KR20090098171A - Water pollution prevention apparatus - Google Patents

Abstract

An apparatus for preventing water contamination is provided to save energy which is used for driving of a facility, and facility maintenance and repair cost, and to improve water quality with low cost. An apparatus for preventing water contamination comprises a pump(12), a pipe, a chemical injecting unit, and a solid-liquid separating unit. The pump transfers water from a water supply place(10) to the other space. The pipe transfers the water moved by the pump. The chemical injecting unit is mounted on the pipe. The chemical injecting unit injects chemicals for processing water flowing according to the pipe. The solid-liquid separating unit is mounted on the pipe or an extension part.

Description

Water pollution prevention apparatus

The present invention relates to a water pollution prevention device that can preserve the water environment such as rivers, lakes, artificial water tanks, etc., and can improve the treatment conditions of water.

With the improvement of living standards, the amount of waste discarded is only increasing, and accordingly, the water pollution level of water intake sources is getting higher and higher than the limit of self-cleaning capacity.

In recent years, water pollution such as rivers and lakes has been pointed out as one of the biggest causes of the increase of eutrophic substances such as phosphorus (P) and nitrogen (N), especially the increase in phosphorus is more problematic.

Phosphorus is a vital component of living cells and is an essential component of energy metabolism. This increase in phosphorus concentration in water results in an explosion of plankton, including algae, resulting in light-blocking and oxygen concentrations in the lower layers of water systems. Destroying ecosystems by bringing degradation.

Algae collectively refers to a microbial species that contains chlorophyll, which has photosynthetic capacity. Algae produce organic matter and produce oxygen during photosynthesis, which increases the concentration of dissolved oxygen in the water, but also depletes the oxygen in the night due to oxygen breathing at night. There is also the problem of harm. In addition, the proliferation of algae causes a unique smell and taste depending on the type, so that the water conversion mirror is not comfortable, and there is a problem that the treatment cost increases and the quality of the treated water is reduced during the purification process.

In general, water treatment involves <1> admixture (mixing of water and flocculant) → <2> flocculation (mixing floc and flocculant in water to form flocs) → <3> sedimentation (setting of flocs formed) → <4> Filtration (the process of filtering out unsedimented suspended solids using filter media) → <5> Disinfection (the process of sterilization using chlorine, etc.), followed by inorganic suspension such as mud in water The material is relatively easily sedimented and removed during the treatment process, whereas algae are hydrophilic and self-floating, which does not settle easily, thereby causing the filter medium to easily clog in the subsequent filtration process, thereby reducing the water treatment efficiency. In addition, it is very important to suppress or eliminate the generation of algae in the water, since the algae filtered by the media will decompose to give a bad smell and taste and produce nitrite harmful to the human body.

Algae are themselves biochemical oxygen demand (BOD) and chemical oxygen demand (COD) substances and contain pollutants containing phosphorus and various nutrients such as nitrogen, potassium (K) and magnesium (Mg). Silver is about 0.87%, nitrogen is about 6.3%.

An easy way to remove algae from the water is to add a chemical that kills algae, such as chlorine or herbicides, or to filter out individuals using gold mesh or filter cloth. The problem of secondary pollution by the carcass can occur, and the removal method using the latter medium is difficult to apply because of the slow processing speed and high cost.

In order to remove odors and tastes that occur as the concentration of algae increases, a granular active filtration facility, which is an organic material adsorption removal device, needs to be added, and at a higher concentration, there is also a problem of adding a relatively expensive ozone treatment facility.

Algae is the only method to remove algae from a large amount of water after the algae adheres to the air bubbles called the pressure flotation method or flotation separation method. It is not easily adopted due to the increase in operating costs for water pumping.

On the other hand, in the water use process, water is withdrawn from a source of relatively abundant water resources, and is then sent to a place of use through a pipeline to be used as tubular or environmental water, or temporarily stored in a reservoir, and then purified as needed. It is usually used after the treatment process, in which the intake pump, the transportation pump, and the pipeline merely serve to transport the water to another place.

In the present invention, when the intake water contains a large amount of suspended solids such as algae, problems such as destruction of the ecosystem and deterioration of the landscape caused by the place where the water is sent, and efficiency and cost reduction of the purified water treatment process, and reduced purified water quality It provides an economical water pollution prevention device that can solve the problems such as.

According to an embodiment of the present invention, a pump for pumping water out of a water source and transported to another place, a pipeline for receiving and transporting the water pumped out, the water is installed in the middle of the pipeline to the treatment of water to flow along the pipeline Chemical injection means for injecting the medicine for the separation, solid solution separation for separating the suspended substance in the water injected with the chemical is mounted on the pipe or its extension so that the water is located beyond the drug injection means along the flow direction of the pipe Provided is a water pollution prevention device including means.

In addition, according to an embodiment of the present invention, the water pollution prevention device is mounted in the middle of the pipeline so that the water is located before passing through the solid-liquid separation means along the direction flowing through the pipeline to the solid-liquid separation means along this pipeline. It may further include an air injection means for injecting air into the flowing water in the form of gas or pressurized water. At this time, the air injection means may be configured to be able to control the pressure and the amount of injected compressed air and injected.

In addition, according to an embodiment of the present invention, the water pollution prevention device is mounted to the pipeline so as to be located between the drug injection means and the solid-liquid separation means is at least one stirrer for mixing the water and the injected medicine along the pipeline It may further include.

The conduit may be bent at least a portion in a predetermined pattern so that turbulence of water injected with chemicals is generated therein.

The drug injection means may be configured to be able to inject a liquid drug and to specify the amount of the drug to be injected.

The solid-liquid separation means may include at least one of a means for removing the suspended suspension material and a means for removing the suspended suspension material.

According to another embodiment of the present invention, a pump for pumping water from a water intake source to another place, a pipeline for receiving and transporting the water pumped out, the air is installed in the pipeline to the air flowing in the (B) air-injection means for injecting the pressurized water, mounted on the conduit or its extension portion so that water is located beyond the air-injection means along the direction of flow of the conduit to separate suspended matter in the water-injected water from the water; There is provided a water pollution prevention device comprising a solid-liquid separation means.

Water pollution prevention device according to an embodiment of the present invention is a bar that is installed in the pipe or the connection portion to remove the suspended substances such as algae contained in the water during the process of water intake and transport, When installing a facility for prevention, not only can the facility cost and energy required for its operation be reduced, but also the land area can be reduced, which is very advantageous in terms of economy. In particular, when water intake or water supply facilities are already in operation and added, only minimal equipment at the end of the pipeline can be used to sufficiently remove the suspended substances.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

1 is a block diagram showing a water pollution prevention apparatus (hereinafter referred to as 'first embodiment') according to a first embodiment of the present invention, as shown here, the first embodiment is a water intake source 10 A water intake pump 12 installed to pump water (hereinafter referred to as “raw water”) of the water intake source 10, and the raw water discharged by the water intake pump 12 to the freshwater destination 22 to receive this raw water. It includes a water pipe 14 for conveying.

In addition, the first embodiment includes at least one air injecting means and a chemical injecting means for injecting air and chemicals required for treatment into raw water flowing along the water pipe 14 to the fresh water destination 22, raw water and the raw water. At least one stirrer 16 for mixing the chemicals injected into, and solid-liquid separation means for separating various suspended substances such as algae in the raw water mixed by the stirrer 16 from the raw water.

Here, it is preferable that the water intake source 10 is a river or a lake with abundant water in general. And the fresh water destination 22 may be a river or an appeal, artificial reservoir.

Intake pump 12 provides the pressure needed to pump raw water from intake source 10 and to deliver the raw water to freshwater source 22, where the freshwater source 22 is located far away or relatively high. When present, or when it is necessary to send a large amount of water may be provided with one or more auxiliary pumps in addition to the water pipe (14).

Water pipe 14 constitutes a pipeline through which raw water flows. As the water pipe 14, for example, a pressure resistant pipe made of steel can be applied.

For reference, the water supply pipe 14 is equipped with an air injection means, a chemical injection means, a stirrer 16 and a solid-liquid separation means, may be mounted directly to the water supply pipe 14 or its extension portion, or via other pipes It may be mounted in a connected form.

The air injection means may provide compressed air as an air injection facility 50 composed of an air compressor, a compressed air storage tank, an injection pressure regulator, a flow regulator, and the like, and can easily adjust the pressure and amount of the compressed air injected. .

Alternatively, the air injection means may alternatively be of a type configured to inject compressed air, that is, pressurized water.

The chemical injection means is composed of a flocculant injection facility 51 for supplying a flocculant as a treatment drug, and a pH drug injection facility 52 for supplying a pH drug separated by an acid and a base. Of course, in addition to this, any other chemical injection equipment may be added if necessary for the treatment of raw water.

The flocculant injection facility 51 may be made of a flocculant dissolution tank, a flocculant solution storage tank, an injection pump, or the like. The injection pump is preferably a metering pump. According to this, a liquid flocculant can be provided and the quantity of the flocculant injected can be freely specified.

The type of flocculant may be used either alone or in combination of an inorganic coagulant and an organic coagulant. In addition, the flocculant injection facility 51 may be injected with the flocculant, without providing the pH chemical injection facility 52 separately.

The stirrer 16 includes an impeller and its rotating means, and the impeller rotating means includes a motor. The stirrer 16 is disposed so that the raw water passes through the chemical injection means along the direction in which the water supply pipe 14 flows.

For reference, the water pipe 14 may be generated in the turbulence of the raw water therein, may artificially bend a part of the zigzag to help the generation of turbulence, if the turbulence is sufficiently generated, the stirrer 16 may be omitted. have.

The solid-liquid separation means is arranged so that the raw water passes through the stirrer 16 along the direction in which the water flows through the water pipe 14, and the floating separation facility 18 is applied.

The flotation separation system 18 lowers the pressure of the raw water in which the air is supersaturated and dissolved, and at the same time keeps the flow rate of the raw water slow so that fine bubbles are formed. To be removed.

Such floating separation facility 18 includes a scum recovery device 54 and a scum storage tank 56 as a means for removing the suspended suspension material. The scum recovery device 54 may be configured to have a channel type structure, and is connected to the scum storage tank 56. Scum storage tank 56 may be made of a pit (pit) in the basement or a tank type on the ground.

The first embodiment as described above can be operated as follows.

The raw water of the intake source 10 pumped by the intake pump 12 flows along the water supply pipe 14 to the fresh water destination 22.

In the above process, the air injection unit 50 injects air, the supersaturated air is dissolved at normal pressure in the raw water flowing along the water pipe 14, and some air is dispersed into particles of fine size by turbulent flow. do. And the flocculant injection facility 51 injects the flocculant, the pH drug injection facility 52 injects the pH drug, the flocculant to make the flotation agent and flocculation, flocs in the raw water to easily float, pH chemicals Assists in the creation of flocs.

Then, the raw water mixed with air, flocculant, and pH chemicals is forcibly mixed by the turbulence generated in the water pipe 14 during the transfer to the freshwater destination 22, and is also forcibly mixed by the stirrer 16 as necessary. And then to the flotation facility 18.

The mixture of air, flocculant, and pH chemicals arriving at the flotation separation unit 18 contains bubbles generated at low pressure and slow flow rate in the flotation separation unit 18, so that the suspended solids float on the water surface. Form a scum. At this time, the injured scum is recovered and discarded or recycled as fertilizer, etc., and the purified water of the lower side in which the suspended material is separated is transferred to the fresh water destination 22 and utilized.

In the above description, the air requirement ratio of the suspended material in the raw water is appropriately about 0.1 to 0.5, and the size of the floating tank of the flotation separation facility 18 is sufficient if the mixed water can stay for about 20 to 50 minutes, and the usual bubble The speed of rise is about 25 ~ 125mm / min.

On the other hand, raw water with a high content of algae is preferred to use poly aluminum chloride (PAC) as a flocculant to increase the solid-liquid separation effect of about 10 to 50ppm based on a 17% solution. You may add about 0.2-1.0 ppm etc. Instead of polyaluminum chloride, various other methods may be applied, such as a poor performance, but inexpensive chemicals such as aluminum sulfate or ferric chloride can be added together with an alkaline solution such as caustic soda.

As described above, the first embodiment removes suspended substances such as algae contained in the raw water of the intake source 10, preserves the water environment of the fresh water source 22, and improves the water treatment conditions. In the process of transportation, the intake and removal power is used to operate the suspension material removal system, so that raw water can be treated with relatively low equipment cost and operation cost.

2 is a block diagram showing a water pollution prevention apparatus (hereinafter referred to as 'second embodiment') according to a second embodiment of the present invention. As shown in FIG. Compared to the embodiment, the other configuration and its action are the same, the sedimentation plant 19 for sedimenting the suspended matter instead of the flotation separation facility 18, the sludge discharge pipe 55 instead of the scum recovery device 54 The sludge storage tank 57 is applied instead of the scum storage tank 56, and since the sludge storage tank 57 is used instead of the flotation method, the air injection facility 50 is unnecessary and is omitted.

Since the second embodiment sinks and removes the suspended material under the water, except for this, the detailed description of the second embodiment is omitted since the operation process is almost similar to that of the first embodiment.

This second embodiment is advantageous when applied to the suspension material contained in the raw water is mainly composed of inorganic particles such as muddy water rather than algae.

As mentioned above, although this invention was demonstrated, this invention is not limited by embodiment and drawing which were disclosed by this specification. Therefore, the present invention can be variously modified by those skilled in the art within the scope of the technical idea of the present invention.

For example, in the above description, the floating separation facility 18 using the flotation method and the precipitation facility 19 using the precipitation method are described as solid-liquid separation means. However, the centrifugal separation method or the filtration separation method may be used instead. Alternatively, it may be configured to use a combination of at least two of flotation, precipitation, centrifugation, filtration.

1 is a block diagram showing a water pollution prevention device according to a first embodiment of the present invention.

2 is a block diagram showing a water pollution prevention apparatus according to a second embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

10: intake source 12: intake pump

14: water pipe 16: agitator

18: flotation facility 19: sedimentation facility

22: desalination water 50: air injection equipment

51: flocculant injection facility 52: pH chemical injection facility

54: scum recovery device 55: sludge discharge pipe

56: scum storage tank 57: sludge storage tank

Claims (7)

A pump which pumps water from the intake source and transfers it to another place; A conduit for receiving and transporting the water pumped out; A chemical injection means mounted in the middle of the pipeline to inject a chemical for treatment of water into the water flowing along the pipeline; Water pollution prevention device comprising a solid-liquid separation means for separating the suspended material in the water injecting the chemical is mounted to the pipe or its extension portion with water. The method according to claim 1, And an air injection means mounted in the middle of the pipeline and injecting air into the water flowing into the solid-liquid separation means along the pipeline in the form of gas or pressurized water. The method according to claim 2, The air injection means is a water pollution prevention device is configured to be able to control the pressure and flow rate injected and injected compressed air. The method according to claim 1 or 2, And at least one stirrer mounted on the conduit so as to be positioned between the chemical injection means and the solid-liquid separation means to mix water flowing through the conduit and the injected chemical. The method according to claim 1 or 2, The drug injection means is a water pollution prevention device configured to be able to inject a liquid medicine and to specify the amount of the drug being injected. The method according to claim 1 or 2, The solid-liquid separation means includes at least one of a means for removing suspended suspended matter and a means for removing settled suspended matter. A pump which pumps water from the intake source and transfers it to another place; A conduit for receiving and transporting the water pumped out; Air injection means mounted in the middle of the pipeline to inject air into the water flowing along the pipeline in the form of gas or pressurized water; And a solid-liquid separation means for separating the suspended material in the water, into which the air is injected, attached to the pipe or the extension portion thereof with water.

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