KR100922298B1 - An apparatus for the reducing periphyton and scum development on the wall of sedimentation pond in water treatment plant - Google Patents

Abstract

The present invention relates to an apparatus for reducing algae and scum generation on the wall of a water purification plant, and installing a floc preventing plate (1) on the flocculant and the wall of the water purification plant (W). The slide is moved along the wall of the water purification plant at a speed that does not increase the fluidity of the water, and stays in the water purification plant due to the interference of the floc attachment prevention plate 1 installed and moved close to the wall surface (W). It is possible to effectively prevent the floc contained in the water being attached to or grow on the wall surface W, thereby preventing the scum from being generated.

Water Purification Plant, Flock, Scum, Screen

Description

An annex for the reducing periphyton and scum development on the wall of sedimentation pond in water treatment plant}

The present invention is a scum by a simple physical method by analyzing the cause to solve the problem that the excessive cumulative phenomenon, adherence and floating algae of scum in the industrial water treatment plant to continue to increase the difficulty in management and evaluation of water purification plant The present invention relates to a device for reducing algae and scum generated on the wall of a water treatment plant to reduce the amount of water efficiently.

The industrial water purification process does not have a filtration process unlike general water purification plants for the production of drinking water. As a result, the water supplied to the final consumer is untreated and sent back. Therefore, the content and size of particles up to the precipitation process, which is the previous stage, can be a very important consideration in customer satisfaction analysis, and the emerging problem in industrial water purification plants is the occurrence of adherent algae and scum that are prevalent in flocculation and sedimentation basins. It is an occurrence.

Most scums produced in water treatment plants consist of a mixture of floc flocs and adherent algae. Microalgae in water purification plants can cause disturbances and worsen water quality in each unit process of flocculation, precipitation, filtration, computerization or post-processing. Reducing algae problems can be broadly categorized into pretreatment steps and improving water purification processes. For raw water, there will be a way to proactively reduce algal outbreaks through direct removal techniques and water quality management.

In the former case, the physical treatment of solids removal using a microstrainer (AWWA, 1990), chemical treatments such as copper sulfate (CuSO ₄ ) (Chung et al., 1998) and algae removal using microorganisms (Korea Institute of Construction Technology, 1989), and in the latter case, there are methods of removing pollutants, aeration into hypopolimnions, and dredging of low-grade sediments (Scott, 1988).

In particular, many studies on particle size removal efficiency according to the type and treatment method of flocculant have been conducted in Korea. In spite of various studies on algae problems, it is common in Korea to rely on pre-chlorine or pre-ozone treatment when algae occurs largely (Korea Water Association, 1997). Most water treatment plants intake from the lower and lower Nakdong River are treated with all ozone (Kim et al., 1994). Various methods have been attempted to replace each unit process in a different manner in the water purification process. In recent years, the existing sedimentation process has been replaced by the dissolved air flotation (DAF) method, and the change of the backwashing method of the filter paper (Jung, 1997).

In nature, a variety of adherents grow on a surface of an object in water to cover substrates and form a biofilm to form a unique biome. In general, periphytons that adhere to the substrate are initially complex complexes of microorganisms, microalgae, nematodes, polychaete and shells, resulting in complex adherent structures. (macrofilm).

Substrate coating by adherent organisms, commonly referred to as fouling, can be a major contributor to corrosive substrate surfaces or to disrupt the function of underwater objects or instruments (Railkin, 2004). Colonization of organisms on the surface of objects in water is distinguished from free-floating or buoyant biota. Adherent organisms cover not only natural objects such as stones, rocks, and plants, but also the surfaces of artifacts such as cement, plastics, rebar, trees, etc., and undergo various variations and succession processes depending on the type of substrate and the water environment.

On the other hand, when the organisms adhere to the surface of the flocculant and the sedimentation wall of the water purification plant, unlike the natural water of the rivers and reservoirs, there are few animals such as small animals or mollusks, and only microalgae are mainly observed. The algae layer is a large 1 mm thick film or sheet composed of filamentous cyanobacteria, easily separated from the substrate. On the other hand, in natural waters, the paths of adherent organisms are mainly infested with bacteria and diatoms, and in general, the predominance of diatoms and cyanobacteria is high (Railkin, 2004). However, the algae that occur on the walls of the water purification plant are mainly composed of 10 species of filamentous cyanobacteria of Oscillatoria or Phormidium family, and the proportion of diatoms is relatively small. Diatoms are mainly observed in their crust, and live diatoms are somewhat observed with the cyanobacteria, or sometimes Achnanthes Minutissima species also form large clusters of thick yellow-brown clumps.

In the water treatment plant, the mat of the attached algae is attached to the cement wall via a floc layer. As mats of adherent algae mature in the flocculant and sedimentation wall surfaces, the floc layer below the algae layer separates from the wall and rises as a scalp above the sediment surface. As the attached algae mature, they detach from the wall and float on the surface, forming an "algal scum." Adherent algae that occur on the flocculant and sedimentation basin walls are thin mats that can be easily separated when the floc dense under the algae. Desorption of adherent algae on the walls of the water treatment plant may be affected by natural reactions such as water temperature changes, but more often associated with frequent water level fluctuations within a limited space, and it promotes growth at high water levels when water is supplied. During the low water phase, it is dehydrated and falls off the wall. Attached algae grow frequently in May-June, September-October, and grow spontaneously even in the case of low rainfall in summer.

Sedimentation basins appear to create an environment in which the secondary algae grow by attaching and depositing some flocs on the wall before the algae. The lower floc layer is a yellow mass of clay and coagulant, which is distinguished from the algal layer. When the floc is taken and the pore water is extracted and analyzed, there are differences depending on the time of measurement, but very high nutrient concentrations in the pore water are observed. PO ₄ concentrations of pore water in flocs are detected at high concentrations compared to the sedimentation basin water, which is thought to contribute to the development of algae growth and to the growth of adherent algae.

When the mat of the attached algae matures on the wall, the floc layer below the algae layer separates from the wall and floats on the water in algae scum. The adherent algae detached from the wall overflow to the final filter paper and float for a long time on the water surface of the filter paper. Scum phenomena of adherent algae can eventually cause clogging of the filter paper or shorten the backwash cycle. In addition to backwashing, lumps of adherent algae detached through the settling basin are suspended in the filter paper, which may cause aesthetic discomfort and deteriorate the water quality after the flocculation and settling process. If you don't, you will repeat it continuously.

On the other hand, techniques for inhibiting the growth and growth of adherent organisms have been tried for a long time by physical and chemical methods. Antifouling is a method of inhibiting the development of adherent organisms by developing physical methods of abrasion and desorption with machines or droplets (Rasmussen, 2004) and developing special paints or coatings (Tsukerman and Rukhadze, 1996) or utilizing materials. And the like have been used. The effects of radiation on living organisms (Makarova, 1990) or ultrasonic methods (Shadring, 1995) have also been used to eliminate or inhibit the development of adherent organisms.

Antifouling paints or enamels have been developed to use a kind of biocide (Garevich, 1989). Chemicals to prevent heavy metals, arsenic, chlorine and fouling have been developed and used, but there are limitations due to the fact that they are harmful to living organisms and difficult to prevent the occurrence of adherent organisms. On the contrary, the technical review of the method of eradicating adherent algae generated at the facility wall of the water purification plant is more limited due to the stability of drinking water and the method which can be applied is limited.

Recently, measures to reduce the occurrence of algae attached to water treatment plants using new materials such as ceramics have been studied in Korea (Ahn et al., 2004). On the other hand, at the water purification plant site, a vinyl screen to block sunlight on the sedimentation basin was installed to test the effect of suppressing the occurrence of algae, and it is known that a significant effect was obtained by feeding the algae on the sedimentation basin.

An object of the present invention is to provide a method for removing or suppressing the algae that occurs spontaneously in a water purification plant, which is also an important problem in securing the stability of tap water, and to the problem of generating a taste taste substance by the algae in the water purification plant. In this regard, continuous research will be needed. Considering the special environmental conditions of the water purification plant, it may be possible to develop a new material that suppresses the occurrence of adherent algae or to eradicate adherent algae by mechanical means.

In order to achieve the above object, the present invention is to reduce the occurrence of scum from the first two approaches to physically prevent the floc from adhering to the wall surface, and the other is the attachment algae formed by using the floc layer as a substrate In order to prevent the development of the layer in advance, a floc attachment prevention plate made of stainless steel or the like is installed in close proximity to the water purification plant wall, and this floc attachment prevention plate is used at a speed that does not increase the fluidity of the water in the purification plant. The present invention provides a device for reducing algae and scum occurrence in the sedimentation basin wall surface in which the floc particles in the water purification plant are prevented from adhering to the water purification wall or adhering algae to develop.

Apparatus for reducing algae and scum occurrence on the wall of the water purification plant according to the present invention can effectively reduce the industrial water purification plant scum, thereby maximizing environmental improvement, and solving the off-flavor problem by preventing the occurrence of algae, and producing high quality industrial water. It can have useful effects such as improving customer satisfaction and enhancing corporate image, and supplying industrial water suitable for customer demand.

Hereinafter, with reference to the accompanying drawings, preferred embodiments that do not limit the present invention will be described in detail.

1 is a front view of a water purification plant in which an attachment algae and a scum occurrence reduction device of a water purification plant sedimentation basin wall according to the present invention are installed, and FIG. 2 is a side cross-sectional view of an attachment algae and a scum generation reduction device of a water purification plant sedimentation basin wall surface according to the present invention.

As shown in FIG. 1 and FIG. 2, the present invention provides a floc adhesion preventing plate 1 made of a stainless steel material or the like close to the agglomeration and sedimentation wall surfaces of a water purification plant. The slides are moved along the wall of the water purification plant at a speed that does not increase the fluidity of the water, thereby preventing the floc particles in the water purification plant from adhering to the water purification plant walls or the development of algae.

In order to reduce the weight of the floc attachment prevention plate 1, a fine metal screen 3 (mesh) is preferably installed inside the frame 2 as shown in the drawing, but the present invention is not limited thereto. It can also be formed from a stainless steel sheet.

In the present invention, the rollers 4 are attached to the upper and lower portions of the frame 2 of the flock attachment preventing plate 1, respectively, and the rollers 4 are seated on the flocculents and settler wall surfaces W of the water purification plant. The rails 5 to be slid are installed in parallel by the rail bracket 6 at regular intervals up and down, and the rails 5 are continuously installed back and forth along the surface of the flocculent and sedimentation basin walls W of the water purification plant. .

On the other hand, the flock attachment prevention plate 1 has a vertical length and a width of right and left each of approximately 1 meter or less, so that the flock attachment prevention plate 1 slides along the rail 5 gradually, It is possible to prevent the floc from adhering to the entire wall of the flocculation paper and the settling basin, and the driving mechanism for the slide of the floc adhesion preventing plate 1 is as follows.

First, the driving and driven sprockets 7 and 8 are fixedly installed at the front and rear ends of the upper rail 5, respectively, and the chain 9 having an orbital shape is formed between the driving and driven sprockets 7 and 8, respectively. It is connected.

The flock attachment prevention plate 1 is fixed to the chain 9 by a fixing bracket 10 so that the slide movement is performed forward and backward by forward and reverse rotation of the chain 9.

In addition, the drive sprocket 7 is driven by the power of the drive unit (D) installed on the ground, the drive unit (D) is composed of a drive motor 11 and a reducer 12 of the geared motor type, reducer 12 A power transmission unit E for power transmission is installed between the drive sprockets 7 at an output shaft of the power transmission shaft, and the power transmission unit E has two power transmission chains 13 and 14 and sprockets at both ends. (15, 16) is attached and consists of one common shaft (17) fixed to the inner wall of the flocculent and sedimentation basin of the water purification plant.

Reference numeral 18 in the figure is a fixing bracket for fixing the common shaft 17.

On the other hand, the front end and the rear end of the rail (5) is not shown in the drawing, but the limit switch for changing the direction to the reverse (forward) in the state that the flock attachment prevention plate 1 is the most forward (or backward) is installed By this limit switch, the drive motor 11 of the drive unit D is automatically rotated forward and backward. Such a change in driving direction is obvious to the skilled person in the art to which the present invention pertains. Detailed description thereof will be omitted.

According to the present invention configured as described above, when the driving motor 11 of the driving unit D rotates in one direction, the driving force is converted to a slower speed through the speed reducer 12 and the driving torque is enhanced in the state of the power transmission unit E. And the drive sprocket 7 receives power from the power transmission unit E so that the chain 9 rotates in one direction, thereby preventing the floc attachment prevention plate 1 suspended from the chain 9. Is to move forward (or backward) at a slow speed along the rail (5) without causing the fluidity of the water in the water purification plant, and is installed and moved in a state close to the wall (W) (1) It is possible to effectively prevent the floc contained in the water staying in the water purification plant to adhere to or grow on the wall (W) by the interference of the scum.

1 is a front view of the attachment algae and scum occurrence reduction device of the water purification plant wall surface according to the present invention,

Figure 2 is a side cross-sectional view of the attachment algae and scum occurrence reduction device of the water purification plant wall surface according to the present invention.

* Explanation of symbols for the main parts of the drawings

1: Flock attachment prevention plate 2: Frame

3: metal screen 4: roller

5: rail 6: rail bracket

7: driving sprocket 8: driven sprocket

9: chain 10: fixing bracket

11: drive motor 12: reducer

13,14: power transmission chain 15,16: sprocket

17: common shaft 18: fixed bracket

D: drive part E: power transmission part

Claims (4)

delete delete The floc adhesion prevention plate 1 is installed on the flocculent and sedimentation wall surface W of the purification plant, and the floc adhesion prevention plate 1 slides along the wall of the purification plant at a speed that does not increase the fluidity of the water in the purification plant. Apparatus for reducing algae and scum generated on the wall of a water treatment plant; Rollers 4 are attached to upper and lower portions of the floc preventing plate 1, respectively, and rails 5 on which the rollers 4 are seated and slide on the agglomerate and settler wall surfaces W of the water purification plant are rails. The brackets 6 are installed in parallel at regular intervals up and down, and the rails 5 are continuously installed back and forth along the agglomeration and sedimentation wall surfaces W of the water purification plant, and the front and rear ends of the rails 5 are installed. Drive and driven sprockets 7 and 8 are fixedly installed therein, and between the drive and driven sprockets 7 and 8, an endless chain 9 is connected, and the flock attachment prevention plate 1 is fixed. Fixing algae and scum occurrence reduction device on the wall of the water purification plant characterized in that the bracket (10) is fixed to the chain (9) and slides forward and backward by forward and reverse rotation of the chain (9). The method according to claim 3, The drive sprocket (7) is driven by the power of the drive unit (D) consisting of a geared motor type drive motor 11 and a reducer 12 installed on the ground, the drive sprocket (in the output shaft of the reducer 12) 7) The power transmission unit (E) for power transmission is installed between the power transmission unit (E) has two power transmission chains (13, 14) and sprockets (15, 16) attached to both ends of the water purification plant Apparatus for reducing algae and scum generation on the sedimentation basin wall surface, characterized in that it consists of a common shaft (17) fixed to the inner wall of the flocculation basin and sedimentation basin.

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