KR200219789Y1 - Apparatus for sewage treatment of ship - Google Patents

Abstract

The present invention relates to a sewage treatment apparatus for treating sewage, such as manure, generated from a ship operating a sea or a lake in a ship, and has a compact and compact structure to fit a special environment of a ship. It has good treatment capacity, easy installation in narrow spaces, and adapts well to load fluctuations and temperature changes of ship sewage, such as manure, so that it is easy to maintain and improved. It relates to a marine sewage treatment apparatus.

The present invention, in the marine sewage (manure and marine sewage) treatment apparatus using the biofilm method, by fixing the concave-convex contact medium in the hollow sewage tank by the various microorganisms attached to the contact medium (media) Decomposition treatment, install an aeration tank and a treatment tank in the inner center of the sewage tank, install an acid pipe between the inner wall of the aeration tank and the outer wall of the treatment tank to facilitate sewage decomposition by microorganisms, ultraviolet rays installed in the treatment tank Sterilize E. coli of the treated water stored by the lamp, and at the same time, secondary oxidation occurs in the TiO ₂ coated plate subjected to ultraviolet rays, and the treated water is automatically discharged by an exhaust pump operated by a water level sensor installed in the treated water tank. It provides a ship sewage treatment apparatus.

Description

Ship sewage treatment system {APPARATUS FOR SEWAGE TREATMENT OF SHIP}

The present invention relates to a sewage treatment apparatus for treating sewage, such as manure, generated from a ship operating a sea or a lake in a vessel. Efficient treatment of sewage, easy installation in narrow spaces, easy adaptation to load fluctuations and temperature changes of ship sewage, such as manure, and easy to maintain, while generating a small amount of surplus sludge The present invention relates to a ship sewage treatment apparatus improved to be.

In general, a conventional method of storing and storing and oxidizing several manure tanks and processing by introducing air into the blower to perform substrate decomposition and cell synthesis by the microorganisms in the floating growth state in the tank (reactor) in which the marine sewage flows. Sewage treatment by biologically active sludge, and electrolysis.

However, the conventional storage method as described above requires a large-capacity tank because a large amount of marine sewage is stored and oxidized, and the amount of sludge produced increases, which causes sludge treatment.

In addition, the treatment method using biologically active sludge generates sludge bulking due to the formation of fibrous microorganisms during the treatment process, and it is not easy to maintain and maintain the sludge due to excessive sludge generation. In addition, since the device is enlarged for complete processing, it is not easy to install in a place where a small space such as a ship should be usefully utilized.

In addition, the conventional electrolytic treatment method is to crush the manure and the like to pass through them between the electrode plate formed with a narrow gap therebetween, so that decomposition and oxidation occurs by electricity, not only easy to crush, but also to electrolyze seawater Due to the strong oxidizing power of hypochlorous acid (HclO ₃ ) produced when the corrosion of the structure is easily made, the treated water may contain excessive hypochlorous acid may be a secondary pollutant.

The present invention is to solve the conventional problems as described above at the same time, the purpose is to have a compact (compact) and compact structure, to meet the special environment of the ship, good sewage treatment capacity, in a small space It is easy to install, and is well adapted to the load fluctuations or temperature changes of ship sewage, such as manure, easy to maintain the structure, while providing an improved ship sewage treatment apparatus to generate a small amount of excess sludge.

1 is a longitudinal sectional view showing a vessel sewage treatment apparatus according to the present invention;

Figure 2 is a plan sectional view showing a vessel sewage treatment apparatus according to the present invention;

Figure 3 is a side view showing a spiral flow path provided in the ship sewage treatment apparatus according to the present invention;

4 is a layout view of an ultraviolet lamp and a TiO ₂ coating plate provided in the marine sewage treatment apparatus according to the present invention, a) is a vertical cross-sectional view, b) is a cross-sectional view taken along line AA).

Explanation of symbols on the main parts of the drawings

3 ..... inlet 5 ..... sewage tank

7 ..... aeration tank 8 ..... screen

10 ..... media 12 ... diffusers

15 ..... Blower 20 ..... Treatment tank

30 ... UV lamp 35 ..... TiO ₂ coated plate

37 .... Treatment water inlet pipe 40 .....

42 .. Upward Conduit 52 ..... Outlet

55 .... exhaust pump 60 ..... support net

70 .... Air Vent

In order to achieve the above object, the present invention, in the marine sewage (manure and marine sewage) treatment apparatus using the biofilm method, the contact medium is fixed by fixing the concave-convex contact medium inside the hollow sewage tank in which the inlet is provided Decomposition and treatment of marine sewage by various microorganisms attached to the media, install aeration tank and treatment water tank in the inner center of sewage tank, spirally aeration by installing diffuser and guide plate under the aeration tank. The sewage decomposition is performed well, and the E. coli of the treated water stored by the ultraviolet lamp installed in the treatment tank is sterilized, and the treated water is automatically discharged to the outside by the discharge pump operated by the water level sensor installed in the treatment tank. By providing a marine sewage treatment apparatus characterized in that the configuration.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

Vessel sewage treatment apparatus 1 according to the present invention is a vessel sewage treatment (manure and vessel sewage) treatment apparatus using the biofilm method, a hollow, preferably rectangular or circular sewage tank (5) inside the concave-convex contact The media 10 is fixed in an upright position to treat marine sewage by various microorganisms attached to the contact media 10.

To this end, the present invention, as shown in Figures 1 and 2, the inlet (3) is installed in the inner center of the sewage tank (5) provided on one side of the circular treatment tank 20 and the aeration tank (7) outside the ), A diffuser 12 is installed below the aeration tank 7, and a blower 15 for supplying air to the diffuser 12 is provided outside the sewage tank 5. The diffuser 12 is provided with a plurality of pipe nozzles 12a on the upper side and distributes and supplies air through the nozzles 12a.

Then, a spiral guide separation plate 25 is formed between the inner wall 5a of the aeration tank 7 and the outer wall 20a of the treatment tank 20 to form a spiral flow path, and a diffuser pipe 12 is disposed on the lower side thereof. ) Is arranged so that the air pressurized from the blower 15 is floated in a spiral of 2-4 together with the sewage, thereby forming a circulation structure of the sewage in the sewage tank 5.

The spiral flow path as described above is illustrated in detail in FIG. 3, which forms a spiral guide separator 25 between the inner wall 5a of the aeration tank 7 and the outer wall 20a of the treatment tank 20. The air and filthy water passing through the spiral flow path greatly increase the contact time of oxygen and filthy water in the air, so that the dissolution time is increased by maximizing the oxygen dissolution time in the air in the filthy water.

On the other hand, the UV lamp 30 and the TiO ₂ coating plate 35 is disposed on the upper side of the treatment tank 20, which flows from the sewage tank 5 to the treatment tank 20 through the inlet pipe 37. When the ultraviolet lamp 30 for sterilization doeeojim while TiO ₂ kotingpan 35, the photocatalytic agent TiO ₂ is with a strong oxidizing power receiving ultraviolet OH coated by ^- generates a group to be discharged after the secondary oxidation occurs .

The structure of the ultraviolet lamp 30 and the TiO ₂ coating plate 35 is shown in FIG. 4.

That is, the ultraviolet lamp 30 and the TiO ₂ coating plate 35 are provided in the upper holding space 40 of the treatment tank 20, which is the ultraviolet lamp 30 is disposed in the center of the holding space 40. In this case, a plurality of TiO ₂ coating plates 35 are radially disposed on the retention space 40 partition walls, and are also attached to the bottom of the partition walls. In FIG. 4B), eight TiO ₂ coating plates 35 are mounted around the UV lamp 30 at equal circumferential intervals, but the present invention is not limited thereto, and appropriate number of sheets is provided according to the size of the staying space 40. You can do it.

In addition, a downward induction pipe 42 is formed at the inlet passing from the inflow pipe 37 to the retention space 40 to supply the sewage to the lower side of the retention space 40 to discharge the wastewater to the upper side of the retention space 40. In this process, the UV lamp 30 sterilizes E. coli and passes through the TiO ₂ coating plate 35 to perform secondary oxidation.

In addition, a water level sensor 50 installed vertically is located in the treatment tank 20, and a discharge port 52 is formed at a lower end of the treatment tank 20, and the discharge port 52 is discharged through a pipe. 55 is connected to be configured to discharge the treated water to the outside.

Reference numerals (8) denote screens, (60) support nets, (62) washing water supply pipes, (63) washing air supply pipes, and (65) acid boards.

The marine sewage treatment apparatus 1 of the present invention configured as described above is finely broken and filtered while passing through the screen 8 installed in the sewage tank 5 through the sewage inlet 3. Falls on (5). Vessel sewage, such as manure, introduced into the sewage tank 5 descends through the contact media 10 installed upright in the sewage tank 5, and microorganisms (aerobic, Substrate sedimentation and cell synthesis by various kinds of bacteria of randomness and anaerobic) and the sewage of marine vessels are decomposed and the contact medium 10 is put into the sewage tank 5 as described above. Since many microorganisms of various kinds are attached to the contact medium 10, the microbial production per unit organic material consumption is small.

In addition, the present invention compared to other methods, biodegradable microorganisms of aerobic, random and anaerobic bacteria species inhabit the marine sewage, such as manure decomposes the treatment equipment is simple and easy to maintain, the effect of temperature It is small and adapts well to the load variation of organic matter, and it is possible to obtain good effluent quality without returning the sludge, and little sludge is generated, and it can adapt well to the load variation.

Then, the diffuser 12 and 2-4 pipe nozzles 12a are installed on the lower side of the aeration tank 7 to aeration air into the blower 15 to supply oxygen sufficiently. In addition, a spiral guide separation plate 25 is inserted between the inner wall 5a of the aeration tank 7 and the inner wall 20a of the treatment water tank 20 so that air and sewage float in a spiral manner and float. To increase the dissolution time of the oxygen contained in the so that the dissolution is made well, and to distribute the oxygen evenly in the contact medium 10 to create the optimal conditions for the growth of microorganisms to improve the treatment efficiency.

In addition, the oxidized and decomposed vessel sewage flows through the residence space 40 through the treated water inlet pipe 37 to the treated water tank 20 at the lower side of the sewage tank 5 and automatically flows into the treated water tank 20. In the process, the E. coli of the treated water is sterilized by using the strong UV sterilizing power of the UV lamp 30 by contacting the UV lamp 30, and the TiO ₂ mounted inside the holding space 40 outside the UV lamp 30. TiO _{2, which} is a photocatalyst of the coating plate 35, receives ultraviolet rays to generate OH ⁻ groups having strong oxidizing power, and then flows into the treatment tank 20 after the secondary oxidation occurs.

In addition, the treated water filled in the treatment tank 20 is automatically discharged out of the ship through the outlet 52 by the discharge pump 55 under the control of the water level sensor 50 installed in the treatment tank 20. On the other hand, structures such as the contact medium 10, the treated water tank 20 and the diffuser 12, and the wash water supply pipe 62 inside the sewage tank 5 have a strong PVC resistance (or equivalent material or more). To increase durability.

In addition, an air vent (70) is installed on the sewage tank (5) and the treatment water tank (20), and the washing in the sewage tank (5) is performed through the washing air pipe (63) and the nozzle (63a). It is washed by the introduced air and the washing water introduced through the washing water supply pipe 62 and the washing water may be discharged through the discharge pump 55.

In addition, the upper and lower portions of the contact medium 10 are fixed to the upper and lower inner and outer walls of the sewage tank 5 and the aeration tank 7 by a contact medium support net 60 made of stainless steel, respectively, and the contact medium 10 therebetween. ) To protect and support

As described above, the vessel sewage treatment apparatus 1 of the present invention treats marine sewage by a biofilm method, and the sewage is treated by performing substrate decomposition and cell synthesis by microorganisms attached to the contact medium 10. Since the filter medium 10 is installed in the sewage tank 5, many kinds of microorganisms of various kinds are attached to the contact filter 10 than the method by the activated sludge, thereby reducing the amount of microorganisms produced per consumption of the unit organic material. In addition, by forcibly aeration of air in the sewage circulating through the spiral flow path to provide the optimum conditions for aerobic microorganisms to survive.

Then, the oxidized and decomposed vessel sewage flows into the holding space 40 through the treated water inflow pipe 37 from the sewage tank 5 toward the treated water tank 20, and automatically flows into the treated water tank 20. by the ultraviolet lamp 30 in contact with sterilizing strong ultraviolet E. coli of the treated collected using a germicidal lamp 30 to, and the ultraviolet lamp 30 TiO ₂ kotingpan 35 of the outer side in the process of photocatalytic agent TiO ₂ Is subjected to ultraviolet rays to generate OH ^- group having a strong oxidizing power to cause the secondary oxidation occurs to flow into the treatment tank (20).

Therefore, compared to the perforation method, biofilms inhabit various aerobic, random and anaerobic microorganisms to decompose marine sewage, such as manure, and to increase the solid retention time (SRT), so that sludge is returned. Good effluent quality can be obtained without.

In addition, the compact and simple processing equipment facilitates maintenance and adapts well to load fluctuations such as temperature influence and organic matter inflow.

As described above, according to the present invention, the structure is compact and small, so that it can be installed even in a narrow space of the ship, the processing equipment is simple, maintenance is easy, the influence of temperature is small, and adaptation to the load fluctuation of organic matter is good In addition, it has the advantage that a good outflow water quality can be obtained without the return of sludge. In addition, it is possible to contribute to the prevention of marine pollution by ship sewage, such as manure because it is superior to the conventional method.

Claims (4)

In the marine sewage treatment (manure and marine sewage) treatment apparatus using the biofilm method, By fixing the concave-convex contact medium 10 inside the hollow sewage tank 5 provided with the inlet 3, the marine sewage is decomposed by various microorganisms attached to the contact medium 10, and the sewage tank 5 In the center of the inside is installed a circular treatment tank 20, and a circular aeration tank (7) is installed on the outside, the acid pipe 12 is installed in the lower portion of the aeration tank (7) to prevent sewage decomposition by microorganisms It is made well, sterilize E. coli of the treated water stored by the ultraviolet lamp 30 installed in the treatment tank 20, the treated water is operated by the water level detector 50 installed in the treatment tank (20) Ship sewage treatment apparatus, characterized in that configured to be automatically discharged by the discharge pump (55). The helical guide separating plate 25 is mounted between the inner wall 5a of the aeration tank 7 and the outer wall 20a of the treatment tank 20, and the diffuser 12a from the blower 15 is mounted. Vessel sewage treatment apparatus characterized in that the air is pushed through the 2-4 spiral in conjunction with the sewage while floating to increase the dissolved residence time of oxygen as possible to dissolve well. The TiO ₂ coating plate 35 is disposed outside the UV lamp 30, and the TiO ₂ coating plate 35 is coated with a photocatalyst TiO ₂ to receive the UV light of the UV lamp 30. Vessel sewage treatment apparatus characterized by generating the OH ^- group having a strong oxidizing power to cause a secondary oxidation action, and then discharge the treated water. According to claim 3, wherein the UV lamp 30 is disposed in the center of the upper residence space 40 of the treatment tank 20, a plurality of TiO ₂ coating plate 35 is the center of the residence space 40 partition wall It is disposed radially to the inlet pipe 37 from the inlet to the inlet space 40, the downward induction pipe 42 is formed to supply the sewage to the lower side of the retention space 40 to the retention space 40 Sewage is to proceed to the upper side of the sewage is a marine sewage treatment apparatus, characterized in that the ultraviolet lamp 30 sterilizes E. coli and passes through the TiO ₂ coating plate 35 to oxidize organic matter.