KR101751034B1 - Steam condensate discharging and filter backwashing system for biogas preprocessing apparatus - Google Patents

Abstract

The present invention relates to a condensate discharge and filter backwashing system for a biogas pretreatment apparatus, and more particularly, to a system and method for detecting a difference in biogas pressure before and after a filter installed in a biogas pretreatment apparatus, And a condensate discharge and filter backwashing system for a biogas pretreatment device that can automatically discharge condensate generated in a biogas pretreatment process.

Description

Technical Field [0001] The present invention relates to a steam backwashing system for a biogas pretreatment apparatus,

The present invention relates to a condensate discharge and filter backwashing system for a biogas pretreatment apparatus, and more particularly, to a system and method for detecting a difference in biogas pressure before and after a filter installed in a biogas pretreatment apparatus, And a condensate discharge and filter backwashing system for a biogas pretreatment device that can automatically discharge condensate generated in a biogas pretreatment process.

Generally, in anaerobic digesters and landfills that treat high concentration organic wastes such as livestock manure, food waste, sewage sludge, etc., biogas is generated as the organic material decomposes in the anaerobic state.

The main components of the biogas are methane (50-70%) and carbon dioxide (30-50%), and contains a small amount of impurities such as ammonia, hydrogen, nitrogen, volatile organic compounds and siloxane including hydrogen sulfide. Organic wastes are constantly generated through human activities and various industrial activities, and thus the amount of generated organic wastes is continuously increasing.

The anaerobic digestion process is generally performed by a pretreatment process, an acid fermentation process, a methane fermentation process, a gas collection and purification process, and the like, in which biogas is produced from organic wastes as described above and used for energy conversion. .

The pretreatment process is a process to remove impurities (saturated moisture, mist, dust, etc.) contained in the biogas. It uses a pretreatment and post-treatment system to treat the biogas with low quality gas, medium quality ) Gas and a high quality gas.

Most of the conventional pretreatment apparatuses separate water and mist contained in the biogas by using respective apparatuses. In such a case, the overall configuration of the pretreatment apparatus becomes complicated, and the cost for separating water and mist is increased There is a problem.

In addition, most of the biogas pretreatment apparatuses have filters for removing foreign substances such as dust and moisture contained in the biogas. When dust or foreign matter is accumulated in the filter, the pretreatment apparatus is not properly driven, It is necessary to replace the filters.

However, the conventional pretreatment apparatuses have a problem that it is difficult to replace the filter, and when the filter is replaced, the operation of the pretreatment apparatus must be stopped.

Accordingly, there is a need for a device that can drain water and condensed water without interrupting the operation of the pretreatment device, and at the same time, it is possible to clean the filter, thereby extending the service life of the filter.

1. Korean Registered Patent No. 10-0969501 (issued on July 14, 2010) 2. Korean Patent Registration No. 10-1391410 (issued on April 25, 2014)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a biogas pretreatment apparatus for removing a foreign matter Discharge and filter backwash systems.

It is another object of the present invention to provide a condensate discharge and filter backwashing system for a biogas pretreatment device that can automatically discharge condensate generated during a pre-treatment process of a biogas together with foreign substances filtered by a filter unit.

According to an aspect of the present invention,
In a condensate discharge and filter backwashing system for use in a biogas pretreatment apparatus, a biogas inlet for introducing anaerobic digestion biogas is formed at one side, and a blowing device for elevating the anaerobic digestion biogas introduced through the biogas inlet A cyclone tank for separating and discharging the dust and condensed water from the anaerobic digestion biogas introduced into the inside; A filter unit connected to an upper portion of the cyclone tank and configured to filter the mist and dust contained in the biogas through a biogas ascending by the blower; And a backwashing unit connected to an upper portion of the filter unit to discharge the biogas that has passed through the filter unit and backwash the filter unit using the biogas to be discharged.

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At this time, a first condensed water discharge port is installed at one side of the cyclone tank located below the biogas inlet, and the condensed water discharged from the cyclone tank is discharged automatically when the condensed water accumulated in the cyclone tank accumulates to the installation height.

In addition, a second condensed water discharge port is formed at a lower end of the cyclone tank to manually discharge the condensed water separated from the cyclone tank by driving the valve.

The filter unit may include a first to a fourth filter, each of which is formed in a cone shape having an upper light-tight cone and horizontally arranged at the same height.

The backwashing unit may include a three-way valve connected to an upper portion of the filter unit, a biogas discharge unit connected to an upper portion of the three-way valve, and a blower connected to one side of the three- The discharge part is configured by a biogas outlet for discharging the biogas to the outside, and a biogas refueling port connected to the blower and re-introducing the biogas moving through the three-way valve.

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A differential pressure detecting sensor for detecting a pressure difference of the biogas passing through the cyclone tank and the backwashing unit is connected between the cyclone tank and the backwashing unit.

According to the present invention, it is possible to effectively remove the foreign substances filtered in the filter unit without stopping the operation of the pretreatment apparatus with a simple structure, thereby increasing the service life of the filter unit and thereby improving the operation efficiency of the biogas pretreatment apparatus .

In addition, according to the present invention, moisture and condensed water generated during the pretreatment process of the biogas can be discharged automatically together with the mist and dust filtered by the filter unit, thereby reducing the cost and time required for the entire biogas pretreatment process In addition to the effect of the present invention.

1 is a front sectional view schematically showing a normal operation state of a condensate discharge and filter backwashing system for a biogas pretreatment apparatus according to the present invention.
FIG. 2 is a front sectional view schematically showing a backwashing operation state of a condensate discharge and filter backwashing system for a biogas pretreatment apparatus according to the present invention. FIG.
Figs. 3 (a) and 3 (b) are plan sectional views of the present invention shown in Figs. 1 and 2;
Fig. 4 (a) and Fig. 4 (b) are views showing a state of the filter portion in the normal operation state and the reverse cleaning operation state of the present invention shown in Fig. 1 and Fig.

Hereinafter, preferred embodiments of a condensate discharge and filter backwashing system for a biogas pretreatment apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a front sectional view schematically showing a normal operation state of a condensed water discharge and filter backwashing system for a biogas pretreatment apparatus according to the present invention, FIG. 2 is a cross-sectional view of a condensate water discharge and filter backwashing system for a biogas pre- 3 (a) and 3 (b) are a plan sectional view of the present invention shown in Figs. 1 and 2, and Figs. 4 (a) and 4 (b) are cross- 2 is a view showing a state of the filter unit in a normal operation state and a back-washing operation state of the present invention shown in Fig. 2. Fig.

The present invention relates to a biogas pretreatment device for detecting a difference in biogas pressure before and after a filter installed in a biogas pretreatment device so as to automatically back up foreign matters filtered by the filter and automatically discharge condensate generated in a biogas pretreatment process 1 and 2, a condenser water discharge and filter back-up system 100 for a biogas pretreatment apparatus includes a cyclone tank 110, a filter unit 120, and a backwashing unit 130 .

More specifically, the cyclone tank 110 serves to filter the dust contained in the anaerobic digestion biogas introduced into the cyclone tank 110, and at the same time, the water and condensed water generated during the pre- And a biogas inlet 112 into which the anaerobic digestion biogas flows is formed at one side thereof.

That is, when the anaerobic digestion biogas not purified through the biogas inlet 112 flows into the cyclone tank 110, the biogas rotates, and centrifugal force is generated in the biogas The dust contained therein is separated and descends to the lower portion of the cyclone tank 110.

At this time, the biogas introduced into the cyclone tank 110 rises by the driving of a separately installed blower (not shown) and moves through the filter unit 120 to be described later.

1, a first condensed water outlet 114 is installed at one side of the cyclone tank 110 located below the biogas inlet 112. The first condensed water outlet 114 is connected to a bio- It automatically discharges the condensate generated during the impurity removal process of the gas, that is, the pretreatment of the unpurified anaerobic digestion biogas.

That is, the condensed water generated in the refining process of the anaerobic digestion biogas is accumulated in the cyclone tank 110, and when the condensed water reaches a certain level, that is, the installation height of the first condensed water discharge soccer 114, 110 and the first condensed water outlet 114 together with foreign matter such as dust separated from the inside of the first condensed water outlet 114 (refer to FIG. 1).

A second condensed water outlet 116 is formed in the lower end of the cyclone tank 110. A valve 116a is installed in the second condensed water outlet 116 to discharge the condensed water stored in the cyclone tank 110 manually .

That is, a foreign matter such as dust separated from the anaerobic digestion biogas in the cyclone tank 110 is discharged together with the condensed water discharged through the first condensed water discharge port 114 and discharged to the cyclone tank 110 So as to discharge the condensed water stored in the lower portion of the cyclone tank 110 which is not discharged through the first condensed water discharge port 114, 110 at the lower end thereof.

Next, the filter unit 120 is connected to the upper part of the cyclone tank 110 to filter out mist and dust contained in the biogas in which foreign substances such as moisture and dust are trapped in the cyclone tank 110 will be.

As shown in FIGS. 1 and 3, the filter unit 120 is divided into first to fourth filters 122, 124, 126, and 128 disposed horizontally at the same height, So that mist and dusts filtered by the filter unit 120 can be cleaned without stopping the normal driving of the biogas pretreatment apparatus.

That is, some filters of the filter unit 120 separated by the first to fourth filters 122, 124, 126, and 128 filter out mist and dust by normal driving, and the remaining filters, which do not perform normal driving, So that the foreign substances attached to the filter can be cleaned by switching the flow direction of the biogas by the filter 130.

As shown in FIGS. 3A and 3B and FIGS. 4A and 4B, the filter unit 120, which is divided into the first to fourth filters 122, 124, 126 and 128, Sectional area of the filter unit 120 to filter the mist and dust of the biogas by making each of the first to fourth filters 122, 124, 126, The foreign substances adhered to the filter unit 120 can be more easily cleaned when the filter unit 120 is backwashed.

Next, the backwashing unit 130 is connected to the upper part of the filter unit 120 so as to discharge the biogas separated by mist and dust by the filter unit 120, and at the same time, And includes a three-way valve 132, a biogas discharging unit 134, and a blower 136. The three-way valve 132, the biogas discharging unit 134, and the blower 136 are connected to each other.

More specifically, the three-way valve 132 is connected to an upper portion of the filter unit 120 to selectively move the biogas separated by mist and dust by the filter unit 120, As shown in Figs. 1, 2 and 4 (a) and 4 (b), are individually connected to the upper portions of the respective filter portions 120, that is, the first to fourth filters 122, 124, 126 and 128, A biogas discharge portion 134 is connected to the upper portion of the valve 132 and a blower 136 is connected to the side portion of the valve 132.

The biogas discharge unit 134 is connected to the upper portion of the three-way valve 132 to discharge the biogas that has passed through the three-way valve 132. The biogas discharge port 134a is connected to the biogas re- And an inlet 134b.

That is, the biogas discharge port 134a serves to discharge moisture, mist, and dust-filtered biogas to the outside. The biogas re-entry port 134b is connected to a blower 136, which will be described later, Way valve 132 through the blower 136 to return the filter 120 to the back-flow.

The blower 136 is connected between the three-way valve 132 and the biogas discharge unit 134 so that a part of the biogas discharged through the three-way valve 132 is supplied to the biogas discharge unit 134, And flows through the gas re-inlet 134b to supply the gas to the three-way valve 132 again.

At this time, the biogas supplied to the three-way valve 132 by the blower 136 is further directed toward the filter part 120 to reverse the filter part 120, thereby cleaning the mist and dust filtered by the filter part 120 .

A differential pressure detection sensor 140 is connected between the cyclone tank 110 and the backwashing unit 130. The differential pressure detection sensor 140 detects the presence of the biogas in the cyclone tank 110 and the backwashing unit 130 And the biases of the biogas passing through the biogas discharge unit 134 of the filter unit 120 are detected to determine the cleaning time of the filter unit 120.

That is, when a large amount of mist and dust are adhered to the filter unit 120, the pressure of the biogas passing through the biogas discharge unit 134 becomes much weaker than the biogas pressure inside the cyclone tank 110, It is possible to determine whether the backwashing unit 130 is driven or not by detecting the presence of the backwashing unit.

Although not shown, a control unit for controlling the driving of the blower 136 may be additionally provided by a signal transmitted from the pressure difference sensor 140 so that the backwashing process of the filter unit 120 using the backwashing unit 130 is automatically performed As shown in FIG.

In addition, by sequentially adjusting the opening direction of the three-way valve 132 connected to the filter unit 120 by using the control unit, two or three filters of the first to fourth filters 122, 124, 126, So that the biogas that has passed through the filter unit 120 can be discharged to the outside through the biogas outlet 134a and the rest of the filters can be removed from the filter unit 120 and the three- A part of the biogas that has passed through the biogas re-entry port 134b and the blower 136 flows into the three-way valve 132 and is discharged toward the filter part 120, The process of backwashing the dusts may be configured to be switched at predetermined time intervals.

Therefore, according to the condensed water discharge and filter backwashing system 100 for a biogas pretreatment apparatus according to the present invention as described above, it is possible to effectively remove foreign matters filtered by the filter unit 120 without stopping the operation of the pre- Thereby improving the operating efficiency of the biogas pretreatment device. In addition, it is possible to improve the operation efficiency of the biogas pretreatment device, and to prevent the moisture and condensed water generated in the pretreatment process of the biogas from entering the filter 120, It is possible to reduce the cost and time required for the entire biogas pretreatment process.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will readily appreciate that many modifications are possible in the exemplary embodiments without materially departing from the novel teachings and advantages of this invention.

The present invention relates to a condensate discharge and filter backwashing system for a biogas pretreatment apparatus, and more particularly, to a system and method for detecting a difference in biogas pressure before and after a filter installed in a biogas pretreatment apparatus, And a condensate discharge and filter backwashing system for a biogas pretreatment device that can automatically discharge condensate generated in a biogas pretreatment process.

100: filter backwash system 110: cyclone tank
112: Biogas inlet 114: First condensate outlet
116: Second condensate discharge port 116a: Valve
120: filter unit 122: first filter
124: second filter 126: third filter
128: fourth filter 130:
132: Three-way valve 134: Biogas outlet
134a: Biogas outlet port 134b: Biogas refuge entrance
136: blower 140: differential pressure sensor

Claims (7)

In a condensate discharge and filter backwash system for a biogas pretreatment system,
A biogas inlet for introducing anaerobic digestion biogas is formed at one side and a blowing device for elevating the anaerobic digestion biogas introduced through the biogas inlet to separate dust and condensate from the anaerobic digestion biogas flowing inwardly A cyclone tank for discharging the cyclone tank;
A filter unit connected to an upper portion of the cyclone tank and configured to filter the mist and dust contained in the biogas through a biogas ascending by the blower;
A backwashing unit connected to an upper portion of the filter unit to discharge the biogas that has passed through the filter unit and reverse-wash the filter unit using biogas to be discharged;
A first condensed water discharge port installed at one side of the cyclone tank located at the lower portion of the biogas inlet for automatically discharging the condensed water separated from the cyclone tank when the condensed water accumulates inside the cyclone tank, And
And a second condensed water discharge port formed at a lower end of the cyclone tank for manually discharging the condensed water separated from the cyclone tank by driving the valve,
The filter unit is divided into first to fourth filters arranged in a horizontal direction at the same height,
The backwashing unit includes a three-way valve connected to upper portions of first to fourth filters constituting the filter unit, a biogas exhaust unit connected to the upper portion of the three-way valve, and a blower connected to one side of the three- ≪ / RTI >
The biogas discharging unit is divided into a biogas outlet for discharging the biogas to the outside and a biogas refueling inlet connected to the blower to re-introduce the biogas moving through the three-way valve, thereby stopping normal operation of the pretreatment apparatus Wherein the filter unit is configured to remove foreign matters filtered by the filter unit.
delete delete delete delete delete The method according to claim 1,
And a differential pressure detecting sensor for detecting a differential pressure of the biogas passing through the cyclone tank and the backwashing unit is connected between the cyclone tank and the backwashing unit.

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