixtures Of such combustion flue gases brought in from the furnace, where the flue gas mixture is continuously monitored by Infra-red spectroscopy analyzer 2 6.Combustion system for equipment producing sooty smoke in accordance with claim 25, where combustion flue gases are imported into such infrared spectroscopy analyzer. Before the flue gas from the combustion flows through the filter bag 2 7.Combustion system for equipment producing sooty smoke in accordance with claim 25, where combustion flue gases are imported into such infrared spectroscopy analyzers, after Where the flue gas from the combustion flows through the said filter bag