KR100896240B1 - A pollutional material eliminating apparatus and method for a carbide producing progress with an organic waste - Google Patents

Abstract

The present invention is to clean the pollutants contained in the exhaust gas according to the drying of the organic waste in the manufacture of carbide using organic waste to clean the air as possible to minimize the air pollution by the facility of simple structure to be exhausted to the atmosphere as possible for,

A method of removing pollutants, including a dust collecting step of removing particulate matter from exhaust gas containing pollutants generated during drying of crushed organic waste shreds by hot air dryer when organic waste is made of carbide. A filtering step of removing, by a plurality of filters, fine particulate matter not removed in the dust collecting step after the dust collecting step; A combustion treatment step of completely burning and removing the filtered exhaust gas at high temperature by volatile organic compound (VOC); A fine dust removing step of removing the combustion-treated exhaust gas by the multilayer filter cloth to remove fine dust and high concentration of dust contained therein; According to the manufacture of carbide using organic waste, comprising an exhausting step of exhausting through the flue after removing the fine dust, and supplying a part of the combustion heat burned in the combustion treatment step to the exhaust gas just before flowing into the filtering step It relates to a method and apparatus for removing pollutants.

Organic, Waste, Carbide, Dust Collector, Filter, Organic, Combustion, Removal

Description

A pollutional material eliminating apparatus and method for a carbide producing progress with an organic waste}

1 is a main block diagram schematically showing the removal step of the present invention.

Figure 2 is a main view schematically showing the removal device of the present invention.

3A to 3C are schematic views schematically showing a prefilter of the present invention.

4 is a main view schematically showing a regenerative oxidizer of the present invention.

5A and 5B are main parts schematically showing a bag filter of the present invention.

Figure 6 is a schematic main view showing a removing material according to the conventional manufacture of carbides using organic waste.

Explanation of symbols for the main parts of the drawings

10: prefilter 12: housing

14 filter portion 15 inlet portion

16: outlet 20: combustion means

22: dispersing wing 23: heat storage layer

24 catalyst layer 25 combustion chamber

26: discharge chamber 28: bypass line

30: bag filter 32: filter cloth

40: year B: burner

F: Blower M: Drive Source

100: hot air dryer 110: dust collector

The present invention is to clean the pollutants contained in the exhaust gas according to the drying of the organic waste in the manufacture of carbide using organic waste to clean the air as possible to minimize the air pollution by the facility of simple structure to exhaust to the atmosphere It relates to a method and apparatus for removing pollutants according to carbide production using organic wastes.

In general, the process of manufacturing carbide using organic wastes is carried out through various shredding and sorting processes according to the characteristics of the collected organic wastes, and only the organic wastes are shredded into particles, and the crushed materials are subjected to hot air drying in a normal hot air dryer. The dried product was dried and made into carbides through a dry distillation carbonizer, which was carbonized by conventional dry distillation.

In the above, the hot air supplied to the hot air dryer is preferably used by supplying the heat of the dry gas, which is a high temperature hot air generated during the carbonization of the dry carbonized carbonizer, for recycling. Hot air generated by separate combustion means may be supplied.

In this way, in the process of manufacturing carbide using organic waste, the exhaust gas generated during hot air drying in the hot air dryer contains a large amount of moist moisture, and air pollution is serious due to the release of pollutants such as odor and dust. Had a problem.

In order to solve this problem, a patent application No. 557472, entitled "Method and Apparatus for Removing Pollutants in Manufacturing Charcoal Using Organic Wastes", which was previously filed and registered by the present applicant, was described. As follows.

As shown, the centrifugal dust collector 110 receives the pollutants emitted from the hot air dryer 100 through a supply line L and centrifugally removes the dust contained therein, and the pollutants from which the dust is removed. Condenser 120 for supplying the material through the supply pipe (L) condensing the moisture contained in the pollutant to make the dry steam to remove the water and the supply steam (L) Through the supply pipe (L1) to supply heat to the combustion chamber of the carbonized carbonizer 200 through the supply pipe (L1) to supply the combustion air to the hot air dryer by completely burning the pollution component A first heat exchanger 30 and a second heat exchanger 140 which receives the heat-exchanged air through a supply line L and heat-exchanges the second heat exchanger 140 again to suppress generation of pollution components on the line, and the reheat bridge High-performance dust collector 150 for receiving air through the supply line (L) to re-collect the fine pollutant components, and the flue to discharge the re-collected air to the atmosphere through the blower 164 installed in the exhaust pipe 62 It consists of 160.

Accordingly, in order to manufacture organic wastes as carbides, it had the advantage of easily removing the pollutants contained in the exhaust gas discharged from the hot air dryer, but the structure of each facility for removing the pollutants was not only complicated but also In addition to the condition that the size of the facilities will be large, the connection structure between the facilities also had a fairly complex problem.

Accordingly, the present invention has been improved and based on the patent registration No. 5,554,2 "Method and apparatus for removing pollutants according to the manufacture of charcoal using organic waste", the object of which is to manufacture carbide using organic waste. Pollutants from the manufacture of carbides using organic wastes to clean the pollutants contained in the exhaust gases resulting from the drying of organic wastes to the air as cleanly as possible to minimize air pollution. To provide a method and apparatus for removal.

Another object of the present invention is to minimize clogging by oil when removing fine dust by a prefilter.

The present invention for achieving the above object, the dust collection step of removing the particulate matter of the exhaust gas containing pollutants generated in the process of drying the crushed matter of the organic waste by the hot air dryer when the organic waste is made of carbide A method for removing pollutants, including: a filtering step of removing, by a plurality of filters, fine particulate matter not removed in the dust collecting step after the dust collecting step; A combustion treatment step of completely burning and removing the filtered exhaust gas at high temperature by volatile organic compound (VOC); A fine dust removing step of removing the combustion-treated exhaust gas by the multilayer filter cloth to remove fine dust and high concentration of dust contained therein; It comprises an exhaust step of exhausting through the flue after the fine dust removal, characterized in that for supplying the part of the combustion heat burned in the combustion processing step to the exhaust gas just before flowing into the filtering step.

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When manufacturing organic waste from carbides, pollutants including dust collector which removes particulate matter of exhaust gas containing pollutants generated by drying the crushed products of organic waste by hot air dryer by inflow pressure of blower An apparatus for removing, comprising: a pre-filter for removing fine particulate matter not removed by the induction pressure of the blower from the exhaust gas from which the particulate matter is removed from the dust collector; A combustion means for receiving the exhaust gas from which the fine particulate matter is removed from the blower and burning the volatile organic compound and the organic odor gas at a high temperature; A bag filter receiving the combustion-treated exhaust gas to remove fine dust and high concentration of dust by a multilayer filter cloth; Comprising a flue for exhausting the exhaust gas from which the fine dust and high concentration dust is removed to the atmosphere, the pre-filter is partitioned by a filter portion formed in the inner middle of the housing, and each inlet portion and the filter unit Characterized in that the discharge portion is formed.

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The softening means may include a bypass line for supplying a part of high temperature combustion heat to exhaust gas flowing into the prefilter from the dust collector.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a main block diagram schematically showing the removal step of the present invention.

As shown in the figure, a centrifugal separator containing particulate matter having a certain size with the weight of the exhaust gas contained in the pollutant generated in the process of drying the wastes of the organic waste by the hot air dryer when the organic waste is made of carbide is shown. In the method for removing pollutants, including a dust collecting step (S1) to collect and remove by centrifugal separation method, such as,

The present invention is to clean the pollutants contained in the exhaust gas according to the drying of the organic waste in the manufacture of carbide using the organic waste to clean the air as possible to minimize the air pollution by the facility of simple structure to exhaust to the atmosphere in order to,

After the dust collecting step, the fine particulate matter not removed in the dust collecting step is subjected to a filtering step S2 of removing a material of 254 μm or more by a filter, that is, about 100 mesh (245 μm).

Accordingly, the filtering step is to be easily removed by the filter without passing through the fine particulate matter not removed in the dust collection step.

The exhaust gas from which the filtered fine particulate matter is removed is subjected to a combustion treatment step (S3) of completely burning and removing volatile organic compound (VOC) and organic odor gas at a high temperature of about 800 ° C.

As a result, the volatile organic compounds or organic odorous gases contained in the exhaust gas are completely burned at high temperature to be removed cleanly.

The combustion-treated exhaust gas is subjected to a fine dust removal step (S4) to remove fine dust up to about 0.5 μm or more and dust of high concentration by a filter cloth provided with multilayers of fine dust and high concentration of dust contained therein. do.

Therefore, as the fine dust contained in the exhaust gas and even the dust of high concentration are removed by the filter cloth provided in multiple layers, the pollutants polluting the air do not remain in the exhaust gas.

After the fine dust is removed, harmful dust or gas or pollutants, and the exhaust gas (S5) is exhausted to the atmosphere through the normal flue to remove only the odor or odor is shown to be configured to include.

Therefore, by using organic wastes, various harmful dusts, gases, odors, and odors contained in the exhaust gas generated by the hot air dryer according to the manufacture of carbides are cleanly removed by the facilities of a simple structure, and not exhausted by the complex facilities. It is possible to minimize contamination.

On the other hand, by supplying a part of the combustion heat burned in the combustion processing step to the exhaust gas just before flowing into the filtering step, the temperature immediately before the exhaust gas is introduced into the filtering step is increased, that is, the discharge flowed into the filtering step from the dust collector The temperature of the gas is about 110 ° C. As the temperature of the exhaust gas is raised to about 120 ~ 130 ° C by supplying a part of the combustion heat burned in the combustion treatment step, the filtering is smoothly performed without being blocked by oil or the like. It is desirable to make it possible.

2 is a schematic view showing a main part of the removal device of the present invention.

As shown, when the organic waste is made of carbide, the particulate matter of the exhaust gas containing the pollutant generated in the process of drying the crushed matter of the organic waste by the hot air dryer 100 is applied to the inlet pressure of the blower (F). And a dust collector 110 for collecting and removing particulate matter having a certain size and having a predetermined size by a centrifugal separation method such as a conventional centrifuge. At this time, the dust collector is connected in parallel so as to increase dust collection efficiency. In the device for removing,

The present invention is to clean the pollutants contained in the exhaust gas according to the drying of the organic waste in the manufacture of carbide using the organic waste to clean the air as possible to minimize the air pollution by the facility of simple structure to exhaust to the atmosphere in order to,

It is provided with a pre-filter (10) for removing fine particulate matter not removed from the dust collector to about 100 mesh (245㎛) by the inlet pressure of the blower (F) 254㎛ or more. At this time, the temperature of the exhaust gas flowing into the pre-filter through the dust collector is about 110 ℃.

In the above, the pre-filter 10 is a stainless steel material in the middle of the interior of the housing 12, as shown in Figure 3a to 3c, while having acid resistance, durability and heat resistance of about 100 mesh (245㎛) fine to more than 254㎛ It is preferable to be partitioned by the filter part 14 formed so that a particulate matter can be filtered, and each inlet part 15 and the discharge part 16 may be formed with respect to the filter part.

Accordingly, even fine particulate matter of 254 μm or more that cannot be removed from the dust collector is easily removed from the filter unit.

In addition, the pre-filter is provided in pairs, so that when the abnormality occurs during the process of using one or when cleaning, etc. is required to stop using and to alternately connect another one to use alternately, do not stop the removal of pollutants It is desirable to be able to increase the efficiency by continuing to do without. At this time, each inlet of the pre-filter is provided with a damper which is a normal opening and closing means to open the required pre-filter in use and to close when not in use.

In the prefilter, the exhaust gas from which the fine particulate matter is removed is removed from the blower through a combustion means 20 for burning the volatile organic compound and the organic odor gas at a high temperature.

In the above, the combustion means may be a structure that burns at a high temperature of about 800 ℃ by a burner or the like while passing the exhaust gas in the housing provided with a conventional passage.

However, it is preferable that the combustion means has a treatment efficiency of 99% or more while satisfying three conditions of temperature, residence time, and mixing so that the organic material can be combusted, which is shown in FIG. 4. It is preferable to apply a combustion apparatus that distributes the wind direction by the rotary rotor.

That is, the combustion means 20 is by the heat storage layer 23, the catalyst layer 24 and the burner (B) to the upper side by the dispersing blade 22, the exhaust gas supplied to the blower is rotated by the drive source (M). Combustion is carried out at a temperature of about 800 ° C. or higher through the combustion chamber 25 to be combusted, and then the combustion chamber 25 has a structure in which the volatile organic compounds and organic odorous gases contained in the exhaust gas are completely burned, and then discharged through the discharge chamber 26. desirable.

Accordingly, volatile organic compounds and organic odorous gases contained in the exhaust gas flowing into the combustion means are completely burned and removed by high temperature in the combustion chamber while recovering heat from the heat storage layer, thereby saving energy with high efficiency. It is desirable to be able to.

In other words, the combustion means deviates from the existing heat storage method and converts the direction of the wind into a continuous flow by induction of the gas divided in a circular shape by the rotation of the dispersing blade, so that one side of the heat storage layer, that is, the part of the inflow of the exhaust gas is always provided. Is preheated, and the part discharged after combustion, which is the other side, continuously performs the role of recovering heat and has a condition capable of complete combustion.

In addition, the combustion means 20 is provided with a bypass line 28 for supplying a part of the high-temperature combustion heat to the exhaust gas flowing into the prefilter 10 from the dust collector 110, thereby preventing the inflow into the prefilter. It is preferable to raise the exhaust gas of about 110 ° C. to about 150 ° C. to prevent the filter portion of the prefilter from being blocked by oil.

A conventional bag filter having high dust collection efficiency for removing fine dust and dust at a concentration of about 0.5 μm or more by the multilayer filter cloth 32 as shown in FIGS. 5A and 5B so that the combustion-treated exhaust gas can be replaced. 30) removes fine powder and high concentration of dust in exhaust gas. At this time, the fine dust and the high concentration of dust collected in the filter cloth can be removed by separating the filter cloth or using a conventional inhaler or the like.

In addition, the bag filter is also provided as a pair, such as a pre-filter, so that when the abnormality occurs or cleaning is required in the process of using one, so that it can be used alternately by connecting another immediately, pollution, It is desirable to be able to remove the material continuously without stopping removal.

Thus, it comprises a flue 40 for exhausting the exhaust gas removed to the fine dust and high concentration of dust to the atmosphere.

Therefore, various kinds of harmful dusts, gases, odors and odors contained in the exhaust gas discharged from the hot air dryer during the manufacture of carbides using organic wastes are cleanly removed by the facilities of a simple structure, and not exhausted by the complex facilities. You will have conditions that will minimize contamination.

As described above, the present invention is an improvement based on the patent application No. 574752 "A method and apparatus for removing pollutants according to the manufacture of charcoal using organic waste", which is registered and filed by the applicant. The pollutants contained in the exhaust gas resulting from the drying of the organic waste can be cleaned as cleanly as possible to minimize air pollution by the facilities of simple structure, and exhausted to the atmosphere. It has the effect of minimizing the air pollution while minimizing the installation area and reducing the installation cost according to the effect that can be miniaturized.

In addition, the temperature of the exhaust gas supplied to the prefilter is increased by supplying a part of the high temperature from the combustion means, thereby minimizing the clogging of the filter part of the prefilter by oil and thereby removing the pollutants. It is to have an effect that can be made smoothly.

Claims (5)

delete A method of removing pollutants, including a dust collecting step of removing particulate matter from exhaust gas containing pollutants generated during drying of crushed organic waste shreds by hot air dryer when organic waste is made of carbide. , A filtering step (S2) of removing the particulate matter not removed in the dust collecting step by the plurality of filters after the dust collecting step; A combustion treatment step (S3) of completely removing the volatile organic compounds by burning the filtered exhaust gas at a high temperature; A fine dust removing step (S4) of removing the combustion-treated exhaust gas by the multilayer filter cloth to remove fine dust and high concentration of dust contained therein; It is configured to include an exhaust step (S5) for exhausting through the flue after removing the fine dust, The method of removing pollutants according to the manufacture of carbides using organic wastes, characterized in that for supplying a part of the combustion heat burned in the combustion treatment step to the exhaust gas just before flowing into the filtering step. delete When manufacturing organic waste from carbides, pollutants including dust collector which removes particulate matter of exhaust gas containing pollutants generated by drying the crushed products of organic waste by hot air dryer by inflow pressure of blower In the device for removing, A pre-filter (10) for removing fine particulate matter not removed by the attraction pressure of the blower to the exhaust gas from which the particulate matter is removed from the dust collector; A combustion means (20) which receives the exhaust gas from which the fine particulate matter is removed from the blower and burns the volatile organic compound and the organic odor gas at a high temperature; A bag filter 30 which receives the combustion-treated exhaust gas and removes fine dust and high concentration of dust by a multilayer filter cloth 32; Composed of the flue 40 for exhausting the exhaust gas from which the fine dust and high concentration dust is removed to the atmosphere, The prefilter 10 is partitioned by a filter portion 14 formed in the middle of the interior of the housing 12, characterized in that each inlet portion 15 and the discharge portion 16 is formed based on the filter portion. Pollution removal device according to the manufacture of carbides using organic waste. The method of claim 4, wherein the softening means 20 is provided with a bypass line 28 for supplying a part of the high temperature combustion heat to the exhaust gas flowing into the pre-filter 10 from the dust collector 110. Pollutant removal device according to carbide production using organic wastes.

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