JP3799213B2 - Mobile circulation type biological deodorization equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a deodorizing apparatus using microorganisms, and more specifically, a region in which a plurality of plate-shaped carriers having microorganisms supported on a porous sheet are stacked, and a gas to be treated is disposed substantially parallel to the stacking direction of the plate-shaped carriers. The present invention relates to a movable circulation type biological deodorization apparatus that removes malodorous components in a gas to be treated and performs deodorization by passing the gas.
[0002]
[Prior art and problems to be solved by the invention]
In recent years, as a deodorization technique for sewage treatment facilities, livestock industry, food processing industry, and the like, a biological deodorization method that performs deodorization using microorganisms is spreading.
[0003]
In the past, naturally-occurring materials such as soil, peat, compost, etc. have been mainly used as microbial carriers for supporting microorganisms. Recently, however, many inorganic materials typified by ceramics and various resins have been proposed. Has been done.
[0004]
Many of these are usually packed in a packed column as a granular packing and used to sprinkle water from the upper part of the packed tower to keep the microorganisms active and vent the gas to be treated from the lower part of the packed tower. Therefore, deodorizing treatment is performed.
[0005]
Further, as a recent technique, a method using a sheet-like carrier or a method using a rotating body of the sheet-like carrier (for example, circulating (rotating) the sheet-like carrier by running an endless belt attached with the sheet-like carrier. The main purpose of these methods is to supply moisture uniformly to the sheet-like carrier and to reliably maintain the activity of the microorganisms.
[0006]
By the way, in the biological deodorization method, in order to improve the processing efficiency, it is indispensable to realize the homogenization of the activity of microorganisms in the region (processing region) where the gas to be processed such as a packed tower should be processed. Therefore, it is necessary to make the load of the malodorous component in the gas to be treated with respect to the microorganisms uniform over the entire processing region.
[0007]
As a method for that purpose, for example, a method of periodically switching the introduction port and the discharge port of the gas to be processed (that is, the introduction port as the discharge port and the discharge port as the introduction port at regular intervals) is considered. However, even in that case, it is difficult to avoid the difference in the activity of the microorganisms from the introduction port through the middle part to the discharge.
[0008]
The present invention solves the above-described problems, and suppresses the uneven load of the gas to be processed (bad odor component) on the microorganisms in the processing region where the gas to be processed is to be processed, thereby changing the load of the gas to be processed. Correspondingly, an object of the present invention is to provide a movable circulation type biological deodorization apparatus capable of efficiently removing malodorous components in the gas to be treated.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the movable circulation type biological deodorization apparatus of the present invention (Claim 1)
A first plate stacking region in which a plurality of plate-like carriers having microorganisms carried on a porous sheet are stacked so as not to contact each other;
Similar to the first plate lamination region, a plurality of plate-like carriers in which microorganisms are supported on a porous sheet are stacked so as not to contact each other,
The gas to be processed passes through the first plate stacking region in a direction substantially parallel to the stacking direction of the plate-shaped carriers, and then passes through the second plate stacking region in a direction approximately parallel to the stacking direction of the plate-shaped carriers. A gas flow path constituting mechanism that constitutes such a gas flow path;
The first plate-shaped carrier that moves the plate-shaped carrier in the first plate-stacked region to the second plate-stacked region in the upper or lower part of the first plate-stacked region and the second plate-stacked region Transition means,
The plate-like carrier of the second plate lamination region above or below the first plate lamination region and the second plate lamination region (where the first plate-like carrier transition means is not disposed) A second plate-like carrier transfer means for transferring to the first plate stacking region;
It has
A plurality of plate-shaped carriers sequentially move from the first plate stacking region to the second plate stacking region, and from the second plate stacking region to the first plate stacking region, thereby the plate-shaped carrier Are configured to sequentially circulate through the first plate lamination region and the second plate lamination region.
It is characterized by.
[0010]
After the first plate stacking region, the second plate stacking region, and the gas to be processed have passed through the first plate stacking region in a direction substantially parallel to the stacking direction of the plate-shaped carriers, the second plate stacking A gas flow path constituting mechanism that constitutes a gas flow path that passes through the region in a direction substantially parallel to the stacking direction of the plate-shaped carriers, a first plate-shaped carrier moving means, a second plate-shaped carrier moving means, The plurality of plate-like carriers are sequentially transferred from the first plate stacking region to the second plate stacking region, and are also transferred from the second plate stacking region to the first plate stacking region. Thus, the plate-shaped carrier sequentially circulates through the first plate lamination region and the second plate lamination region. Therefore, even when the gas to be treated is introduced from the gas inlet arranged at a predetermined position and discharged from the gas outlet arranged at the predetermined position, each plate-like carrier moves. Since the first plate lamination region and the second plate lamination region are circulated, the load of the gas to be processed on each plate-like carrier (that is, the load of the malodorous component that is the component to be removed) is made uniform. This makes it possible to perform an efficient and stable biological deodorization treatment.
[0011]
In the present invention, “stacking a plurality of plate-shaped carriers so as not to contact each other” means that the porous sheets constituting the plate-shaped carriers are stacked so as not to substantially contact each other. For example, when the plate-like carrier is formed by attaching the frame to a porous sheet carrying microorganisms, it is not excluded that the frames are stacked so as to contact each other.
[0012]
Further, in the present invention, various microorganisms can be selected and used according to the type of gas to be treated, etc., as microorganisms that are carried on a porous sheet and propagated.
[0013]
The movable circulation type biological deodorization apparatus according to claim 2 is characterized in that the porous sheet is made of porous fibrous polyvinyl alcohol.
[0014]
When a sheet made of porous fibrous polyvinyl alcohol is used as the porous sheet, microorganisms can be efficiently supported. In addition, since polyvinyl alcohol is excellent in economic efficiency and can easily be obtained with various characteristics, the present invention can be made more effective.
[0015]
Further, in the movable circulation type biological deodorization apparatus according to claim 3, a plurality of circular holes having a diameter of 0.5 to 5 cm are formed at substantially equal intervals in the porous sheet constituting the plate-shaped carrier, In addition, the plate-like carriers are stacked in such a manner that the circular holes of the porous sheets adjacent to each other among the porous sheets constituting the laminated plate-like carrier do not overlap each other when viewed in a plan view. It is characterized by being.
[0016]
A plurality of circular holes having a diameter of 0.5 to 5 cm are formed in the porous sheet constituting the plate-shaped carrier at substantially equal intervals, and each circular hole formed in the porous sheet of the adjacent plate-shaped carrier However, when the plate-like carriers are stacked in such a manner that they do not overlap each other when viewed in a plan view, the gas to be treated is prevented from short-passing, and the gas to be treated is separated from each porous sheet (plate-like). It is possible to bring the carrier into contact with the carrier uniformly and closely, and the efficiency of the biological deodorization treatment can be improved.
[0017]
Further, in the movable circulation type biological deodorization apparatus according to claim 4, water is supplied to the plate-like carrier circulating through the first plate stacking region and the second plate stacking region in a predetermined circulating region. It is said that it is comprised.
[0018]
When water is supplied to the plate-like carrier that circulates between the first plate lamination region and the second plate lamination region in a predetermined region during circulation, the activity of microorganisms is reliably maintained and efficient. Biological deodorization treatment can be performed.
In addition, as a method of supplying water to the plate-shaped carrier, a method of immersing the plate-shaped carrier in water, a method of spraying water, or the like can be used.
[0019]
Further, in the movable circulation type biological deodorization apparatus according to claim 5, the lower part of the first plate stacking region and the second plate stacking region is a water storage part for storing water, and the first plate stacking region The plate-like carrier circulating in the second plate stacking region is configured to be immersed in water when passing through the water reservoir.
[0020]
The lower part of the first plate stacking region and the second plate stacking region is used as a water storage section, and the plate-like carrier circulating through the first plate stacking region and the second plate stacking region is immersed in water in this water storage section. In such a case, it is possible to reliably supply water to the plate-like carrier to reliably maintain the activity of the microorganism, and to perform the biological deodorization process efficiently.
[0021]
Moreover, the movable circulation type biological deodorization device of claim 6 is:
A liquid level adjustment mechanism for adjusting the liquid level height of the water reservoir;
A gas introduction port for introducing the gas to be treated in accordance with the liquid level of the water storage section, and a gas introduction / discharge position adjusting mechanism for adjusting the height of the gas outlet for discharging the treated gas to be treated;
It is characterized by having.
[0022]
A liquid level adjusting mechanism for adjusting the liquid level of the water storage unit, a gas introduction port for introducing the gas to be treated according to the liquid level of the water storage unit, and a gas exhaust port for discharging the treated gas to be treated By providing a gas introduction / discharge position adjustment mechanism that adjusts the height of the substrate, contact conditions between the gas to be treated and the plate-like carrier (porous sheet), and conditions for immersing the plate-like carrier in water It is possible to perform biological deodorization treatment more efficiently by adjusting the above.
[0023]
Moreover, the movable circulation type biological deodorization device of claim 7 is:
Water storage Part A dissolved oxygen meter that detects the dissolved oxygen concentration of the water in the water,
Operated in conjunction with the dissolved oxygen meter, the water storage Part Store the water so that the dissolved oxygen concentration in the water is kept within the specified range. Part Air diffuser that sends air to
It is characterized by having.
[0024]
Water storage Part It operates in conjunction with a dissolved oxygen meter that detects the dissolved oxygen concentration in the water and stores water Part Store the water so that the dissolved oxygen concentration in the water is kept within the specified range. Part When the structure is provided with an air diffuser for sending air to the air, the activity of the microorganisms can be more reliably maintained, and the biological deodorization treatment can be performed efficiently.
[0025]
Moreover, the movable circulation type biological deodorization apparatus of Claim 8 is provided.
The first plate-like carrier transfer means moves the uppermost plate-like carrier of the first plate stacking region to the uppermost portion of the second plate stacking region; and
The second plate-like carrier transfer means moves the lowermost plate-like carrier of the second plate stacking region to the lowermost part of the first plate stacking region;
The first plate-like carrier transfer means pushes the plate-like carrier in the first plate stacking area upward by the thickness of at least one plate-like carrier, and pushes up by the first lift A first slider that slides the uppermost plate-like carrier in the first plate stacking region in a substantially horizontal direction to move to the upper surface side of the uppermost plate-like carrier in the second plate stacking region; And comprising
The second plate-shaped carrier transfer means pushes the plate-shaped carrier in the first plate-stacked region upward by the thickness of at least one plate-shaped carrier, and the second plate-stacked region Except for the lowermost plate-like carrier, the second lifter for pushing the second and subsequent plate-like carriers upward, and the lowermost plate-like carrier in the second plate stacking region are slid, And a second slider that shifts to the lower surface side of the lowermost plate-like carrier pushed up by the first lift in the plate stacking area.
It is characterized by.
[0026]
The first plate-like carrier transfer means is pushed up by the first lift for pushing up the plate-like carrier in the first plate stacking region by the thickness of at least one plate-like carrier, and the first lift. A first slider that slides the uppermost plate-like carrier in the first plate stacking region in a substantially horizontal direction and moves to the upper surface side of the uppermost plate-like carrier in the second plate stacking region, A first lift that pushes up the plate-like carrier in the first plate-stacking region by the thickness of at least one plate-like carrier; and a lowermost part of the second plate-stacking region. A second lift that pushes up the second and subsequent plate-like carriers from the bottom, and the lowermost plate-like carrier in the second plate stacking region. A plurality of plates in the case of including a second slider that is shifted to the lower surface side of the lowermost plate-like carrier pushed up by the first lift in the first plate lamination region The carrier is sequentially transferred from the first plate stacking region to the second plate stacking region and from the second plate stacking region to the first plate stacking region, and the first plate stacking region and the first plate stacking region It is possible to reliably circulate the two plate stacking regions, so that the gas to be treated is introduced from the gas inlet arranged at a predetermined position and discharged from the gas outlet arranged at the predetermined position. In this case, each plate-like carrier moves and circulates in the first plate lamination region and the second plate lamination region, so that the load of the gas to be processed on each plate-like carrier is made uniform. Rukoto becomes possible, it becomes possible to efficiently perform stable biological deodorization treatment.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be shown and the features thereof will be described in more detail.
[0028]
FIG. 1 is a diagram showing a configuration of a movable circulation type biological deodorization apparatus according to an embodiment of the present invention.
The movable circulation type biological deodorization apparatus of this embodiment is configured so that the porous sheets 10 do not contact each other with a plurality of plate-like carriers 1 provided in the tower body 5 and carrying the microorganisms on the porous sheet 10. As in the case of the first plate stacking region 11 and the first plate stacking region 11, the porous sheet 10 contacts the plurality of plate-like carriers 1 in which microorganisms are supported on the porous sheet 10. The second plate stacking region 12 stacked so as not to pass, and the gas to be processed passes through the first plate stacking region 11 in a direction parallel to the stacking direction of the plate-like carrier 1 (in the direction of arrow A), A gas flow path configuration mechanism 3 that constitutes a gas flow path 2 that passes through the plate stacking region 2 in a direction parallel to the stacking direction of the plate-like carriers (in the direction of arrow B), and the first plate stack The first plate-shaped carrier that moves the uppermost plate-shaped carrier 1 (1a) of the first plate laminated region 11 to the second plate laminated region 12 above the region 11 and the second plate laminated region 12 The lowermost plate-like carrier 1 (1b) of the second plate stacking region 12 is transferred to the first plate stacking region at the lower part of the transition means 21 and the first plate stacking region 11 and the second plate stacking region 12. And a plurality of plate-like carriers 1 are transferred from the first plate stack region 11 to the second plate-like carrier transferring means 21 by the second plate-like carrier transferring means 21. While moving to the plate stacking region 12, the second plate-shaped carrier transfer means 22 shifts from the second plate stacking region 12 to the first plate stacking region 11. Accordingly, the plate-like support 1 are sequentially circulation loop for circulating the first plate laminated region 11 a second plate laminated region 12 is configured to be formed.
[0029]
In the movable circulation type biological deodorization apparatus of this embodiment, the plate-like carrier 1 is configured so that the plate-like carrier 1 circulates in the same direction as the flow direction of the gas to be treated. It is configured to be able to change the circulation speed.
[0030]
Moreover, in this embodiment, what consists of porous fibrous polyvinyl alcohol is used as the porous sheet | seat 10 which comprises the plate-shaped support | carrier 1 and carries the microorganisms.
In the porous sheet 10, for example, as shown in FIGS. 2A and 2B, a plurality of circular holes 4 having a diameter of 0.5 to 5 cm are formed at substantially equal intervals. As shown in FIG. 3, each plate-like carrier 1 is stacked in such a manner that the circular holes 4 formed in the porous sheet 10 do not overlap each other when viewed in a plan view. Is configured to ensure a close contact with microorganisms without causing a short pass.
[0031]
The plate-like carrier 1 is formed by attaching an annular frame 10a around the porous sheet 10 as shown in FIGS. 2 (a) and 2 (b). Protrusions 10b that also function as spacers are disposed so that the quality sheets 10 are stacked at a predetermined interval.
[0032]
Moreover, in the movable circulation type biological deodorization apparatus of this embodiment, the lower part (namely, lower part of the tower main body 5) of the 1st plate lamination | stacking area | region 11 and the 2nd plate lamination | stacking area | region 12 is the water storage part 7 which accumulates water. The plate-like carrier 1 that circulates through the first plate lamination region 11 and the second plate lamination region 12 is immersed in water by passing through the water storage section 7, and water is supplied to the porous plate 10. It is configured to be.
[0033]
Further, in the movable circulation type biological deodorization apparatus of this embodiment, the tower body 5 and the tower body 5 are disposed in the tower body 5, partition the first plate stacking region 11 and the second plate stacking region 12, and the tower body. In the upper part of 5, a partition plate 6 for communicating the two and allowing the gas to be processed to flow from the first plate lamination region 11 to the second plate lamination region 12 constitutes the gas flow path constituting mechanism 3. ing. In addition, since the lower part of the tower main body 5 is the water storage part 7 as described above and water is stored, in the lower part of the tower main body 5, the first plate lamination region 11 and the second plate lamination region are provided. 12 does not communicate and a short path of the gas to be processed does not occur.
[0034]
Further, in the movable circulation type biological deodorization apparatus of this embodiment, the liquid level adjusting mechanism 8 for adjusting the liquid level height of the water storage unit 7 and the gas to be treated according to the liquid level height of the water storage unit 7 are used. A gas introduction port and a gas introduction / discharge position adjustment mechanism 9 that adjusts the height of the gas discharge port for discharging the processed gas to be processed are provided.
[0035]
In addition, the said liquid level adjustment mechanism 8 is comprised by arrange | positioning the flange 14 which attaches the water supply pipe | tube 13 in three places which differ in a height direction.
[0036]
Further, the gas introduction / discharge position adjusting mechanism 9 is provided with three flanges 16 for attaching the gas inlet pipe 15 to be processed at different positions in the height direction and for attaching the gas outlet pipe 17 to be processed. The three flanges 18 are arranged at three different positions in the height direction. A blower 15 a is disposed in the gas inlet pipe 15 to be processed.
[0037]
Furthermore, the movable circulation type biological deodorization apparatus of this embodiment operates in conjunction with the dissolved oxygen meter 19 for detecting the dissolved oxygen concentration of the water in the water storage unit 7 and the dissolved oxygen meter 19, and the water in the water storage unit 7. An aeration means (aeration air pump) 20 is provided to send air to the water storage unit 7 so that the dissolved oxygen concentration is maintained within a predetermined range.
[0038]
Moreover, in the movable circulation type biological deodorization apparatus of this embodiment, the first plate for transferring the uppermost plate-like carrier 1 (1a) of the first plate stacking region 11 to the uppermost portion of the second plate stacking region 12. The carrier-like transfer means 21 includes a first lift 31 that pushes the plate-like carrier 1 in the first plate stack region 11 upward by a distance equal to or greater than the thickness of at least one plate-like carrier 1, and a first lift 31. Formed from a first slider 41 that slides the uppermost plate-like carrier 1 (1a) of the pushed up first plate stacking region 11 in a substantially horizontal direction to move to the uppermost portion of the second plate stacking region 12 Has been.
[0039]
The second plate-like carrier transfer means 22 for transferring the lowermost plate-like carrier 1 (1b) of the second plate-stacking region 12 to the lowermost part of the first plate-stacking region 11 A first lift 31 that pushes the plate-like carrier 1 in the region 11 upward by a distance equal to or greater than the thickness of at least one plate-like carrier 1, and the lowermost plate-like carrier 1 (1 b in the second plate stacking region 12). ), The second lift 32 that pushes the second and subsequent plate-like carriers 1 upward, and the lowermost plate-like carrier 1 (1b) in the second plate stacking region 12 are slid, The second slider 42 is moved to the lowermost part of the plate stacking region 11 and the like.
[0040]
In the movable circulation type biological deodorization apparatus of this embodiment, a plate-like carrier 1 carrying microorganisms is formed from a porous sheet 10 comprising a plurality of circular holes 4 and made of a fibrous polyvinyl alcohol plate. Therefore, it is possible to easily obtain a porous structure (plate-like carrier) 1 that has little pressure loss and can efficiently support microorganisms without causing an increase in cost. Therefore, it is possible to secure a structure with less pressure loss during ventilation and higher contact efficiency with the gas to be treated than the conventional biological deodorization apparatus.
[0041]
Further, since the plate-like carrier is configured to circulate, the load of the gas to be processed (that is, the plate-like carrier 1 circulating through the first plate lamination region 11 and the second plate lamination region 12 (that is, It is possible to prevent the occurrence of a large bias in the load of the malodorous component, which is the component to be removed, and to perform the biological deodorizing process efficiently and stably.
[0042]
Moreover, since it is comprised so that the circulation speed of the plate-shaped support | carrier 1 can be changed, according to the malodorous component density | concentration of to-be-processed gas, the quantity of to-be-processed gas, it shall be set as a suitable circulation speed. And more efficient biological deodorization treatment can be performed.
[0043]
Further, in the movable circulation type biological deodorization apparatus of this embodiment, the liquid level adjusting mechanism 8 for adjusting the liquid level height of the water storage unit 7 and the gas to be treated according to the liquid level height of the water storage unit 7 are used. Since the gas introduction port to be introduced and the gas introduction / discharge position adjusting mechanism 9 for adjusting the height of the gas discharge port for discharging the treated gas to be treated are provided, the gas to be treated and the plate-like carrier 1 It is possible to adjust the contact conditions and the conditions for immersing the plate-like carrier 1 in water, and the followability to high loads and load fluctuations can be dramatically improved. It is possible to perform biodeodorization treatment well.
[0044]
Moreover, in the present invention, various microorganisms can be used depending on the type of gas to be treated as the microorganisms to be carried and propagated on the porous sheet. The main effective microorganisms are either aerobic or anaerobic. It is necessary to select an appropriate amount of supplied water and composition of the supplied water (dissolved oxygen concentration, etc.) depending on whether it is heterotrophic or autotrophic.
It should be noted that supply of nutrient sources for promoting the growth of heterotrophic microorganisms was possible with conventional devices, but in the movable circulation type biological deodorization device of the present invention, the plate-like carrier was immersed in water and oxygen was supplied. Depending on the presence or absence, it is possible to set not only aerobic but also anaerobic microorganism growth environment, and it is expected to be detoxified by denitrification of nitrogen compounds.
[0045]
The present invention is not limited to the above-described embodiment, and various applications and modifications can be made within the scope of the invention with respect to the configuration of the plate-like carrier and the plate-like carrier transfer means. is there.
[0046]
【The invention's effect】
As described above, in the movable circulation type biological deodorization apparatus according to the present invention (Claim 1), the first plate stacking region, the second plate stacking region, and the gas to be processed pass through the first plate stacking region. A gas flow path configuration that forms a gas flow path that passes through the second plate stacking region in a direction substantially parallel to the stacking direction of the plate-shaped carriers after passing in a direction substantially parallel to the stacking direction of the plate-shaped supports. A mechanism, a first plate-like carrier transfer means, and a second plate-like carrier transfer means are provided, and a plurality of plate-like carriers are sequentially transferred from the first plate stack region to the second plate stack. And the transition from the second plate stacking region to the first plate stacking region, so that the plate-like carrier is sequentially moved from the first plate stacking region to the second plate stacking region. Circulating. Therefore, even when the gas to be treated is introduced from the gas inlet arranged at a predetermined position and discharged from the gas outlet arranged at the predetermined position, each plate-like carrier moves. Since the first plate lamination region and the second plate lamination region are circulated, the load of the gas to be treated on each plate-like carrier can be made uniform, and an efficient and stable biological deodorization treatment can be performed. It becomes possible to do.
[0047]
Moreover, when the sheet | seat which consists of porous fibrous polyvinyl alcohol is used as a porous sheet like the movable circulation type biological deodorizing apparatus of Claim 2, it becomes possible to carry | support microorganisms efficiently. Moreover, since polyvinyl alcohol is excellent in economic efficiency and can easily be obtained with various properties, the present invention can be made more effective.
[0048]
Further, as in the movable circulation type biological deodorization apparatus according to claim 3, a plurality of circular holes having a diameter of 0.5 to 5 cm are formed at substantially equal intervals in the porous sheet constituting the plate-shaped carrier, and When the circular holes formed in the porous sheets of the adjacent plate-shaped carriers are configured such that the plate-shaped carriers are stacked in such a manner that they do not overlap each other when viewed in a plan view, the gas to be treated should be short-passed. Thus, the gas to be treated can be brought into contact with each porous sheet (plate-like carrier) uniformly and closely, and the efficiency of the biological deodorization treatment can be improved.
[0049]
Further, as in the movable circulation type biological deodorization apparatus according to claim 4, water is supplied to the plate-like carrier circulating through the first plate stacking region and the second plate stacking region in a predetermined region in circulation. In this case, it is possible to reliably maintain the activity of the microorganism and efficiently perform the biological deodorization treatment.
[0050]
Further, as in the movable circulation type biological deodorization apparatus according to claim 5, the first plate lamination region and the lower part of the second plate lamination region serve as a water storage portion, and the first plate lamination region and the second plate lamination region are When the circulating plate-shaped carrier is immersed in water in this water reservoir, it is possible to reliably supply water to the plate-shaped carrier and reliably maintain the activity of microorganisms. Processing can be performed.
[0051]
Further, as in the movable circulation type biological deodorization apparatus according to claim 6, a liquid level adjusting mechanism for adjusting the liquid level height of the water storage unit, and a gas introduction for introducing the gas to be treated according to the liquid level height of the water storage unit The gas to be treated and the plate-like carrier (porous sheet) in the case of a configuration including a gas inlet / outlet position adjusting mechanism for adjusting the height of the gas outlet and the gas outlet for discharging the processed gas to be processed It is possible to perform biological deodorization treatment more efficiently by adjusting the contact conditions with the liquid and the conditions for immersing the plate-like carrier in water.
[0052]
Further, as in the movable circulation type biological deodorization device according to claim 7, Part It operates in conjunction with a dissolved oxygen meter that detects the dissolved oxygen concentration in the water and stores water Part Store the water so that the dissolved oxygen concentration in the water is kept within the specified range. Part When the structure is provided with an air diffuser for sending air to the air, the activity of the microorganisms can be more reliably maintained, and the biological deodorization treatment can be performed efficiently.
[0053]
Further, as in the movable circulation type biological deodorizing apparatus according to claim 8, the first plate-like carrier transfer means moves the plate-like carrier in the first plate stacking region upward by the thickness of at least one plate-like carrier. The first lift pushed up by the first lift, and the uppermost plate-like carrier pushed up by the first lift in the horizontal direction are slid in a substantially horizontal direction to form the uppermost plate in the second plate lamination region. A first slider that moves to the upper surface side of the carrier, and the second plate-like carrier transition means moves the plate-like carrier in the first plate stack region upward by the thickness of at least one plate-like carrier. A first lift that pushes up, a second lift that pushes up the second and subsequent plate-like carriers from the bottom, excluding the lowermost plate-like carrier in the second plate stacking region; A second slider that slides the lowermost plate-shaped carrier of the two plate-stacking regions to the lower surface side of the lowermost plate-shaped carrier pushed up by the first lift of the first plate-stacking region In this case, the plurality of plate-shaped carriers are sequentially transferred from the first plate stacking region to the second plate stacking region, and from the second plate stacking region to the first plate stacking region. , It is possible to reliably circulate the first plate lamination region and the second plate lamination region, and introduce a gas to be processed from a gas introduction port provided at a predetermined position. Even when the gas is discharged from the gas discharge port arranged at the position, each plate-like carrier moves and circulates between the first plate lamination region and the second plate lamination region. , It is possible to homogenize the load of the gas to be treated into each plate-like carrier.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a movable circulation type biological deodorization apparatus according to an embodiment of the present invention.
FIG. 2A is a front sectional view showing the configuration of a plate-like carrier 1 used in a movable circulation type biological deodorization apparatus according to an embodiment of the present invention, and FIG. 2B is a plan view.
FIG. 3 is a cross-sectional view schematically showing a laminated state of porous sheets when plate-like carriers used in the movable circulation type biological deodorization apparatus according to one embodiment of the present invention are stacked.
[Explanation of symbols]
1 Plate carrier
1a Plate-shaped carrier at the top of the first plate stacking region
1b The lowermost plate-like carrier of the second plate stacking region
2 Gas flow path
3 Gas flow path configuration mechanism
4 Circular holes formed in the porous sheet
5 tower body
6 Partition plate
7 water reservoir
8 Liquid level adjustment mechanism
9 Gas introduction / discharge position adjustment mechanism
10 Porous sheet
10a frame
10b Projection formed on the frame
11 First plate lamination region
12 Second plate stacking area
13 Water supply pipe
14 Flange to attach the water supply pipe
15 Processed gas introduction pipe
15a blower
16 Flange for installing the gas inlet pipe
17 Exhaust pipe for gas to be treated
18 Flange to attach the exhaust pipe for gas to be treated
19 Dissolved oxygen meter
20 Aeration means (Air pump for aeration)
21 First plate-like carrier transfer means
22 Second plate-like carrier transfer means
31 First lift
32 Second lift
41 First slider
42 Second slider
A, B Flow direction of gas to be treated

Claims (8)

A first plate stacking region in which a plurality of plate-like carriers having microorganisms carried on a porous sheet are stacked so as not to contact each other;
Similar to the first plate lamination region, a plurality of plate-like carriers in which microorganisms are supported on a porous sheet are stacked so as not to contact each other,
The gas to be processed passes through the first plate stacking region in a direction substantially parallel to the stacking direction of the plate-shaped carriers, and then passes through the second plate stacking region in a direction approximately parallel to the stacking direction of the plate-shaped carriers. A gas flow path constituting mechanism that constitutes such a gas flow path;
The first plate-shaped carrier that moves the plate-shaped carrier in the first plate-stacked region to the second plate-stacked region in the upper or lower part of the first plate-stacked region and the second plate-stacked region Transition means,
The plate-like carrier of the second plate lamination region above or below the first plate lamination region and the second plate lamination region (where the first plate-like carrier transition means is not disposed) And second plate-like carrier transfer means for transferring to the first plate lamination region,
A plurality of plate-shaped carriers sequentially move from the first plate stacking region to the second plate stacking region, and from the second plate stacking region to the first plate stacking region, thereby the plate-shaped carrier Is configured to sequentially circulate through the first plate stacking region and the second plate stacking region.   The movable circulation type biological deodorization device according to claim 1, wherein the porous sheet is made of porous fibrous polyvinyl alcohol.   In the porous sheet constituting the plate-shaped carrier, a plurality of circular holes having a diameter of 0.5 to 5 cm are formed at substantially equal intervals, and each porous material constituting the laminated plate-shaped carrier is formed. The movable plates according to claim 1 or 2, characterized in that the plate-like carriers are stacked in such a manner that the circular holes of the porous sheets adjacent to each other of the sheets do not overlap each other when viewed in a plan view. Circulating biological deodorization device.   The water is supplied to a plate-like carrier that circulates in the first plate lamination region and the second plate lamination region in a predetermined region during circulation. 4. The movable circulation type biological deodorization apparatus according to any one of 3 above.   The lower part of the first plate stacking region and the second plate stacking region is a water storage part for storing water, and the plate-like carrier circulating through the first plate stacking region and the second plate stacking region is, The movable circulating biological deodorization apparatus according to any one of claims 1 to 4, wherein the movable circulation biological deodorization apparatus is configured to be immersed in water when passing through the water storage section. A liquid level adjustment mechanism for adjusting the liquid level height of the water reservoir;
A gas introduction port for introducing the gas to be treated according to the liquid surface height of the water storage section, and a gas introduction / discharge position adjusting mechanism for adjusting the height of the gas discharge port for discharging the treated gas to be treated. The movable circulation type biological deodorization device according to claim 5 , wherein the device is provided. A dissolved oxygen meter for detecting a dissolved oxygen concentration of water in the water storage section,
An aeration unit that operates in conjunction with the dissolved oxygen meter and sends air to the water storage unit to diffuse the water so that the dissolved oxygen concentration of the water in the water storage unit is maintained within a predetermined range. The movable circulation type biological deodorization apparatus according to claim 5 or 6, The first plate-like carrier transfer means moves the uppermost plate-like carrier of the first plate stacking region to the uppermost portion of the second plate stacking region; and
The second plate-like carrier transfer means moves the lowermost plate-like carrier of the second plate stacking region to the lowermost part of the first plate stacking region;
The first plate-like carrier transfer means pushes the plate-like carrier in the first plate stacking area upward by the thickness of at least one plate-like carrier, and pushes up by the first lift A first slider that slides the uppermost plate-like carrier in the first plate stacking region in a substantially horizontal direction to move to the upper surface side of the uppermost plate-like carrier in the second plate stacking region; And comprising
The second plate-shaped carrier transfer means pushes the plate-shaped carrier in the first plate-stacked region upward by the thickness of at least one plate-shaped carrier, and the second plate-stacked region Except for the lowermost plate-like carrier, the second lifter for pushing the second and subsequent plate-like carriers upward, and the lowermost plate-like carrier in the second plate stacking region are slid, And a second slider that moves to the lower surface side of the lowermost plate-like carrier pushed up by the first lift in the plate stacking region. The movable circulation type biological deodorizing apparatus according to any one of the above.

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