TW201111064A - Trickling-filter biological treatment method utilizing waste tires and a biological treatment tank thereof - Google Patents

Abstract

A trickling-filter biological treatment, utilizing waste tires, includes the steps of: arranging waste tires in an organic treatment portion to form a waste tire array; forming biological membranes on the waste tire array; spraying an organic wastewater to cyclically pass through the biological membranes of the waste tire array and further dispensing or convecting air therethrough for trickling and filtering the organic wastewater. The trickling-filter biological treatment tank includes an organic treatment compartment, a waste tire array and a sprayer. The waste tire array is formed from waste tires, is provided in the organic treatment compartment, and is formed with biological membranes. The sprayer is in alignment with the waste tire array such that an organic wastewater is capable of passing through the waste tire array.

Description

201111064 VI. Description of the Invention: [Technical Field] The present invention is directed to a biological treatment method for a waste tire filling and a biological treatment tank; in particular, a biofilm is formed by filling a waste tire stack [b1〇1〇_ _b·〕 depends on the biological law and its biological treatment tank. [Prior Art] • Generally, the drip filter method is similar to the activated sludge process. The trickling filter method utilizes the microorganisms scattered on the bed when the waste water is scattered on the silk, so that the oxygen and the money mixed with the waste water can be used to decompose the organic matter of the waste towel, so that the water quality can be improved and purified, and then the product can be recovered and purified. Waste water. In fact, if the wastewater in the trickling filter is to be self-distributed to the filter to avoid overloading of the local biopterysis, it is necessary to continuously disperse water to reduce the rest time. Furthermore, the purpose of the drip pool to treat part or all of the treated water is to reduce the concentration of the influent wastewater, reduce the odor, increase the dissolved oxygen, serve as the influent water and reduce the wastewater temperature. Maintain the proper thickness of the biofilm. The ideal filter material should have the following conditions: the surface of the filter material is suitable for the formation and adhesion of biofilm, and is not subject to microbial decomposition; the nature and impurities of the material can make the wastewater self-distribute to its surface; The gap m is open to the air, and the square moon is supplied with oxygen. When the filter layer is completely distributed in the drip tank, the wastewater acts on the microbial membrane on the surface of the filter material. The most important thing is that the wastewater should be evenly distributed in the filter to avoid overloading the local biofilm and causing the water channel to block. 201111064 In fact, the biological treatment technology of the 'Linchi pool can be combined with other application technologies' and there is a need for further improvement in the biological treatment technology of the drip filter.

Another aspect is that the use of recycled tires is quite extensive and the waste tires themselves are not highly toxic. At present, the waste tire treatment # type includes mechanical milling, thermal cracking, auxiliary fuel, other prototypes, such as coastal engineering, and overseas output. After the powder is ground, the tire powder and the rubber lion granules can be mixed with the granules in appropriate proportions as a paving material. In view of the above, the present invention provides a waste tire filling method, a biological treatment method, and a biological body thereof, which utilizes a waste wheel to form a biofilm in a pool to achieve a drip biological treatment. Purpose; and ° add waste ic treatment load, and achieve the effect of sludge reduction 'can reduce the cost of sludge treatment. SUMMARY OF THE INVENTION The main object of the present invention is to provide a biological waste treatment for a waste tire filling process, which uses a waste tire array to form a biofilm in a drop filter. Μ1 has reached the goal of Dahong, this is a good implementation of the bribe filled with dripping biologicals when the money is poured:, the filling tire array will turn several waste wheels into the organic processing area to form at least one waste in the waste tire A biofilm is formed on the array; 201111064 The organic wastewater is shielded from the biofilm of the waste tire array, and air is introduced or naturally convected to the waste tire P to dip the organic wastewater. The waste tire filling drip filter biological treatment tank of the preferred embodiment of the present invention comprises an organic material rope, a waste wheel scale column and a water distribution pipe. The waste tire array is formed by a plurality of waste wheels, which are disposed in the processing area of the property, and a biofilm is formed on the array of the waste wheel. The water pipe corresponds to the waste tire array to disperse organic waste water through the waste tire array. The biological treatment tank of the preferred embodiment of the present invention further comprises at least one incoming air corresponding to the array of waste tires for introducing or naturally convecting air into the array of waste tires. In the preferred embodiment of the invention, the air inlet is located below the waste tire array. The waste tire array of the preferred embodiment of the invention has a plurality of drip vents. In the preferred embodiment of the invention, the drip venting hole is disposed on one side of the waste tire. In the preferred embodiment of the invention, the plurality of drip vents lie around the waste tire' and form a weir relative to the center of the waste tire. 90. 180. And 270. The corner of the game. In the preferred embodiment of the invention, the water pipe is connected to a circulating pump to circulate water from the organic wastewater. In the preferred embodiment of the present invention, the biological treatment tank further comprises an organic wastewater back to the 201111064 flow tank.

The biological treatment tank of the preferred embodiment of the present invention further comprises an organic wastewater collection tank. X The organic wastewater reflux tank and the organic wastewater collection tank of the preferred embodiment of the invention have a diffuser disk. The present invention will be described in detail below with reference to the preferred embodiments of the present invention, and is not intended to limit the invention. The waste tire filling drip filter biological treatment method of the preferred embodiment of the present invention can be applied to a single organic wastewater treatment system or disposed in front of or above the aeration tank, and can be optionally disposed on the river side, but it is not intended to limit the present invention. The scope of application. Further, the waste tire-filled drip filter biological treatment tank of the preferred embodiment of the present invention can be made into a single-tank, two-tank, three-tank or multi-tank type, but it is not intended to limit the scope of the present invention. The waste tire filling drip filter biological treatment method according to the preferred embodiment of the present invention comprises the steps of: first, arranging a plurality of waste tires in an organic material processing zone, and appropriately fixing the plurality of waste tires to form at least one waste tire array, The organic treatment zone is located in a biological treatment tank; then 'the biofilm is appropriately formed on the waste tire array by using microorganisms; then, the organic wastewater is introduced into the organic treatment zone, and the water is circulated to the biofilm of the waste tire array' and Air is introduced or naturally convected into the array of waste tires 201111064 to drip the organic wastewater. The waste tire-filled trickling biological treatment method of the preferred embodiment of the present invention can be applied to the waste tire-filled drip filter biological treatment tanks of the first to third preferred embodiments of the present invention, as described in detail below. Fig. 1 is a view showing a two-tank type waste tire filled drip filter biological treatment tank according to a first preferred embodiment of the present invention. Referring to the figure, the two-slot waste tire filling drip filter biological treatment tank according to the first preferred embodiment of the present invention comprises a first organic material processing area l〇a, a second organic material processing area 1〇b, and a The first waste tire array 11a, a second waste tire array 11b, a first water pipe 12a, a second water pipe 12b, a first circulation pump 13a, a second circulation pump 13b, a plurality of air inlets 14, and a The organic wastewater reflux tank 15, an organic wastewater collection tank 16 and a diffuser tray 17, are not intended to limit the scope of the invention. The arrangement of the components of the waste tire-filled drip filter biological treatment tank can be appropriately changed without departing from the spirit and scope of the invention. Referring again to Fig. 1, the first organic material processing zone 1a and the second organic material processing zone 10b are located above and below the biological treatment tank, respectively. The first organic treatment zone 10a is for treating volatile organic compounds 'voca and general organic matter, and the second organic treatment zone i is for treating general organic matter. The first waste tire array Ua and the second waste tire array lib are respectively accommodated in the first organic material processing area 10a and the second organic material processing area i〇b. Referring to FIG. 1 again, the first water pipe 12a and the second water pipe 201111064 l2b respectively correspond to the first waste tire array and the second waste tire array to disperse organic waste water through the first waste tire. The array 11a and the second waste tire array 11b. At this time, the biofilm of the first-waste tire array Ua and the second waste tire array lib can be subjected to bio-aerobic oxidation, decomposition or anaerobic digestion. The first waste tire array 11a is connected to the first circulation pump to pass the organic waste water in the organic waste tank 15 and the organic waste water collection tank 16 into the Pu ring through the first waste tire array 11a and the second waste tire. Array fairy. Similarly, the second waste tire array 11b is connected to the second circulation pump 13b to circulate the organic waste water of the organic waste water tank is and the organic waste water collection tank 16 through the first waste tire array 11a and the second Waste tire array fairy. Referring to FIG. 1 again, the plurality of air inlets 14 correspond to the first waste tire array 11a and the second waste tire array 11b, so as to circulate air or convect air directly to the first-waste tire array Ua. And a second waste tire array to provide oxygen required for biodegradation of organic matter. In the preferred embodiment of the present invention, the plurality of air inlets 14 are arranged below the second waste tire array, but they are recorded in detail. In the preferred embodiment, the air inlet 14 has a wind-driven device (for example, a fan) for forcibly passing air to the first waste tire array 11a and the second waste tire array, but it is not used The scope of the invention is defined. Please refer to Fig. 1 again, and the organic waste water return tank B and the organic waste water collecting tank I6 have the scattered clocks, and the domain will carry out the operation of the waste money. Between the organic wastewater reflux tank and the organic wastewater collection tank W, there is a 201111064, a connected waterway, and the organic wastewater reflux water of the organic wastewater reflux tank 15 is mixed with the organic inflow wastewater of the organic organic 7-stage collection tank 16 Shape mixed water. Referring to FIG. 1 again, the organic wastewater return tank 15 and the organic wastewater collection tank 16 can be removed from the first circulation pump 13a and the second circulation miller i3b via the first-distribution pipe 12a and the second. The water pipe 12b distributes the organic waste water through the first waste tire array na and the second waste tire array 11b. At this time, the plurality of air inlets 14 feed air into the first waste tire array and the second waste tire array 11b' to provide oxygen required for biodegrading organic matter. Finally, the organic wastewater is refluxed to the organic wastewater reflux tank 15. Fig. 2 is a top plan view showing the use of a waste tire array in a two-tank waste tire filling drip filter biological treatment tank according to a first preferred embodiment of the present invention. Referring to Fig. 2, the waste tire array U is formed by arranging a plurality of waste tires 11 ,, and a biofilm is formed on the inner surface and the outer surface of the waste tire 110. The waste tires of the waste tire array u are formed in a stacking manner above and below, that is, when two waste tires 11 are stacked on top of each other, the center of the two waste tires 110 is misaligned. The height of the waste tire array n of the preferred embodiment of the present invention is between 300 (1111 and 450 (:111), but it is not intended to limit the scope of the present invention. FIG. 2A discloses two of the first preferred embodiment of the present invention. The trough waste tire filling drip filter biological treatment tank adopts a schematic diagram of a single waste tire of the waste tire array. Please refer to Figures 2 and 2A again, the single waste tire 11〇 has four drip vent holes 111, the drip filter is breathable. The hole ιη is disposed on one side of the waste tire 11 。. Therefore, 201111064 has two drip vent holes 11 两侧 on both sides of the waste tire 110. The plurality of drip vent holes 111 are located around the waste tire 110, And forming an angle of 0, 90, 180, and 270 with respect to the center of the waste tire n〇. The diameter of the drip vent hole 111 of the preferred embodiment of the present invention is between 4.5 cm and 5 cm, but it is not The scope of the present invention is defined. Referring to FIG. 2 again, when the waste tire is stacked in a stack of 11 〇 or more, the waste tire 11 located above does not cover the waste tire 110 adjacent to the lower side. Drip filter vent hole 111. Figure 3 shows the second comparison of the present invention The schematic diagram of the three-tank waste tire filling drip filter biological treatment tank of the embodiment. Referring to FIG. 3, the three-slot waste tire filling drip filter biological treatment tank according to the second preferred embodiment of the present invention comprises a first organic substance. The treatment zone 10a, the second organic matter treatment zone (10), a third organic matter treatment zone 10c, a first waste tire array 11a, a second waste tire array, a third waste tire array 11c, and a first water pipe 12a a second distributed water pipe 12b, a first circulating pump 13a, a second circulating pump 13b, a plurality of air inlets 14, an organic waste water return tank 15, an organic waste water collecting tank 16, and a diffusing disk 17. Referring to FIG. 3 again, with respect to the first preferred embodiment, the three-slot waste tire filling drip filter biological treatment tank of the second preferred embodiment includes respectively adding the third organic matter processing area 10c and the third waste. The tire array nc, the relevant technical part of the remaining components can be incorporated into the reference to the first preferred embodiment, and will not be described herein. FIG. 4 discloses the two-slot waste tire filling of the third preferred embodiment of the present invention. Biological treatment tank combined with aeration tank The schematic diagram of the present invention is as shown in the figure *; the two-slot waste tire-filled drip biological treatment tank of the 5c example is combined with the first aeration tank 21 of the activated sludge tank, and the first- The aeration gas 21 is further connected to the second aeration tank 22 and the third aeration tank 23. Referring to the fourth embodiment of the present invention, the two-tank type waste tire filled with the biological treatment tank The invention comprises a first organic matter processing zone, a second organic matter processing zone 10b, a first waste tire array core, a second waste wheel, a tire array 11b, a first water pipe 12a, a second water pipe 12b, and The first circulation pump 13a, the second circulation pump 13b, and the plurality of air inlets 14. Referring to the fourth riding, the third preferred solid waste tire filling drip filter biological treatment tank corresponds to the first preferred embodiment, and the related art portion can be incorporated with reference to the first preferred embodiment. This will not be repeated. The foregoing preferred embodiments are merely illustrative of the invention and its technical features, and the techniques of the embodiments may be practiced with various substantial equivalent modifications and/or alternatives. The scope defined by the scope of patent application shall prevail. 201111064 [Simple description of the diagram] The first part of the first embodiment of the present invention is a two-slot waste tire filled drip filter biological treatment tank using the waste tire array. schematic diagram. a Figure: A two-slot waste tire filling drop according to a first preferred embodiment of the present invention. 2 is a schematic view showing a three-tank type waste tire filled with a drip filter biological treatment tank according to a second preferred embodiment of the present invention. Figure: Schematic diagram of a two-tank waste tire filled drip filter biological treatment tank combined with an aeration tank according to a third preferred embodiment of the present invention. 10c 11 111 11a 11c 12a 13a 14 16 21 23 10b second organic treatment zone 12b 13b 15 17 22 [Main component symbol description] l〇a first organic treatment zone second organic treatment zone waste tires, j drip filter Hole first waste tire array third waste tire array first bulk water pipe first 楯 ring pumped air 〇 organic waste collection tank first aeration tank third aeration tank 110 waste tire lib second waste tire array second loose water pipe Second circulating pump organic wastewater return tank diffuser disk second aeration tank 12

Claims (1)

201111064 VII. Patent application scope: 1. A hybrid tire biological treatment branch comprising the steps of: the tire array arranging a plurality of waste tires in an organic matter processing area to form at least a waste wheel forming a living body on the waste tire array Membrane; and the organic waste water is circulated in the waste tire _, and the air is person or natural convection on the waste tire _ 'so that the organic wastewater. • 2. According to the towel, please refer to the waste tire filling biological treatment method described in Item 1. The waste tire _ has several venting holes, and the vent hole is placed on one side of the waste tire. 3. A waste tire filled drip filter biological treatment tank comprising: - an organic matter treatment zone 'located at a specific location of the biological treatment tank; - an array of waste tires formed by arranging a plurality of waste tires, the waste tire array Set in the money secret _, and in the bribe wheel to form a biofilm; and - a water pipe, which corresponds to the waste tire _, the money machine waste water through the waste tire array. 4. The waste tire-filled biological treatment tank according to the third application of the patent application, wherein the another includes at least an air inlet corresponding to the waste tire array to allow air to pass or naturally converge on the waste tire array. . 5. The waste tire according to claim 4, wherein the waste air inlet is filled with the drip filter biological treatment tank, wherein the air inlet is located below the waste tire array. 13 201111064 6 The waste tire filled drip filter biological treatment tank described in the patent scope of the May 5th item, wherein the waste tire array has several honest and ventilated holes. 7 The waste tire according to the 6th patent scope of the application of the invention is filled with a drip biological treatment tank, wherein the droplet is disposed on one side of the waste tire according to the vent hole. 8 Retired Tire Filling Drip Bioreactor in the Shunqiu Patent Range 帛3 The troughs are located around the waste tire and form a crucible with respect to the center of the waste tire. 9, 〇. 18〇. And 27〇. The corner of the game. ... φ 9 is called the patented fine 帛 之 之 废 废 填充 填充 填充 填充 废 废 废 废 废 ’ ’ ’ ’ ’ ’ 废 废 废 废 废 废 废 废 废 废 废 废 废 废 废 废10. The waste wheel according to item 3 of the scope of the patent of the fourth aspect of the invention is filled with a biological treatment tank, wherein the biological treatment tank further comprises an organic wastewater reflux tank. 11 According to the general specification of the 1G item, the waste wheel is filled with a drip filter biological treatment tank, wherein the organic wastewater return tank has a gas disc. 12. The waste tire according to the third aspect of the patent application is filled with a drip biological treatment tank, wherein the biological treatment tank further comprises an organic waste water collection tank. 13. According to the application for the special -12 tire riding wheel crane biological treatment tank, the organic wastewater collection tank has a gas disc. 14. According to the towel, please refer to the miscellaneous tire filling biological treatment tank mentioned in item 3 of the special garden. The biological treatment tank is a two-slot biological treatment tank. 15. The waste tire filling biological treatment tank according to item 3 of the patent application scope, wherein the biological treatment tank is a three-tank biological treatment tank. 201111064 16. The waste tire according to claim 3, wherein the biological treatment tank is combined with an aeration tank. 15