KR100330960B1 - Apparatus for treating wastewater using a rotating biological contactor with water mill wheels - Google Patents

Abstract

The wastewater treatment apparatus of aberration type rotary biological contact type includes a tank and aberration type rotation mechanism, and the rotation mechanism is a plurality of plates fixed to the hub and the hub mounted on the rotation shaft to rotate together with the rotation shaft and the rotation shaft supported on the tank. Has a member. At least one wood fungus is attached to the plate members. By making a number of plate members made of wood, the plate members not only act as a natural carbon source for wood fungi, but also cause secondary metabolic reactions of wood fungi, resulting in the treatment of low concentrations as well as high concentrations of nitrogen-containing wastewater. Will be. By providing a light source means for irradiating visible light at regular intervals, it causes light stress on wood fungi and promotes metabolic reactions of wood fungi, thereby improving water treatment efficiency and performing high concentration nitrogen-containing wastewater treatment. do.

Description

Apparatus for treating wastewater using a rotating biological contactor with water mill wheels}

The present invention relates to an apparatus for biologically treating wastewater, and in detail, by making a rotary mechanism used in the rotary biological contact method into aberration type, the surface area of the plate member of the rotary mechanism is increased, and accordingly, the wastewater. In order to increase the treatment efficiency of the waste water by improving the surface area of the plate member and the stirring efficiency of the waste water.

A rotating biological contactor type method, which is used as a method of treating wastewater using microorganisms, is a method of purifying water using microbial membranes attached to a plurality of rotating disks, also called a rotating disc contact method. Examples include US Pat. Nos. 4,554,075 and 4,655,926, which have a rotating shaft and a plurality of disks mounted on the rotating shaft, and microbial membranes are formed on the surfaces of the disks. As the axis of rotation rotates, the discs also rotate, so that a certain part of each of the discs is in continuous contact with the liquid to be treated, and the remaining part is in contact with the air on the liquid, thereby resulting in water treatment of the liquid by microbial decomposition. You lose. The device having such a structure is known to have low power consumption, easy operation and strong load fluctuation.

However, the rotary biocontact type device of the type as disclosed in the above-mentioned US patents has a disadvantage of using a thin disc, so that the surface area per unit volume is small and it is difficult to stir the liquid evenly during rotation. Furthermore, since the original plate is made of synthetic resin such as rubber, polyurethane, and plastic, the manufacturing cost increases in the case of a large capacity processing facility.

White-rot fungus, which grows on the surface of the tree in nature and breaks down the lignin, a polymer compound in the tree, is hardly decomposed by many researchers into chlorophenol and polychloroarate. It has been reported that it can decompose polychloroaromatic hydrocarbons (PAHs) and polychlorinated biphenyls (PCBs), and therefore it is very likely to be used for hardly degradable and toxic wastewater treatment. However, in order to decompose these hardly degradable substances, wood fungi must artificially trigger a secondary metabolic reaction that produces degrading enzymes involved in lignin degradation, which is known to occur at low concentrations of nitrogen. Therefore, when treating wastewater using wood decay bacteria, there has been a problem that it is difficult to treat the wastewater containing high concentration nitrogen.

Conventional treatment methods including the above-described US patents use the most commonly used wood fungus Penerochaete chrysosporium attached to a plastic disc, as described above, It is not possible to treat high concentration nitrogen containing wastewater. In addition, there is a problem in that the supply of artificial carbon sources such as glucose continuously from the outside for the growth of wood fungi and decomposition of chloro-organics due to the use of plastic discs. In addition, the conventional method is used by attaching only one type of wood fungus such as Feneroquite chrysosporium, so that a separate heating device is used to maintain a temperature suitable for the growth and biodegradability of a specific kind of wood fungus. Energy is needed. This is because the most commonly used penerocite chrysosporium actively proliferates at about 40 ° C. and biodegrades contaminants.

SUMMARY OF THE INVENTION An object of the present invention is to provide a water wheel type rotary mechanism including a plurality of plate members suitable for use in a rotating biocontact method, thereby increasing the surface area in contact with the waste water and air per unit volume, and consequently the biofilm formed on the plate members. It is to provide a wastewater treatment apparatus that increases the contact area with the plate member and sufficiently stirs the wastewater during rotation when the plate members rotate.

Still another object of the present invention is to provide a wastewater treatment apparatus having various kinds of wood fungus attached to the wood by making aberration plate members made of wood.

According to the characteristics of the present invention, since the plate member made of wood acts as a natural carbon source, there is no need to supply a separate nutrient such as glucose for wood fungi from the outside, and also provides a natural carbon source (lignin) provided by the plate member. , Cellulose, hemicellulose) triggers the secondary metabolic reaction of wood fungi, so that it can treat not only low concentrations but also high concentrations of nitrogen-containing wastewater. In addition, when the plate members are made of wood, various types of wood fungi that can grow on the wood can be attached at the same time, so that unlike the case of Feneroquite cryosporium, Therefore, it is possible to treat the waste water under 5-50 ℃) and conditions. Furthermore, the plate member may be manufactured using waste wood or may be manufactured using wood chips or wood chips, in which case it becomes economical and environmentally friendly in terms of waste recycling.

Another object of the present invention is to irradiate light at a predetermined time, for example, every 12 hours to form a natural state of day and night in the wood fungus attached to the plate member, which is through the artificial light change The present invention provides a wastewater and wastewater treatment apparatus capable of increasing the production of enzymes necessary for the wastewater decomposition by promoting the secondary metabolism of wood fungi by causing optical stress.

According to the invention, the tank; A water wheel-type rotating mechanism having a rotary shaft supported by the tank, a hub through which the rotary shaft penetrates and rotates together with the rotary shaft, and a plurality of plate members installed around the hub to rotate together with the hub; And at least one or more types of wood fungus attached to the surfaces of each of the plate members.

1 is an overall front cross-sectional view of a wastewater treatment apparatus using aberration type rotary biological contact method according to the present invention;

Figure 2 is a side cross-sectional view of the waste water treatment apparatus of Figure 1 using aberration type rotary biological contact method according to the present invention,

3 is a perspective view of a rotating mechanism used in the wastewater and wastewater treatment apparatus of FIG.

Explanation of symbols on the main parts of the drawings

10 processing device 12 tank

14 bulkhead 16: rotation axis

20: rotating mechanism 21: plate member

24: inlet pipe 26: outlet pipe

28: air inlet pipe 30: air outlet pipe

32: light source

1 is an overall front cross-sectional view of a wastewater and wastewater treatment apparatus using a rotary biological contact method according to the present invention, FIG. 2 is a side cross-sectional view of FIG. 1, and FIG. 3 is a perspective view of a rotating mechanism used in the wastewater treatment apparatus. .

The waste water treatment apparatus 10 includes a tank 12, which is divided into a plurality of compartments by the partitions 14. The rotating shaft 16 is rotatably fixed to the processing apparatus 10 by bearings 18 installed on the side walls of the processing apparatus 10. The rotating shaft 16 is provided with a plurality of plate members 21 to be driven together with the rotating shaft 16 through the hub 22 to provide a rotating mechanism 20 in the form of aberration. The rotating shaft 16 is driven by a motor (not shown).

According to the present invention, since the aberration-type rotating mechanism 20 having a plurality of plate members 21 is provided in the treatment apparatus 10, the surface area of the biofilm in contact with the wastewater and waste water per unit volume and air is increased to increase the treatment efficiency. It can be improved. In addition, the number of the plate member 21 can be appropriately added or subtracted in consideration of the treatment capacity and the microbial concentration, and the shape of the plate member 21 is not particularly limited as long as it can perform the function of the aberration type rotary mechanism. Rectangular shapes would be preferred. Furthermore, the aberration-type rotating mechanism 20 sufficiently agitates liquid such as waste water and waste water compared to the original plate, so that the biofilm and the liquid are evenly contacted, and the treatment around the rotating mechanism 20 processed by the biofilm and the liquid contact. The water is easily mixed with untreated water, thereby improving the treatment efficiency. The rotation speed of the rotary mechanism 20 can be adjusted according to the processing capacity or efficiency.

The plate member 21 constituting the rotating mechanism 20 may be made of a plastic material, but is preferably made of wood and may be made of waste wood such as wood chips or wood chips. If waste wood is used, it will be environmentally friendly and the manufacturing cost will be reduced accordingly. The type of wood is not limited as long as wood fungi can attach and grow.

The wood members are attached to each of the plate members 21 to form a thin film. In this case, only one type of wood fungus may be attached, or alternatively, various types of wood fungi may be attached. In the case of one type of wood fungus, for example, Feneroki Techososporium, the temperature of the wastewater and wastewater must be maintained at about 40 ° C, so it is necessary to use a separate heating device. However, by attaching various kinds of wood fungi to the plate members 21, it is possible to perform the water treatment over a wide temperature range without a separate heating device. That is, depending on the wood decay fungi are actively proliferating and decomposing at a specific temperature over a temperature range of about 5-50 ° C. The plate members 21 are attached to various wood fungi, so that the treatment apparatus 10 ), Appropriate wood fungi react actively according to the temperature of wastewater.

When the plate members 21 of the rotating mechanism 20 are made of wood, the wood acts as a carbon source of wood fungi, so unlike the case of using a plastic disc, a separate carbon source (nutrition), such as expensive glucose, is used. There is no need to supply. Furthermore, when wood decay bacteria are attached using wood, it is possible to treat not only low concentrations but also wastewater containing high concentrations of nitrogen. In other words, wood fungi are known to produce enzymes capable of decomposing chlorine-based organic compounds by actively causing secondary metabolism in low concentration nitrogen-containing liquids. However, when the plate member 21 is made of wood as in the present invention, wood fungi decompose fibrin (lignin, cellulose, hemicellulose) naturally contained in wood to obtain glucose. At this time, a secondary metabolic reaction is caused to produce an enzyme that degrades natural fiber such as lignin of wood. Secondary metabolism results in the production of chlorine-based organic compounds such as chlorophenol and 2,4-dichlorophenol and enzymes that can degrade polymer contaminants.

The waste water is introduced into the tank 12 through the inflow pipe 24 and then discharged through the outflow pipe 26 through the respective compartments partitioned by the partitions 14. The number of compartments and compartments may vary depending on the capacity of the treatment, and the compartments 14 may be arranged in parallel, or a plurality of tanks 12 in which the compartments 14 are formed may be arranged in parallel. Ambient air flows in through the air inlet pipe 28 and the air outlet pipe 30 or connects the air inlet pipe 28 with an oxygen supply device to supply pure oxygen to grow and treat wastewater and wastewater of aerobic wood fungi. The efficiency can be increased.

A light source 32, such as a fluorescent lamp, is installed on the upper wall of the tank 12. The light source 32 is turned on / off at regular time intervals, for example, at 12 hour intervals, to artificially cause light changes at regular intervals, thereby causing wood decay. The bacteria cause light stress, which in turn promotes the secondary metabolic reaction of wood fungi. The light source 32 is sufficient as long as it can emit visible light, and is not particularly limited.

The aberration type rotary mechanism used in the wastewater treatment apparatus according to the present invention increases the contact surface area of the decomposed microorganism per unit volume, the wastewater and the air, and stirs the wastewater uniformly, thereby greatly improving the treatment efficiency. .

The plate member constituting the rotating mechanism is made of wood to attach various kinds of wood fungi that can grow in the wood, and thus, it is possible to treat wastewater over a wide temperature range.

Wood is used to attach and propagate wood fungi, so that wood acts as a carbon source for wood fungi, resulting in cost reduction, and further, it is possible to treat low and high concentrations of nitrogen-containing wastewater.

Claims (7)

Tank; A water wheel-type rotating mechanism having a rotary shaft supported by the tank, a hub through which the rotary shaft penetrates and rotates together with the rotary shaft, and a plurality of plate members installed around the hub to rotate together with the hub; And At least one wood fungus attached to the surfaces of each of the plate members; Waste and wastewater treatment apparatus comprising a. The method of claim 1, And said plate members are made of wood. The method of claim 1, The plate member is a waste water treatment apparatus, characterized in that is produced using waste wood. The method of claim 1, And the plate members are rectangular. The method of claim 1, The wood fungus is a wastewater treatment apparatus, characterized in that it comprises a Fenerocite chrysosporium. The method of claim 1, And a light source means for emitting visible light to irradiate light at regular time intervals to promote secondary metabolic reactions of the wood fungi due to light stress. delete