KR102250907B1 - High efficiency desulfurize apparatus for bio gas generator - Google Patents

Abstract

The present invention is a cartridge exchange type dry desulfurization apparatus for adsorbing and removing harmful substances in biogas using activated carbon, comprising: an input unit into which biogas is introduced; A discharge unit connected to the generator so that the biogas introduced into the input unit is discharged to the generator; A first desulfurization gas transfer unit connected to the input unit and the discharge unit to reduce sulfur in the biogas and move it to the discharge unit; A second desulfurization gas transfer unit connected to the input unit and the discharge unit to reduce sulfur in the biogas and move it to the discharge unit; And a bypass passage for controlling the gas to move to only one of the first desulfurization gas moving part and the second desulfurizing gas moving part; including, the first desulfurization gas moving part, connected to one side of the discharge part, and having a T-shape A first gas passage intermediate dividing member formed by a pipe of the; A first gas passage moving member connected to one side of the first gas passage intermediate dividing member and formed of an elbow-shaped pipe; A second gas passage moving member connected to the first gas passage moving member and formed of a straight pipe; A third gas passage moving member connected to the second gas passage moving member and formed of a flexible material; A fourth gas passage moving member connected to the third gas passage moving member and having a diameter of the other end larger than the diameter of one end; A first body portion connected to the other side of the fourth gas passage moving member and formed to have the same diameter as the diameter of the other end of the fourth gas passage moving member; A first activated carbon cartridge part formed in a part of the inner space of the first body part to desulfurize a sulfur component of the biogas; A second activated carbon cartridge part formed in the other part of the inner space of the first body part to desulfurize the sulfur component of the biogas; A fifth gas passage moving member connected to one side of the first body portion, the diameter of the other end being larger than the diameter of one end, and the diameter of the other end being formed to have the same diameter as the diameter of the first body portion; A sixth gas passage moving member connected to the fifth gas passage moving member and formed of a flexible material; A seventh gas passage moving member connected to the sixth gas passage moving member and formed of a straight pipe; An eighth gas passage moving member connected to the seventh gas passage moving member and formed of an elbow-shaped pipe; And a ninth gas passage moving member connected to the eighth gas passage moving member, formed of a straight pipe, and connected to the discharge unit, wherein the second desulfurization gas moving portion is in the middle of the first gas passage A third gas passage intermediate dividing member connected to the dividing member and formed of a T-shaped pipe; A 21st gas passage moving member connected to one side of the third gas passage intermediate dividing member and formed of a straight pipe; A second gas passage moving member connected to the 21st gas passage moving member and formed of an elbow-shaped pipe; A 23rd gas passage moving member connected to the 22nd gas passage moving member and formed of a straight pipe; A twenty-fourth gas passage moving member connected to the twenty-third gas passage moving member and formed of a flexible material; A twenty-fifth gas passage moving member connected to the twenty-fourth gas passage moving member and having a diameter of the other end larger than that of one end; A second body connected to the other side of the 25th gas passage moving member and formed to have the same diameter as the diameter of the other end of the 25th gas passage moving member; A third activated carbon cartridge part formed in a part of the inner space of the second body part to desulfurize the sulfur component of the biogas; A fourth activated carbon cartridge part formed in the other part of the inner space of the second body part to desulfurize the sulfur component of the biogas; A 26th gas passage moving member connected to one side of the second body portion, having a diameter of the other end larger than that of one end, and having a diameter of the other end having the same diameter as the diameter of the second body portion; A 27th gas passage moving member connected to the 26th gas passage moving member and formed of a flexible material; A 28th gas passage moving member connected to the 27th gas passage moving member and formed of a straight pipe; A 29th gas passage moving member connected to the 28th gas passage moving member and formed of an elbow-shaped pipe; And a fourth gas passage intermediate dividing member connected to the 29th gas passage moving member, formed of a T-shaped pipe, and connected to the discharge portion, wherein the bypass passage portion includes the first desulfurization gas. The second gas passage is formed between the ninth gas passage moving member and the fourth gas passage intermediate dividing member so that the gas is moved to only one of the eastern part and the second desulfurization gas moving part, and formed by a T-shaped pipe. absence; A tenth gas passage moving member connected to one side of the second gas passage intermediate dividing member and formed of a straight pipe; And an eleventh gas passage moving member formed between the third gas passage intermediate dividing member and the tenth gas passage moving member and formed as a straight pipe, wherein the bypass passage portion contains the first desulfurization gas. A first valve portion formed between the first gas passage intermediate dividing member and the first gas passage moving member to perform a role of moving the gas to only one of the eastern portion and the second desulfurization gas moving portion; A second valve portion formed between the eighth gas passage moving member and the ninth gas passage moving member; A third valve portion formed between the second gas passage intermediate dividing member and the fourth gas passage intermediate dividing member; A fourth valve part formed between the tenth gas passage moving member and the eleventh gas passage moving member; A fifth valve part formed between the first gas passage intermediate dividing member and the third gas passage intermediate dividing member; A sixth valve part formed between the 21st gas passage moving member and the 22nd gas passage moving member; A seventh valve portion formed between the 29th gas passage moving member and the fourth gas passage intermediate dividing member, wherein the first activated carbon cartridge portion, the second activated carbon cartridge portion, the third activated carbon cartridge portion, and the fourth The activated carbon cartridge unit; relates to a high-efficiency desulfurization apparatus for a biogas generator, characterized in that a polling (Pall　Ring) serving as activated carbon is accommodated therein.

Description

High efficiency desulfurization device for biogas generator {HIGH EFFICIENCY DESULFURIZE APPARATUS FOR BIO GAS GENERATOR}

The present invention relates to a high-efficiency desulfurization apparatus for a biogas generator, and in particular, to a high-efficiency desulfurization apparatus for a biogas generator having a replaceable activated carbon cartridge used in the field of biogas energy generation.

Recently, the utilization of biogas among new renewable energies is gradually increasing.

In addition, the energy business of biogas, which converts livestock manure, food waste, and food waste into biogas, is also undergoing a lot of research and development and practical use.

As a process necessary for biogas to be utilized, a process of removing sulfur or hydrogen sulfide components in biogas is essential.

Methods of removing such sulfur components include a wet desulfurization method and a dry desulfurization method.

Activated carbon is widely used for purification of biogas, flue gas desulfurization, and treatment of water and sewage.

In general, activated carbon is an aggregate of carbon with fine pores. It is activated with hot air or steam after carbonizing materials containing carbon such as wood, sawdust, fruit seeds and coconut shells, coal, or lignite. It is manufactured by (Activation).

Activated carbon has the adsorption capacity of adsorbing molecules of the substance to be adsorbed by applying an attractive force to the surrounding liquid or gas by the surface area of the pores usually reaching 500~1700㎡/g and the functional group of carbon atoms present on the surface. have.

These activated carbons are classified into powdered activated carbon and granular activated carbon according to their shape, and powdered activated carbon and granular activated carbon are classified according to treatment types, but their physical properties and adsorption mechanisms as activated carbon are similar.

Powdered activated carbon is inexpensive, but the pressure drop is too large, so it is limited in its use and has a drawback that it is almost impossible to regenerate, whereas granular activated carbon has a sufficiently large surface area and has a small pressure drop, so that the adsorbed material can be recovered relatively easily. It is most widely used because it can be reproduced.

Exhaust gases generated from incinerators, power plants, steel mills, food manufacturing plants, painting facilities, and factories generating odors contain various pollutants and harmful substances such as odors, and activated carbon is used to purify these exhaust gases. The device is being used a lot.

However, among the existing desulfurization methods, the wet desulfurization method has a disadvantage of high construction and management costs.

In addition, among the existing desulfurization methods, the dry desulfurization method has the advantage of inexpensive facilities at the time of initial installation, and has low operating costs. However, the problem of the dry desulfurization method is that the saturation of the activated carbon is different, and thus there is a problem that it cannot be effectively managed. In addition, there is a problem that the desulfurization effect gradually decreases over time due to the channeling phenomenon.

As a conventional technique, an invention such as Korean Patent Publication No. 10-2004-0026552 (name of the invention: desulfurization of biogas produced during anaerobic digestion of organic waste, a cleaning method and apparatus) has been proposed.

In order to solve the above-described problems of the present invention, the present invention relates to a high-efficiency desulfurization device for a biogas generator, in particular, including a replaceable activated carbon cartridge used in the field of a biogas energy power plant, and a high-efficiency desulfurization device for a biogas generator. To provide.

In order to solve the above problems, the present invention is a cartridge exchange type dry desulfurization apparatus for adsorbing and removing harmful substances in biogas using activated carbon, comprising: an input unit into which biogas is introduced; A discharge unit connected to the generator so that the biogas introduced into the input unit is discharged to the generator; A first desulfurization gas transfer unit connected to the input unit and the discharge unit to reduce sulfur in the biogas and move it to the discharge unit; A second desulfurization gas transfer unit connected to the input unit and the discharge unit to reduce sulfur in the biogas and move it to the discharge unit; And a bypass passage for controlling the gas to move to only one of the first desulfurization gas moving part and the second desulfurizing gas moving part; including, the first desulfurization gas moving part, connected to one side of the discharge part, and having a T-shape A first gas passage intermediate dividing member formed by a pipe of the; A first gas passage moving member connected to one side of the first gas passage intermediate dividing member and formed of an elbow-shaped pipe; A second gas passage moving member connected to the first gas passage moving member and formed of a straight pipe; A third gas passage moving member connected to the second gas passage moving member and formed of a flexible material; A fourth gas passage moving member connected to the third gas passage moving member and having a diameter of the other end larger than the diameter of one end; A first body portion connected to the other side of the fourth gas passage moving member and formed to have the same diameter as the diameter of the other end of the fourth gas passage moving member; A first activated carbon cartridge part formed in a part of the inner space of the first body part to desulfurize a sulfur component of the biogas; A second activated carbon cartridge part formed in the other part of the inner space of the first body part to desulfurize the sulfur component of the biogas; A fifth gas passage moving member connected to one side of the first body portion, the diameter of the other end being larger than the diameter of one end, and the diameter of the other end being formed to have the same diameter as the diameter of the first body portion; A sixth gas passage moving member connected to the fifth gas passage moving member and formed of a flexible material; A seventh gas passage moving member connected to the sixth gas passage moving member and formed of a straight pipe; An eighth gas passage moving member connected to the seventh gas passage moving member and formed of an elbow-shaped pipe; And a ninth gas passage moving member connected to the eighth gas passage moving member, formed of a straight pipe, and connected to the discharge unit, wherein the second desulfurization gas moving portion is in the middle of the first gas passage A third gas passage intermediate dividing member connected to the dividing member and formed of a T-shaped pipe; A 21st gas passage moving member connected to one side of the third gas passage intermediate dividing member and formed of a straight pipe; A second gas passage moving member connected to the 21st gas passage moving member and formed of an elbow-shaped pipe; A 23rd gas passage moving member connected to the 22nd gas passage moving member and formed of a straight pipe; A twenty-fourth gas passage moving member connected to the twenty-third gas passage moving member and formed of a flexible material; A twenty-fifth gas passage moving member connected to the twenty-fourth gas passage moving member and having a diameter of the other end larger than that of one end; A second body connected to the other side of the 25th gas passage moving member and formed to have the same diameter as the diameter of the other end of the 25th gas passage moving member; A third activated carbon cartridge part formed in a part of the inner space of the second body part to desulfurize the sulfur component of the biogas; A fourth activated carbon cartridge part formed in the other part of the inner space of the second body part to desulfurize the sulfur component of the biogas; A 26th gas passage moving member connected to one side of the second body portion, having a diameter of the other end larger than that of one end, and having a diameter of the other end having the same diameter as the diameter of the second body portion; A 27th gas passage moving member connected to the 26th gas passage moving member and formed of a flexible material; A 28th gas passage moving member connected to the 27th gas passage moving member and formed of a straight pipe; A 29th gas passage moving member connected to the 28th gas passage moving member and formed of an elbow-shaped pipe; And a fourth gas passage intermediate dividing member connected to the 29th gas passage moving member, formed of a T-shaped pipe, and connected to the discharge portion, wherein the bypass passage portion includes the first desulfurization gas. The second gas passage is formed between the ninth gas passage moving member and the fourth gas passage intermediate dividing member so that the gas is moved to only one of the eastern part and the second desulfurization gas moving part, and formed by a T-shaped pipe. absence; A tenth gas passage moving member connected to one side of the second gas passage intermediate dividing member and formed of a straight pipe; And an eleventh gas passage moving member formed between the third gas passage intermediate dividing member and the tenth gas passage moving member and formed as a straight pipe, wherein the bypass passage portion contains the first desulfurization gas. A first valve portion formed between the first gas passage intermediate dividing member and the first gas passage moving member to perform a role of moving the gas to only one of the eastern portion and the second desulfurization gas moving portion; A second valve portion formed between the eighth gas passage moving member and the ninth gas passage moving member; A third valve portion formed between the second gas passage intermediate dividing member and the fourth gas passage intermediate dividing member; A fourth valve part formed between the tenth gas passage moving member and the eleventh gas passage moving member; A fifth valve part formed between the first gas passage intermediate dividing member and the third gas passage intermediate dividing member; A sixth valve part formed between the 21st gas passage moving member and the 22nd gas passage moving member; A seventh valve portion formed between the 29th gas passage moving member and the fourth gas passage intermediate dividing member, wherein the first activated carbon cartridge portion, the second activated carbon cartridge portion, the third activated carbon cartridge portion, and the fourth Activated carbon cartridge unit; can provide a high-efficiency desulfurization device for a biogas generator, characterized in that the polling (Pall　Ring) serving as activated carbon is accommodated therein.

In addition, the present invention may further include at least one first sampling measuring unit formed on one side of the first activated carbon cartridge unit and provided with a sensor capable of measuring a component of the biogas.

In addition, the present invention may further include at least one second sampling measuring unit formed on one side of the second activated carbon cartridge unit and provided with a sensor capable of measuring a component of the biogas.

In addition, the present invention may further include at least one third sampling measurement unit formed on one side of the third activated carbon cartridge unit and provided with a sensor capable of measuring a component of the biogas.

In addition, the present invention may further include at least one fourth sampling measuring unit formed on one side of the fourth activated carbon cartridge unit and provided with a sensor capable of measuring a component of the biogas.

In addition, the present invention is the first activated carbon cartridge portion, a first cartridge frame portion formed to be elongated in a cylindrical shape; At least one first circular member formed inside the first cartridge frame part; At least one mesh member formed to surround the outer diameter of the first cartridge frame portion; A first activated carbon cartridge internal gas passage member provided in a first circular member formed on one side of the first cartridge frame portion and changing a movement path of the biogas by the through hole portion; It is provided inside the first cartridge frame part, is formed next to the gas passage member inside the first activated carbon cartridge, and a path of the biogas through the through hole is different from that of the through hole part of the first activated carbon cartridge internal gas passage member. A second activated carbon cartridge internal gas passage member that changes; It is provided inside the first cartridge frame part, is formed next to the gas passage member inside the second activated carbon cartridge, and differently from the through hole part of the gas passage member inside the second activated carbon cartridge. A third activated carbon cartridge internal gas passage member that changes; And provided inside the first cartridge frame part, formed next to the gas passage member inside the third activated carbon cartridge, and the passage of the biogas through the through hole part is separated from the through hole part of the gas passage member inside the third activated carbon cartridge. It may include; a fourth activated carbon cartridge internal gas passage member that changes differently.

In addition, the present invention is the second activated carbon cartridge portion, the first cartridge frame portion formed to be elongated in a cylindrical shape; At least one first circular member formed inside the first cartridge frame part; At least one mesh member formed to surround the outer diameter of the first cartridge frame portion; A first activated carbon cartridge internal gas passage member provided in a first circular member formed on one side of the first cartridge frame portion and changing a movement path of the biogas by the through hole portion; It is provided inside the first cartridge frame part, is formed next to the gas passage member inside the first activated carbon cartridge, and a path of the biogas through the through hole is different from that of the through hole part of the first activated carbon cartridge internal gas passage member. A second activated carbon cartridge internal gas passage member that changes; It is provided inside the first cartridge frame part, is formed next to the gas passage member inside the second activated carbon cartridge, and differently from the through hole part of the gas passage member inside the second activated carbon cartridge. A third activated carbon cartridge internal gas passage member that changes; And provided inside the first cartridge frame part, formed next to the gas passage member inside the third activated carbon cartridge, and the passage of the biogas through the through hole part is separated from the through hole part of the gas passage member inside the third activated carbon cartridge. It may include; a fourth activated carbon cartridge internal gas passage member that changes differently.

In addition, the present invention is the third activated carbon cartridge portion, the first cartridge frame portion formed to be long in a cylindrical shape; At least one first circular member formed inside the first cartridge frame part; At least one mesh member formed to surround the outer diameter of the first cartridge frame portion; A first activated carbon cartridge internal gas passage member provided in a first circular member formed on one side of the first cartridge frame portion and changing a movement path of the biogas by the through hole portion; It is provided inside the first cartridge frame part, is formed next to the gas passage member inside the first activated carbon cartridge, and a path of the biogas through the through hole is different from that of the through hole part of the first activated carbon cartridge internal gas passage member. A second activated carbon cartridge internal gas passage member that changes; It is provided inside the first cartridge frame part, is formed next to the gas passage member inside the second activated carbon cartridge, and differently from the through hole part of the gas passage member inside the second activated carbon cartridge. A third activated carbon cartridge internal gas passage member that changes; And provided inside the first cartridge frame part, formed next to the gas passage member inside the third activated carbon cartridge, and the passage of the biogas through the through hole part is separated from the through hole part of the gas passage member inside the third activated carbon cartridge. It may include; a fourth activated carbon cartridge internal gas passage member that changes differently.

In addition, the present invention is the fourth activated carbon cartridge portion, the first cartridge frame portion formed to be elongated in a cylindrical shape; At least one first circular member formed inside the first cartridge frame part; At least one mesh member formed to surround the outer diameter of the first cartridge frame portion; A first activated carbon cartridge internal gas passage member provided in a first circular member formed on one side of the first cartridge frame portion and changing a movement path of the biogas by the through hole portion; It is provided inside the first cartridge frame part, is formed next to the gas passage member inside the first activated carbon cartridge, and a path of the biogas through the through hole is different from that of the through hole part of the first activated carbon cartridge internal gas passage member. A second activated carbon cartridge internal gas passage member that changes; It is provided inside the first cartridge frame part, is formed next to the gas passage member inside the second activated carbon cartridge, and differently from the through hole part of the gas passage member inside the second activated carbon cartridge. A third activated carbon cartridge internal gas passage member that changes; And provided inside the first cartridge frame part, formed next to the gas passage member inside the third activated carbon cartridge, and the passage of the biogas through the through hole part is separated from the through hole part of the gas passage member inside the third activated carbon cartridge. It may include; a fourth activated carbon cartridge internal gas passage member that changes differently.

As the high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention is formed in a structure of a bypass passage that controls the gas to be moved to only one of the first desulfurization gas transfer unit and the second desulfurization gas transfer unit, in general, Even if a breakdown or problem occurs while using the passage of either the first desulfurization gas moving part and the second desulfurization gas moving part, the desulfurization gas moving to any one of the first desulfurization gas moving part and the second desulfurizing gas moving part using the bypass passage part It can provide the advantage that the operation rate is 100% even during the period of maintenance.

In addition, the high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention can provide a device having a structure capable of improving the contact area so that the biogas can maximally contact the desulfurization agent in order to maximize the desulfurization effect. .

In addition, the high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention can improve the residence time of the biogas flowing inside the cartridge.

In addition, the high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention has an effect of preventing corrosion of the generator and connected mechanical equipment by removing the sulfur component of the biogas as much as possible.

In addition, the high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention has the effect of improving the durability of the generator and mechanical equipment by removing the sulfur component of the biogas as much as possible.

In addition, in the high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention, as the sulfur component in the biogas supplied to the generator or boiler disposed in the post process is removed, the generator or boiler is stabilized to discharge exhaust gas and dioxins. The generation of flow can be reduced.

1 is a view showing a high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention.
Figure 2 is a view showing in detail the first activated carbon cartridge of the high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention.
Figure 3 is a view showing in detail the second activated carbon cartridge of the high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention.
Figure 4 is a view showing in detail a third activated carbon cartridge of the high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention.
5 is a view showing in detail a fourth activated carbon cartridge of the high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention.
6 is a view for explaining a first activated carbon cartridge portion, a second activated carbon cartridge portion, a third activated carbon cartridge portion, and a fourth activated carbon cartridge portion of a high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention.

Hereinafter, the description of the present invention with reference to the drawings is not limited to a specific embodiment, and various transformations may be applied and various embodiments may be provided. In addition, the content described below should be understood to include all conversions, equivalents, and substitutes included in the spirit and scope of the present invention.

In the following description, terms such as first and second are terms used to describe various elements, and their meanings are not limited, and are used only for the purpose of distinguishing one element from other elements.

The same reference numbers used throughout this specification denote the same elements.

The singular expression used in the present invention includes a plurality of expressions unless the context clearly indicates otherwise. In addition, terms such as "comprise", "include" or "have" described below are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification. It is to be construed and not to preclude the possibility of the presence or addition of one or more other features, numbers, steps, actions, components, parts, or combinations thereof.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 6.

1 is a view showing a high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention.

In addition, Figure 2 is a view showing in detail the first activated carbon cartridge part of the high-efficiency desulfurization device for a biogas generator according to an embodiment of the present invention, Figure 3 is a third high-efficiency desulfurization device for a biogas generator according to an embodiment of the present invention. 2 is a view showing in detail the activated carbon cartridge, Figure 4 is a view showing in detail the third activated carbon cartridge of the high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention, Figure 5 It is a view showing in detail the fourth activated carbon cartridge of the high-efficiency desulfurization apparatus for a gas generator.

6 is a view for explaining a first activated carbon cartridge unit, a second activated carbon cartridge unit, a third activated carbon cartridge unit, and a fourth activated carbon cartridge unit of a high-efficiency desulfurization apparatus for a biogas generator according to an embodiment of the present invention.

1 to 6, the high-efficiency desulfurization apparatus 1 for a biogas generator according to an embodiment of the present invention includes an input unit 10, a first gas passage moving member 11, and a second gas passage moving member 12. ), a third gas passage moving member (13), a fourth gas passage moving member (14), a fifth gas passage moving member (15), a sixth gas passage moving member (16), a seventh gas passage moving member (17) ), the eighth gas passage moving member (18), the ninth gas passage moving member (19), the first gas passage intermediate dividing member (21), the second gas passage intermediate dividing member (22), the third gas passage intermediate dividing The member 23, the fourth gas passage intermediate splitting member 24, the tenth gas passage moving member 25, the eleventh gas passage moving member 26, the 21st gas passage moving member 31, the 22nd gas passage The moving member 32, the 23rd gas passage moving member (33), the 24th gas passage moving member (34), the 25th gas passage moving member (35), the 26th gas passage moving member (36), the 27th gas passage The moving member 37, the 28th gas passage moving member 38, the 29th gas passage moving member 39, the first valve part 51, the second valve part 52, the third valve part 53, The fourth valve part 54, the fifth valve part 55, the sixth valve part 56, the seventh valve part 57, the discharge part 60, the first body part 70, the second body part (80), a first activated carbon cartridge unit 110, a second activated carbon cartridge unit 120, a third activated carbon cartridge unit 130, a fourth activated carbon cartridge unit 140, a first cartridge frame unit 210, the first 1 circular member 220, mesh member 300, through hole 400, activated carbon cartridge internal gas passage part 500, first activated carbon cartridge internal gas passage member 510, second activated carbon cartridge internal gas passage member ( 520), a third activated carbon cartridge internal gas passage member 530, and a fourth activated carbon cartridge internal gas passage member 540 may be included.

The biogas G may be introduced into the input unit 10.

The discharge unit 60 may be connected to the generator so that the biogas introduced into the input unit 10 is discharged to the generator.

The first desulfurization gas moving unit is connected to the input unit 10 and the discharge unit 60, and may serve to reduce sulfur in the biogas G and move it to the discharge unit 60.

The second desulfurization gas transfer unit is connected to the input unit 10 and the discharge unit 60, and may serve to reduce sulfur in the biogas G and move it to the discharge unit 60.

The bypass passage unit may play a role of controlling the gas to be moved to only one of the first desulfurization gas moving unit and the second desulfurization gas moving unit.

Specifically, the first desulfurization gas moving part first gas passage intermediate splitting member 21, the first gas passage moving member 11, the second gas passage moving member 12, the third gas passage moving member 13, The fourth gas passage moving member 14, the fifth gas passage moving member 15, the sixth gas passage moving member 16, the seventh gas passage moving member 17, the eighth gas passage moving member 18, A ninth gas passage moving member 19, a first body part 70, a first activated carbon cartridge part 110, and a second activated carbon cartridge part 120 may be included.

The first gas passage intermediate splitting member 21 may be connected to one side of the discharge unit 60. In addition, the first gas passage intermediate splitting member 21 may be formed as a T-shaped pipe.

The first gas passage moving member 11 may be connected to one side of the first gas passage intermediate splitting member 21. In addition, the first gas passage moving member 11 may be formed of an elbow-shaped pipe.

The second gas passage moving member 12 may be connected to the first gas passage moving member 11. In addition, the second gas passage moving member 12 may be formed as a straight pipe.

The third gas passage moving member 13 may be connected to the second gas passage moving member 12. In addition, the third gas passage moving member 13 may be formed of a flexible material. In addition, the third gas passage moving member 13 may be formed in a flexible joint joint method.

The fourth gas passage moving member 14 may be connected to the third gas passage moving member 13. In addition, the fourth gas passage moving member 14 may have a diameter of the other end larger than the diameter of one end. In addition, the diameter of the other end of the fourth gas passage moving member 14 may be formed to have the same diameter as the diameter of the first body portion 70.

The first body portion 70 may be connected to the other side of the fourth gas passage moving member 14. Further, the first body portion 70 may be formed to have the same diameter as the diameter of the other end of the fourth gas passage moving member 14. In addition, the first body portion 70 may be formed to be elongated in the horizontal direction.

The first activated carbon cartridge unit 110 may be formed in a portion of the inner space of the first body unit 70 and may serve to desulfurize the sulfur component of the biogas. In addition, the first activated carbon cartridge unit 110 may perform a role of adsorbing and removing harmful substances in biogas. In addition, the first activated carbon cartridge unit 110 may contain a polling (not shown) serving as activated carbon therein.

The second activated carbon cartridge unit 120 may be formed in the other part of the inner space of the first body unit 70 and may serve to desulfurize the sulfur component of the biogas. In addition, the second activated carbon cartridge unit 120 may perform a role of adsorbing and removing harmful substances in the biogas. In addition, the second activated carbon cartridge unit 120 may contain a polling (not shown) serving as activated carbon therein.

In addition, the second activated carbon cartridge unit 120 is preferably disposed in a step after the biogas passes through the first activated carbon cartridge unit 110.

The fifth gas passage moving member 15 may be connected to one side of the first body part 70. In addition, the fifth gas passage moving member 15 may have a diameter of the other end larger than the diameter of one end, and the diameter of the other end may be formed to have the same diameter as the diameter of the first body portion 70.

The sixth gas passage moving member 16 may be connected to the fifth gas passage moving member 15. In addition, the sixth gas passage moving member 16 may be formed of a flexible material. In addition, the sixth gas passage moving member 16 may be formed in a flexible joint joint method.

The seventh gas passage moving member 17 may be connected to the sixth gas passage moving member 16. In addition, the seventh gas passage moving member 17 may be formed as a straight pipe.

The eighth gas passage moving member 18 may be connected to the seventh gas passage moving member 17. The eighth gas passage moving member 18 may be formed of an elbow-shaped pipe.

The ninth gas passage moving member 19 may be connected to the eighth gas passage moving member 18. In addition, the ninth gas passage moving member 19 is formed as a straight pipe and may be connected to the discharge unit 60.

In addition, specifically, the second desulfurization gas moving part is the third gas passage intermediate splitting member 23, the 21st gas passage moving member 31, the 22nd gas passage moving member 32, the 23rd gas passage moving member 33 , The 24th gas passage moving member 34, the 25th gas passage moving member 35, the 26th gas passage moving member 36, the 27th gas passage moving member 37, the 28th gas passage moving member 38 , A 29th gas passage moving member 39, a second body portion 80, a third activated carbon cartridge portion 130, a fourth activated carbon cartridge portion 140, and a fourth gas passage intermediate splitting member 24. I can.

The third gas path intermediate splitting member 23 may be connected to the first gas path intermediate splitting member 21. The third gas passage intermediate splitting member 23 may be formed as a T-shaped pipe.

In addition, the third gas passage intermediate splitting member 23 may be formed in a structure that is separately connected to the input unit 10. In this case, a separate valve may be formed between the third gas passage intermediate splitting member 23 and the injection unit 10.

The 21st gas passage moving member 31 may be connected to one side of the third gas passage intermediate split member 23. The 21st gas passage moving member 31 may be formed as a straight pipe.

The 22nd gas passage moving member 32 may be connected to the 21st gas passage moving member 31. In addition, the 22nd gas passage moving member 32 may be formed of an elbow-shaped pipe.

The 23rd gas cylinder moving member 33 may be connected to the 22nd gas cylinder 32 with the moving member. In addition, the 23rd gas passage moving member 33 may be formed as a straight pipe.

The 24th gas passage moving member 34 may be connected to the 23rd gas passage moving member 33. In addition, the 24th gas passage moving member 34 may be formed of a flexible material. In addition, the 24th gas passage moving member 34 may be formed in a flexible joint joint method.

The 25th gas passage moving member 35 may be connected to the 24th gas passage moving member 34. In addition, the 25th gas passage moving member 35 may have a diameter of the other end larger than the diameter of one end. In addition, the diameter of the other end of the 25th gas passage moving member 35 may be formed to have the same diameter as the diameter of the second body portion 80.

The second body portion 80 may be connected to the other side of the 25th gas passage moving member 35. In addition, the second body portion 80 may be formed to have the same diameter as the diameter of the other end of the 25th gas passage moving member 35. In addition, the second body portion 80 may be formed to be elongated in the horizontal direction.

The third activated carbon cartridge unit 130 may be formed in a portion of the inner space of the second body unit 80 and may serve to desulfurize the sulfur component of the biogas. In addition, the third activated carbon cartridge unit 130 may perform a role of adsorbing and removing harmful substances in biogas. In addition, the third activated carbon cartridge unit 130 may contain a polling (not shown) serving as activated carbon therein.

The fourth activated carbon cartridge unit 140 may be formed in the other part of the inner space of the second body unit 80 and may serve to desulfurize the sulfur component of the biogas. In addition, the fourth activated carbon cartridge unit 140 may perform a role of adsorbing and removing harmful substances in biogas. In addition, the fourth activated carbon cartridge unit 140 may contain a polling (not shown) serving as activated carbon therein. In addition, the fourth activated carbon cartridge unit 140 is preferably disposed in a step after the biogas has passed through the third activated carbon cartridge unit 130.

The 26th gas passage moving member 36 may be connected to one side of the second body part 80. In addition, the 26th gas passage moving member 36 may have a diameter of the other end larger than the diameter of one end, and the diameter of the other end may be formed to have the same diameter as the diameter of the second body portion 80.

The 27th gas passage moving member 37 may be connected to the 26th gas passage moving member 36. In addition, the 27th gas passage moving member 37 may be formed of a flexible material. In addition, the 27th gas passage moving member 37 may be formed in a flexible joint joint method.

The 28th gas passage moving member 38 may be connected to the 27th gas passage moving member 37. In addition, the 28th gas passage moving member 38 may be formed as a straight pipe.

The 29th gas passage moving member 39 may be connected to the 28th gas passage moving member. In addition, the 29th gas passage moving member 39 may be formed of an elbow-shaped pipe.

The fourth gas passage intermediate splitting member 24 may be connected to the 29th gas passage moving member 39. In addition, the fourth gas passage intermediate splitting member 24 is formed as a T-shaped pipe and may be connected to the discharge unit 60.

The bypass passage portion is the second gas passage intermediate split member 22, the tenth gas passage moving member 25, the eleventh gas passage moving member 26, the first valve portion 51, the second valve portion 52 , A third valve part 53, a fourth valve part 54, a fifth valve part 55, a sixth valve part 56, and a seventh valve part 57.

Specifically, the second gas passage intermediate dividing member 22 is the ninth gas passage moving member 19 and the fourth gas passage intermediate dividing member so that only one of the first desulfurization gas moving part and the second desulfurizing gas moving part moves the gas. (24) can be formed between. In addition, the second gas passage intermediate splitting member 22 may be formed as a T-shaped pipe. In addition, the second gas passage intermediate dividing member 22 is a ninth gas passage moving member 19 and a fourth gas passage intermediate dividing member ( 24) can be connected.

The tenth gas passage moving member 25 may be connected to one side of the second gas passage intermediate splitting member 22. In addition, the tenth gas passage moving member 25 may be formed as a straight pipe.

The eleventh gas passage moving member 26 may be formed between the third gas passage intermediate splitting member 23 and the tenth gas passage moving member 25. In addition, the eleventh gas passage moving member 26 may be formed as a straight pipe.

For reference, the bypass passage unit may include a plurality of valve units to perform a role of moving the gas to only one of the first desulfurization gas moving unit and the second desulfurization gas moving unit. Specifically, the bypass passage portion is the first valve portion 51, the second valve portion 52, the third valve portion 53, the fourth valve portion 54, the fifth valve portion 55, the sixth valve A portion 56 and a seventh valve portion 57 may be included.

The first valve part 51 may be formed between the first gas path intermediate splitting member 21 and the first gas path moving member 11. In addition, the first valve unit 51 may be configured using any one of a butterfly valve, a ball valve, an electric valve, a solenoid valve, and a check valve.

The second valve part 52 may be formed between the eighth gas passage moving member 18 and the ninth gas passage moving member 19. In addition, the second valve unit 52 may be configured by using any one of a butterfly valve, a ball valve, an electric valve, a solenoid valve, and a check valve.

The third valve part 53 may be formed between the second gas path intermediate splitting member 22 and the fourth gas path intermediate splitting member 24. In addition, the third valve unit 53 may be configured using any one of a butterfly valve, a ball valve, an electric valve, a solenoid valve, and a check valve.

The fourth valve part 54 may be formed between the tenth gas passage moving member 25 and the eleventh gas passage moving member 26. In addition, the fourth valve unit 54 may be configured using any one of a butterfly valve, a ball valve, an electric valve, a solenoid valve, and a check valve.

The fifth valve part 55 may be formed between the first gas path intermediate split member 21 and the third gas path intermediate split member 23. In addition, the fifth valve unit 55 may be configured using any one of a butterfly valve, a ball valve, an electric valve, a solenoid valve, and a check valve.

The sixth valve unit 56 may be formed between the 21st gas passage moving member 31 and the 22nd gas passage moving member 32. In addition, the sixth valve unit 56 may be configured using any one of a butterfly valve, a ball valve, an electric valve, a solenoid valve, and a check valve.

The seventh valve part 57 may be formed between the 29th gas passage moving member 39 and the fourth gas passage intermediate splitting member 24. In addition, the seventh valve unit 57 may be configured using any one of a butterfly valve, a ball valve, an electric valve, a solenoid valve, and a check valve.

In addition, the high-efficiency desulfurization apparatus 1 for a biogas generator according to an embodiment of the present invention is formed on one side of the first activated carbon cartridge unit 110 and is provided with a sensor capable of measuring a component of the biogas. 1 A sampling measuring unit (not shown) may be further included.

In addition, the high-efficiency desulfurization apparatus 1 for a biogas generator according to an embodiment of the present invention is formed on one side of the second activated carbon cartridge unit 120 to measure the components of the biogas. 2 It may further include a sampling measuring unit (not shown).

In addition, the high-efficiency desulfurization device 1 for a biogas generator according to an embodiment of the present invention is formed on one side of the third activated carbon cartridge unit 130 and is provided with a sensor capable of measuring a component of the biogas. A third sampling measuring unit (not shown) may be further included.

In addition, the high-efficiency desulfurization apparatus 1 for a biogas generator according to an embodiment of the present invention is formed on one side of the fourth activated carbon cartridge unit 140 and is provided with a sensor capable of measuring a component of the biogas. It may further include a fourth sampling measuring unit (not shown).

2 and 6, the first activated carbon cartridge unit 110 will be described in detail.

The high-efficiency desulfurization apparatus 1 for a biogas generator according to an embodiment of the present invention may include a first activated carbon cartridge unit 110.

The first activated carbon cartridge part 110 includes a first cartridge frame part 210, a first circular member 220, a mesh member 300, a through hole part 400, a gas passage part 500 inside the activated carbon cartridge, and a first The activated carbon cartridge may include an inner gas passage member 510, a second activated carbon cartridge inner gas passage member 520, a third activated carbon cartridge inner gas passage member 530, and a fourth activated carbon cartridge inner gas passage member 540. .

Here, the activated carbon cartridge inner gas passage part 500 includes a first activated carbon cartridge inner gas passage member 510, a second activated carbon cartridge inner gas passage member 520, a third activated carbon cartridge inner gas passage member 530, and 4 It may be formed in a structure including a gas passage member 540 inside the activated carbon cartridge.

In addition, the activated carbon cartridge internal gas passage part 500 may be composed of a plurality of activated carbon cartridge internal gas passage members.

The first cartridge frame part 210 may be formed to be long in a cylindrical shape.

The first circular member 220 may be formed inside the first cartridge frame part 210. In addition, the first circular member 220 may be at least one or more. In addition, in the present invention, it may be formed in a structure using four first circular members 220.

The mesh member 300 may be formed to surround the outer diameter of the first cartridge frame part 210. In addition, the mesh member 300 may be at least one or more. For example, the mesh member 300 may have a structure having a plurality of plies and may be formed to wrap the first cartridge frame unit 210 in layers. In addition, the mesh member 300 may be formed in a structure in which two or three or more layers are stacked.

The gas passage member 510 inside the first activated carbon cartridge may be provided in the first circular member 220 formed on one side of the first cartridge frame part 210. In addition, the gas passage member 510 inside the first activated carbon cartridge may change the movement path of the biogas through the through hole 400.

The gas passage member 520 inside the second activated carbon cartridge may be provided inside the first cartridge frame part 210. In addition, the second activated carbon cartridge internal gas passage member 520 may be formed after the first activated carbon cartridge internal gas passage member 510. In addition, the gas passage member 520 inside the second activated carbon cartridge may change the path of the biogas through the through hole 400 differently from the passage portion 400 of the gas passage member inside the first activated carbon cartridge.

The gas passage member 530 inside the third activated carbon cartridge may be provided inside the first cartridge frame part 210. In addition, the third activated carbon cartridge internal gas passage member 530 may be formed after the second activated carbon cartridge internal gas passage member 520. In addition, the third activated carbon cartridge internal gas passage member 530 may change the movement path of the biogas by the through hole 400 differently from the through-hole 400 of the second activated carbon cartridge internal gas passage member 520 .

The fourth activated carbon cartridge internal gas passage member 540 may be provided inside the first cartridge frame part 210. In addition, the fourth activated carbon cartridge internal gas passage member 540 may be formed after the third activated carbon cartridge internal gas passage member 530. In addition, the fourth activated carbon cartridge internal gas passage member 540 may change the movement path of the biogas by the through hole 400 differently from the through-hole 400 of the third activated carbon cartridge internal gas passage member 530. .

3 and 6, the second activated carbon cartridge unit 120 will be described in detail.

The high-efficiency desulfurization apparatus 1 for a biogas generator according to an embodiment of the present invention may include a second activated carbon cartridge unit 120.

The second activated carbon cartridge part 120 includes a first cartridge frame part 210, a first circular member 220, a mesh member 300, a through hole part 400, a gas passage part 500 inside the activated carbon cartridge, and a first The activated carbon cartridge may include an inner gas passage member 510, a second activated carbon cartridge inner gas passage member 520, a third activated carbon cartridge inner gas passage member 530, and a fourth activated carbon cartridge inner gas passage member 540. .

Here, the activated carbon cartridge inner gas passage part 500 includes a first activated carbon cartridge inner gas passage member 510, a second activated carbon cartridge inner gas passage member 520, a third activated carbon cartridge inner gas passage member 530, and 4 It may be formed in a structure including a gas passage member 540 inside the activated carbon cartridge.

In addition, the activated carbon cartridge internal gas passage part 500 may be composed of a plurality of activated carbon cartridge internal gas passage members.

The first cartridge frame part 210 may be formed to be long in a cylindrical shape.

The first circular member 220 may be formed inside the first cartridge frame part 210. In addition, the first circular member 220 may be at least one or more. In addition, in the present invention, it may be formed in a structure using four first circular members 220.

The mesh member 300 may be formed to surround the outer diameter of the first cartridge frame part 210. In addition, the mesh member 300 may be at least one or more. For example, the mesh member 300 may have a structure having a plurality of plies and may be formed to wrap the first cartridge frame unit 210 in layers.

The gas passage member 510 inside the first activated carbon cartridge may be provided in the first circular member 220 formed on one side of the first cartridge frame part 210. In addition, the gas passage member 510 inside the first activated carbon cartridge may change the movement path of the biogas through the through hole 400.

The gas passage member 520 inside the second activated carbon cartridge may be provided inside the first cartridge frame part 210. In addition, the second activated carbon cartridge internal gas passage member 520 may be formed after the first activated carbon cartridge internal gas passage member 510. In addition, the gas passage member 520 inside the second activated carbon cartridge may change the path of the biogas through the through hole 400 differently from the passage portion 400 of the gas passage member inside the first activated carbon cartridge.

The gas passage member 530 inside the third activated carbon cartridge may be provided inside the first cartridge frame part 210. In addition, the third activated carbon cartridge internal gas passage member 530 may be formed after the second activated carbon cartridge internal gas passage member 520. In addition, the third activated carbon cartridge internal gas passage member 530 may change the movement path of the biogas by the through hole 400 differently from the through-hole 400 of the second activated carbon cartridge internal gas passage member 520 .

The fourth activated carbon cartridge internal gas passage member 540 may be provided inside the first cartridge frame part 210. In addition, the fourth activated carbon cartridge internal gas passage member 540 may be formed after the third activated carbon cartridge internal gas passage member 530. In addition, the fourth activated carbon cartridge internal gas passage member 540 may change the movement path of the biogas by the through hole 400 differently from the through-hole 400 of the third activated carbon cartridge internal gas passage member 530. .

4 and 6, the third activated carbon cartridge unit 130 will be described in detail.

The high-efficiency desulfurization apparatus 1 for a biogas generator according to an embodiment of the present invention may include a third activated carbon cartridge unit 130.

The third activated carbon cartridge part 130 includes a first cartridge frame part 210, a first circular member 220, a mesh member 300, a through hole part 400, an internal gas passage part 500 of the activated carbon cartridge, and a first The activated carbon cartridge may include an inner gas passage member 510, a second activated carbon cartridge inner gas passage member 520, a third activated carbon cartridge inner gas passage member 530, and a fourth activated carbon cartridge inner gas passage member 540. .

Here, the activated carbon cartridge inner gas passage part 500 includes a first activated carbon cartridge inner gas passage member 510, a second activated carbon cartridge inner gas passage member 520, a third activated carbon cartridge inner gas passage member 530, and 4 It may be formed in a structure including a gas passage member 540 inside the activated carbon cartridge.

In addition, the activated carbon cartridge internal gas passage part 500 may be composed of a plurality of activated carbon cartridge internal gas passage members.

The first cartridge frame part 210 may be formed to be long in a cylindrical shape.

The first circular member 220 may be formed inside the first cartridge frame part 210. In addition, the first circular member 220 may be at least one or more. In addition, in the present invention, it may be formed in a structure using four first circular members 220.

The mesh member 300 may be formed to surround the outer diameter of the first cartridge frame part 210. In addition, the mesh member 300 may be at least one or more. For example, the mesh member 300 may have a structure having a plurality of plies and may be formed to overlap the first cartridge frame unit 210.

The gas passage member 510 inside the first activated carbon cartridge may be provided in the first circular member 220 formed on one side of the first cartridge frame part 210. In addition, the gas passage member 510 inside the first activated carbon cartridge may change the movement path of the biogas through the through hole 400.

The gas passage member 520 inside the second activated carbon cartridge may be provided inside the first cartridge frame part 210. In addition, the second activated carbon cartridge internal gas passage member 520 may be formed after the first activated carbon cartridge internal gas passage member 510. In addition, the gas passage member 520 inside the second activated carbon cartridge may change the path of the biogas through the through hole 400 differently from the passage portion 400 of the gas passage member inside the first activated carbon cartridge.

The gas passage member 530 inside the third activated carbon cartridge may be provided inside the first cartridge frame part 210. In addition, the third activated carbon cartridge internal gas passage member 530 may be formed after the second activated carbon cartridge internal gas passage member 520. In addition, the third activated carbon cartridge internal gas passage member 530 may change the movement path of the biogas by the through hole 400 differently from the through-hole 400 of the second activated carbon cartridge internal gas passage member 520 .

The fourth activated carbon cartridge internal gas passage member 540 may be provided inside the first cartridge frame part 210. In addition, the fourth activated carbon cartridge internal gas passage member 540 may be formed after the third activated carbon cartridge internal gas passage member 530. In addition, the fourth activated carbon cartridge internal gas passage member 540 may change the movement path of the biogas by the through hole 400 differently from the through-hole 400 of the third activated carbon cartridge internal gas passage member 530. .

5 and 6, the fourth activated carbon cartridge unit 140 will be described in detail.

The high-efficiency desulfurization apparatus 1 for a biogas generator according to an embodiment of the present invention may include a fourth activated carbon cartridge unit 140.

The fourth activated carbon cartridge part 140 includes a first cartridge frame part 210, a first circular member 220, a mesh member 300, a through hole part 400, a gas passage part 500 inside the activated carbon cartridge, and a first The activated carbon cartridge may include an inner gas passage member 510, a second activated carbon cartridge inner gas passage member 520, a third activated carbon cartridge inner gas passage member 530, and a fourth activated carbon cartridge inner gas passage member 540. .

Here, the activated carbon cartridge inner gas passage part 500 includes a first activated carbon cartridge inner gas passage member 510, a second activated carbon cartridge inner gas passage member 520, a third activated carbon cartridge inner gas passage member 530, and 4 It may be formed in a structure including a gas passage member 540 inside the activated carbon cartridge.

In addition, the activated carbon cartridge internal gas passage part 500 may be composed of a plurality of activated carbon cartridge internal gas passage members.

The first cartridge frame part 210 may be formed to be long in a cylindrical shape.

The first circular member 220 may be formed inside the first cartridge frame part 210. In addition, the first circular member 220 may be at least one or more. In addition, in the present invention, it may be formed in a structure using four first circular members 220.

The mesh member 300 may be formed to surround the outer diameter of the first cartridge frame part 210. In addition, the mesh member 300 may be at least one or more. For example, the mesh member 300 may have a structure having a plurality of plies and may be formed to overlap the first cartridge frame unit 210.

The gas passage member 510 inside the first activated carbon cartridge may be provided in the first circular member 220 formed on one side of the first cartridge frame part 210. In addition, the gas passage member 510 inside the first activated carbon cartridge may change the movement path of the biogas through the through hole 400.

The gas passage member 520 inside the second activated carbon cartridge may be provided inside the first cartridge frame part 210. In addition, the second activated carbon cartridge internal gas passage member 520 may be formed after the first activated carbon cartridge internal gas passage member 510. In addition, the gas passage member 520 inside the second activated carbon cartridge may change the path of the biogas through the through hole 400 differently from the passage portion 400 of the gas passage member inside the first activated carbon cartridge.

The gas passage member 530 inside the third activated carbon cartridge may be provided inside the first cartridge frame part 210. In addition, the third activated carbon cartridge internal gas passage member 530 may be formed after the second activated carbon cartridge internal gas passage member 520. In addition, the third activated carbon cartridge internal gas passage member 530 may change the movement path of the biogas by the through hole 400 differently from the through-hole 400 of the second activated carbon cartridge internal gas passage member 520 .

The fourth activated carbon cartridge internal gas passage member 540 may be provided inside the first cartridge frame part 210. In addition, the fourth activated carbon cartridge internal gas passage member 540 may be formed after the third activated carbon cartridge internal gas passage member 530. In addition, the fourth activated carbon cartridge internal gas passage member 540 may change the movement path of the biogas by the through hole 400 differently from the through-hole 400 of the third activated carbon cartridge internal gas passage member 530. .

For reference, in order to configure the high-efficiency desulfurization apparatus 1 for a biogas generator according to an embodiment of the present invention, each member or parts may be welded together. In this case, a welding method such as gas welding, tabbit welding, arc welding, oxygen welding, and electric welding may be used as the welding used in this case.

In addition, each member or parts of the present invention may be coupled to each other using a fastening method using a flange, a nut and a bolt.

In particular, since the high-efficiency desulfurization device 1 for a biogas generator, which is a device used in the field of a biogas plant such as the present invention, is exposed to an environment where corrosion is well, a material of STS 304 or STS 316 grade or higher to prevent corrosion It is better to use.

The high-efficiency desulfurization apparatus 1 for a biogas generator may further include a control unit (not shown).

In addition, the control unit and at least one sensor unit of the device may be wirelessly connected. For reference, the sensor unit may include a first sampling measurement unit, a second sampling measurement unit, a third sampling measurement unit, and a fourth sampling measurement unit.

In addition, information on the components of the biogas measured by the sensor unit (not shown) may be transmitted to the control unit using wired communication or wireless communication. In addition, the sensor unit may include a wireless communication module. A plurality of sensor units may be formed.

In addition, the user can check the measured value in real time by using the smart device for information on the components of the biogas transmitted to the control unit.

Accordingly, the operator can grasp the components of the biogas flowing into the generator from the discharging unit 60 in real time, thereby providing an advantage of being able to quickly cope with an abnormality.

In addition, the high-efficiency desulfurization apparatus 1 for a biogas generator according to an embodiment of the present invention also includes on/off of the biogas G input to the input unit 10 by a blower (not shown), flow rate, and It may further include a control unit (not shown) for controlling the inflow rate.

In addition, the controller may control the air injection amount of the blower by receiving the fluid movement speed of the biogas measured by the sensor unit so that a certain amount of the biogas G is discharged to the discharge unit 60.

In addition, it may further include a discharge unit opening and closing door member (not shown) for opening and closing the discharge unit 60 so as to supply or block the biogas supplied to the combustion chamber of the boiler or generator through the discharge unit 60.

The discharge unit opening and closing door member may be configured in a sliding door type with a power transmission unit connected to one side. In addition, the discharge unit opening and closing door member may be connected to the control unit.

The present invention described above is not limited by the above-described embodiments, and various substitutions, modifications and changes are possible within the scope of the technical spirit of the present invention. It will be obvious to you.

In addition, since the components shown in the drawings may be enlarged or reduced for convenience of description, the present invention is not limited to the size or shape of the components shown in the drawings, and ordinary knowledge in the art It will be understood by those who have it that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

1: High-efficiency desulfurization device for biogas generator
10: input section
11: first gas cylinder moving member
12: second gas cylinder moving member
13: 3rd gas cylinder moving member
14: 4th gas cylinder moving member
15: 5th gas cylinder moving member
16: 6th gas cylinder moving member
17: 7th gas cylinder moving member
18: moving member for the eighth gas cylinder
19: 9th gas cylinder moving member
21: first gas passage intermediate splitting member
22: second gas passage intermediate splitting member
23: 3rd gas passage intermediate splitting member
24: the fourth gas passage intermediate splitting member
25: 10th gas cylinder moving member
26: 11th gas cylinder moving member
31: 21st gas cylinder moving member
32: 22nd gas cylinder moving member
33: 23rd gas cylinder moving member
34: 24th gas cylinder moving member
35: moving member for the 25th gas cylinder
36: 26th gas cylinder moving member
37: 27th gas cylinder moving member
38: moving member of the 28th gas cylinder
39: moving member through the 29th gas cylinder
51: first valve part
52: second valve part
53: third valve part
54: fourth valve part
55: fifth valve part
56: 6th valve part
57: 7th valve part
60: discharge part
70: first body part
80: second body part
110: first activated carbon cartridge unit
120: second activated carbon cartridge unit
130: third activated carbon cartridge unit
140: fourth activated carbon cartridge unit
210: first cartridge frame portion
220: first circular member
300: mesh member
400: through-hole
500: gas passage part inside the activated carbon cartridge
510: gas passage member inside the first activated carbon cartridge
520: gas passage member inside the second activated carbon cartridge
530: third activated carbon cartridge internal gas passage member
540: fourth activated carbon cartridge internal gas passage member
G: Biogas

Claims (1)

This is a cartridge exchange-type dry desulfurization device for adsorbing and removing harmful substances in biogas using activated carbon.
An input unit into which biogas is introduced;
A discharge unit connected to the generator so that the biogas introduced into the input unit is discharged to the generator;
A first desulfurization gas transfer unit connected to the input unit and the discharge unit to reduce sulfur in the biogas and move it to the discharge unit;
A second desulfurization gas transfer unit connected to the input unit and the discharge unit to reduce sulfur in the biogas and move it to the discharge unit; And
Including; a bypass passage for controlling the gas to be moved to only one of the first desulfurization gas transfer unit and the second desulfurization gas transfer unit,
The first desulfurization gas moving part,
A first gas passage intermediate dividing member connected to one side of the discharge unit and formed of a T-shaped pipe;
A first gas passage moving member connected to one side of the first gas passage intermediate dividing member and formed of an elbow-shaped pipe;
A second gas passage moving member connected to the first gas passage moving member and formed of a straight pipe;
A third gas passage moving member connected to the second gas passage moving member and formed of a flexible material;
A fourth gas passage moving member connected to the third gas passage moving member and having a diameter of the other end larger than the diameter of one end;
A first body portion connected to the other side of the fourth gas passage moving member and formed to have the same diameter as the diameter of the other end of the fourth gas passage moving member;
A first activated carbon cartridge part formed in a part of the inner space of the first body part to desulfurize a sulfur component of the biogas;
A second activated carbon cartridge part formed in the other part of the inner space of the first body part to desulfurize the sulfur component of the biogas;
A fifth gas passage moving member connected to one side of the first body portion, the diameter of the other end being larger than the diameter of one end, and the diameter of the other end being formed to have the same diameter as the diameter of the first body portion;
A sixth gas passage moving member connected to the fifth gas passage moving member and formed of a flexible material;
A seventh gas passage moving member connected to the sixth gas passage moving member and formed of a straight pipe;
An eighth gas passage moving member connected to the seventh gas passage moving member and formed of an elbow-shaped pipe;
And a ninth gas passage moving member connected to the eighth gas passage moving member, formed of a straight pipe, and connected to the discharge portion,
The second desulfurization gas moving part,
A third gas passage intermediate dividing member connected to the first gas passage intermediate dividing member and formed of a T-shaped pipe;
A 21st gas passage moving member connected to one side of the third gas passage intermediate dividing member and formed of a straight pipe;
A second gas passage moving member connected to the 21st gas passage moving member and formed of an elbow-shaped pipe;
A 23rd gas passage moving member connected to the 22nd gas passage moving member and formed of a straight pipe;
A twenty-fourth gas passage moving member connected to the twenty-third gas passage moving member and formed of a flexible material;
A twenty-fifth gas passage moving member connected to the twenty-fourth gas passage moving member and having a diameter of the other end larger than the diameter of one end;
A second body connected to the other side of the 25th gas passage moving member and formed to have the same diameter as the diameter of the other end of the 25th gas passage moving member;
A third activated carbon cartridge part formed in a part of the inner space of the second body part to desulfurize the sulfur component of the biogas;
A fourth activated carbon cartridge part formed in the other part of the inner space of the second body part to desulfurize the sulfur component of the biogas;
A 26th gas passage moving member connected to one side of the second body portion, the diameter of the other end being larger than the diameter of one end, and the diameter of the other end being formed to have the same diameter as the diameter of the second body portion;
A 27th gas passage moving member connected to the 26th gas passage moving member and formed of a flexible material;
A 28th gas passage moving member connected to the 27th gas passage moving member and formed of a straight pipe;
A 29th gas passage moving member connected to the 28th gas passage moving member and formed of an elbow-shaped pipe; And
And a fourth gas passage intermediate dividing member connected to the 29th gas passage moving member, formed of a T-shaped pipe, and connected to the discharge portion,
The bypass passage part,
The first desulfurization gas moving part and the second desulfurization gas moving part are formed between the ninth gas passage moving member and the fourth gas passage intermediate dividing member so that the gas moves to only one of the second desulfurization gas moving parts, and formed of a T-shaped pipe. 2 gas passage intermediate splitting member;
A tenth gas passage moving member connected to one side of the second gas passage intermediate dividing member and formed of a straight pipe; And
Including; an eleventh gas passage moving member formed between the third gas passage intermediate dividing member and the tenth gas passage moving member and formed as a straight pipe,
So that the bypass passage part moves the gas to only one of the first desulfurization gas moving part and the second desulfurization gas moving part
A first valve portion formed between the first gas passage intermediate dividing member and the first gas passage moving member;
A second valve portion formed between the eighth gas passage moving member and the ninth gas passage moving member;
A third valve portion formed between the second gas passage intermediate dividing member and the fourth gas passage intermediate dividing member;
A fourth valve part formed between the tenth gas passage moving member and the eleventh gas passage moving member;
A fifth valve part formed between the first gas passage intermediate dividing member and the third gas passage intermediate dividing member;
A sixth valve part formed between the 21st gas passage moving member and the 22nd gas passage moving member;
And a seventh valve portion formed between the 29th gas passage moving member and the fourth gas passage intermediate dividing member,
The first activated carbon cartridge unit, the second activated carbon cartridge unit, the third activated carbon cartridge unit, and the fourth activated carbon cartridge unit; a high-efficiency desulfurization for a biogas generator, characterized in that a Pall ring serving as activated carbon is accommodated therein. Device.

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