KR20180023685A - Apparatus for removing iron and manganese from underguound water and supplying oxyhydroger - Google Patents

Abstract

The present invention provides an apparatus for treating iron and manganese in underground water, and supplying oxygen water, which generates microbubbles in underground water to allow iron and manganese dissolved in underground water to be in smooth contact with oxygen so as to generate an oxidation precipitate, precipitates or filters the same to collect only the underground water having iron and manganese removed therefrom, and easily controls the concentration of dissolved oxygen of collected water to be supplied. The apparatus of the present invention comprises: a supply pump; a water collecting tank for storing underground water collected by the supply pump, and having a nozzle for supplying microbubbles to a lower portion thereof; a precipitation tank positioned at a rear side of the water collecting tank, connected to a first discharge pipe to each other via a pipe, and integrally formed with a hopper having a lower portion to be narrower in a downward direction; a water purifying tank positioned at a rear side of the precipitation tank, collecting purified water from which the precipitate is removed through a second discharge pipe which is piped to the precipitate tank at an upper portion thereof, and having a nozzle for supplying the microbubbles in an inner lower portion thereof; a discharge pump for supplying the underground water in the water purifying tank to a used place; first and second inflow pipes respectively placed at one side of lower portions of the water collecting tank and the water purifying tank; and a bubble generating unit connected to the first and second inflow pipes, and supplying the microbubbles through first and second bubble supply pipes which are piped to the nozzle installed in the water collecting tank and the water purifying tank.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an apparatus for treating groundwater, iron, manganese, and oxygen,

The present invention relates to a groundwater iron, a manganese treatment, and an oxygen water supply device. More specifically, the present invention generates microwaves and nano bubbles in ground water, thereby allowing iron and manganese dissolved in groundwater to smoothly contact oxygen in the air, Manganese treatment and oxygen water supply apparatus capable of collecting only ground water from which iron and manganese have been removed by precipitating or filtering an oxide precipitate and easily controlling and supplying dissolved oxygen concentration of the collected water .

Iron (Fe) and manganese (Mn) are important trace elements required for the growth of copper and plants, but if they are supplied in excess of the proper amount, they will cause a great harm to copper and plant growth.

In addition, when iron and manganese are contained in a large amount of water, the turbidity and water tastes of water are poor due to oxides, which may cause bad odors. In the case of cultivation of nutrient solution, And may be a source of insect pests and plant growth inhibition.

In particular, iron deposits and deposits in piping and pump facilities, causing corrosion and deteriorating performance.

Iron and manganese contained in the groundwater have various distribution types according to the type and nature of lipids. Since the water quality standards of drinking water are not more than 0.3 mg / l each, they are used in various living water such as drinking water and agricultural water. It is important to treat iron and manganese effectively.

To this end, Korean Patent Registration No. 10-1228406 discloses a technique related to a groundwater treatment apparatus, which relates to a groundwater treatment apparatus for removing harmful substances such as iron and manganese contained in pumped groundwater, And the upper part is provided with an aeration installation space in which the groundwater is not filled, and the lower part of the aeration installation space is formed with a stirring space in which a groundwater supplied through the groundwater flows and stagnates by a certain amount. A water turbine located in the water turbine installation space and rotated while colliding with the groundwater supplied; A chemical supply means for supplying a chemical for removing harmful substances contained in the ground water to the inside of the processing space forming body, through the orifice so as to be supplied in correspondence with the amount of groundwater to be supplied; A stirring screw located in the stirring space and rotated by receiving the rotational force of the aberration to stir the groundwater and the supplied medicine in the stirring space; A foreign matter separating body having a swash plate settler made of a plurality of swash plates for allowing groundwater passing through an agitating space to pass through and having a filter for removing foreign substances contained in the ground water and allowing foreign matter filtered by the filter to settle down; And further includes aeration means for aerating the air in the groundwater in the stirring space.

However, since the prior art has aeration means, since the particles of bubbles are large, the time of contact with oxygen in the air is short due to the rapid floating rate due to buoyancy, and the contact area with iron and manganese dissolved in the groundwater is also small. Therefore, there is a problem that the oxidation efficiency is low and the particles of oxidized sediment are also small, so that it is not easy to remove by filtration or precipitation, and a large facility such as an aeration tank is required to increase oxidation efficiency, .

KR 10-1228406 B1 (2013.01.25.)

The present invention has been made to solve the above-described problems of the prior art,

It is an object of the present invention to provide a contact area between iron and manganese dissolved in ground water and oxygen in the air to allow the oxide precipitate to be formed quickly and to remove oxidized precipitate more effectively.

By supplying micro bubbles of micro or nanoparticles, it is possible to maximize the contact area where iron and manganese are in contact with oxygen so that iron and manganese oxide precipitates can be formed more rapidly by the oxidation reaction. In order to facilitate the oxidation reaction, The catalyst and the fine bubble effect are obtained at the same time to effectively produce iron and manganese oxide precipitates.

In order to more effectively precipitate and remove oxidized precipitates of iron and manganese generated, the flocculant is introduced into a water tank in which fine bubbles are supplied and mixed and agglomerated by vortices generated when fine bubbles are supplied, The present invention provides an apparatus capable of removing precipitates and capable of supplying dissolved oxygen to purified water from which oxide precipitates have been removed.

 On the other hand, other unspecified objects of the present invention may be further considered within the scope of the following detailed description and easily deduced from the effects thereof.

In order to accomplish the above object, the present invention provides a groundwater iron, manganese treatment, and oxygenated water supply device, comprising: a supply pump; A water collecting tank in which a nozzle for storing groundwater collected by the supply pump and supplying fine bubbles to the bottom is formed; A sedimentation tank formed integrally with a hopper which is located at the rear of the water collecting tank and connected to the first discharge pipe by mutual piping and whose lower part is narrowly formed downward; A water purifier for collecting purified water removed from the sediment through a second discharge pipe arranged at the upper part of the sedimentation tank and piped to the sedimentation tank and forming a nozzle for supplying fine bubbles to the lower part of the sediment; A drain pump for supplying groundwater of the water treatment tank to a user; A first inlet pipe and a second inlet pipe respectively piped to one side of the lower part of the water collecting tank and the water tank; And a bubble generator connected to the first inlet pipe and the second inlet pipe and supplying the fine bubbles through the first bubble supply pipe and the second bubble supply pipe which are piped to the nozzle installed in the water collecting tank and the water tank .

In addition, the coagulant supply unit for introducing the coagulant into the water collecting tank and the filling tank filled with the manganese dioxide for the introduction into the water collecting tank are provided together, and one of them is selectively applied according to the properties of the groundwater, Another solution is to solve the problem.

According to the concrete means for solving the above-mentioned problems, since the gas-liquid contact efficiency is maximized by feeding the fine bubbles having micro or nanoparticle size generated by the bubble generating unit to the water collecting tank, the microbubbles rise very late in the water, In this process, the dissolved oxygen (DO) is increased to make the groundwater fresh, and the dissolved iron and manganese in the groundwater are oxidized with oxygen in the air, so that the oxidation precipitate is formed in a short time, and the removal efficiency of iron and manganese in the groundwater is improved.

In addition, the water coagulant is selectively administered according to need, so that the particles of the oxidized precipitate are aggregated with each other to be made into large particles, so that precipitation and filtration can be performed quickly.

Therefore, Drinking water in underground water will be supplied with safe water more quickly than where it is needed for drinking water, drinking water, domestic water, factories, There is a feature that can be.

In addition, when manganese dioxide (MnO 2) yarn as an oxidation catalyst is further added into the bubble feed tank, there is a problem that the oxidized precipitate produced during oxidation adheres to the surface of the manganese dioxide yarn, resulting in a drastic decrease in treatment efficiency over time, As the bubbles are supplied and diffused, the water swirls and buoyancy of the fine bubbles prevent contamination of the manganese dioxide yarn, and the precipitates adhering to the surface are removed, thereby ensuring long-term functionality in a clean state. .

In addition, it provides a high concentration of oxygen water in hydroponic cultivation, thereby activating soil microbial activity and improving nutrient absorption ability, thereby producing a plant resistant to insect pests and damaging the production of crops.

Since the nozzle for supplying the fine bubbles is opened only at a certain pressure or more, the bubbles can be finely dispersed and the bubbles having a high density can be provided in a short time.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a diagram showing the overall configuration of a ground water iron, manganese treatment and oxygen water supply device provided by the present invention; Fig.
FIG. 2 is a perspective view showing the outline of a nozzle for spraying fine bubbles into a water tank in the ground water iron, manganese treatment,
3 is a cross-sectional view showing an operating state of a nozzle for spraying fine bubbles into a water tank in the groundwater iron, manganese treatment,
4 is a view showing another embodiment of the ground water iron, manganese treatment and oxygen water supply device provided by the present invention
5 is a view showing still another embodiment of the ground water iron, manganese treatment and oxygen water supply device provided by the present invention

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present invention.

FIG. 1 is a diagram showing the entire construction of a ground water iron, manganese treatment and oxygen water supply apparatus provided in the present invention. The present invention is characterized by including a water collecting tank 3 for storing ground water introduced by a supply pump, A sedimentation tank 6 in which the iron and manganese oxide precipitates produced by gas-liquid contact with the water collecting tank 3 and brought into gas-liquid contact with the fine bubbles are collected and collected downward, a bubble generating unit 20 for supplying fine bubbles to the sedimentation tank 3, Manganese treatment and oxygen water supply device (1) comprising a water tank (8) for collecting only the clean groundwater in the upper layer piping.

The water collecting tank 3 is provided with a drain pipe 3a for discharging various kinds of foreign substances floating on the surface of the ground water at the upper portion and a drain pipe 3a for storing the ground water transferred to the supply pump 2, A first inflow pipe 4 having an open / close valve 4a for interrupting the flow of inflow water for inflow of groundwater into the water collecting tank 20 is connected to the bottom of the water collecting tank 3 and a fine bubble generated by the bubble generating unit 20 is introduced into the bottom of the water collecting tank 3 A nozzle (30) for feeding into the water tank is provided.

The bubble generator 20 includes a strainer 21 for filtering foreign substances remaining in the groundwater, a pipe 23 connected to the strainer 23, A pressure tank 24 for storing the air and the ground water piped to the discharge side of the circulation pump and storing the groundwater under a high pressure state, an air inlet pipe 22 connected between the circulation pump 21 and the circulation pump 23, And a first bubble supply pipe 25 which is connected between the pressure tank 30 and the pressure tank and supplies high pressure ground water and air to the lower part of the settling tank 6. The fine bubble produced is supplied to the water collecting tank 3 ).

When the pressure of the circulation pump 23 is raised, particles of bubbles to be generated can be finely provided. The fine bubbles include microbubbles of air bubbles of 50 m or less or nano bubbles of 10 m or less.

When the concentration of the generated fine bubbles is increased and the bubble particles are finely made and supplied to the lower part of the water collecting tank 3, not only the gas-liquid contact efficiency with the ground water is excellent, but also the bubble particles are fine, And the gas-liquid contact can be performed more easily.

Iron and manganese are micro air react with oxygen to manganese of the formula 2Mn in the bubbles contained in ground water _{(HCO3) 2 + O 2 →} 4MnO 2 + 4CO 2 + 2H oxide precipitate in grain form is generated by the ₂ O, iron Red oxidized sediments are formed on the surface by the chemical formula 4Fe (HCO ₃ ) ₂ + O ₂ + 2H ₂ O → 4Fe (OH) ₃ + 8CO ₂ , and the oxidation effect is very high due to the fine bubbles of particles smaller than 50 μm The formation of the precipitate can be accelerated.

A sedimentation tank 6 is provided at the rear of the water collecting tank 3 to collect groundwater that is piped to the water collecting tank and the first discharge pipe 5 and is in gas-liquid contact with the fine bubbles. And a drain pipe 6b for discharging the precipitate collected by the hopper is installed at the center of the hopper 6a.

A second water pipe (7) is piped to the upper side of the rear end of the settling tank (6) to provide a water tank (8) for collecting only purified water. Since the ground water contained in the present water tank 8 is conveyed by the discharge pump 10 provided at the downstream end of the water tank and used directly for drinking water or various kinds of industrial water, a water level sensor 8a is installed in the water tank 8, It is preferable to operate the supply pump 2 to keep the water quantity of the water purification tank constant at all times.

The ground water iron, manganese treatment and oxygen water supply device of the present invention (1) is characterized in that it supplies ground water having a high concentration of dissolved oxygen according to the use place when supplying purified ground water. To this end, a second inflow pipe 4 having an on-off valve 9a for interrupting inflow to supply the groundwater to the bubble generator 20 is piped to a lower portion of one side of the water tank 8, A nozzle 30 to which a second bubble supply pipe 26 branched from a bubble supply pipe is connected is installed below the water purification tank 8 in order to diffuse and supply the fine bubbles into the water tank 8.

FIG. 2 is a perspective view showing the outer shape of a nozzle 30 for spraying fine bubbles into a water tank in the ground water iron, manganese treatment, and oxygen water supply apparatus provided in the present invention. FIG. And a nozzle 30 for spraying fine bubbles to the water tank in the oxygen-containing water supply device.

The nozzle 30 installed on the bottom of the water tank for diffusing and supplying fine bubbles has a discharge port 31a through which fine bubbles are sprayed in the vertical direction of the cylindrical body 31. An upper portion of the body 31 is covered with a cover 32 Lt; / RTI >

An operating space 31b for opening and closing the flow path 38 is formed in the body 31 and a spring 35a is provided on the lower cap 35a and the upper cap 35b located at both ends of the spring 35, And a pin 34 passing through the upper cap 35b and the lower cap 35a is positioned at the center of the spring 35. The lower portion of the pin 34 is engaged with the lower cap 35a, And the upper end of the pin 34 is inserted into the center of the adjusting screw 36 screwed to the upper portion of the body 31 .

When the supply pressure is higher than the compression force of the spring 35, the nozzle 30 is connected to the bubble generator 20 and the bubble supply pipe. When the supply pressure is higher than the compression force of the spring 35, The flow path 38 is opened while the compression force is increased and the fine bubble is supplied and diffused through the discharge port 31a.

In order to increase the opening pressure of the nozzle 30, the cover 32 is separated from the body 31, the lock nut 37 fastened to the outer circumferential surface of the adjusting screw 36 is loosened, and the adjusting screw 36 is inserted downward Turn it. At this time, the lower end of the adjusting screw 36 is brought into contact with the upper cap 35b to compress the spring 35. When the lock nut 37 is compressed as desired, the lock nut 37 is firmly fastened, Can be easily controlled.

When the nozzle 30 for supplying the fine bubbles is opened only when the pressure is higher than a predetermined pressure, the bubbles are finely crushed by the high pressure. When the nozzle 30 is opened, the bubbles cohere with each other, It is possible to spread and supply it quickly over the entirety.

FIG. 4 is a view showing another embodiment of the groundwater iron, manganese treatment and oxygenated water supply apparatus provided in the present invention, in which the coagulant is introduced into the water collecting tank 3 or the manganese dioxide is selectively supplied.

The flocculant supply unit 40 includes a flocculant tank 41 for containing a flocculant therein, a stirring motor 42 installed at the center of the tank, and an impeller 43, And a metering pump 44 for introducing the coagulant into the bubble supplying tank. The coagulant is supplied to the inside of the water collecting tank 3 by the coagulant supplying unit 40 depending on the components distributed in the ground water, It is possible to selectively apply the manganese dioxide yarn 12a to be described later.

In order to effectively remove the generated oxidized precipitate, the coagulant is added into the water collecting tank 3 to agglomerate particles of the oxidized precipitate having a high viscosity and finely formed to thereby more rapidly and effectively remove the precipitate in the precipitation tank 6 .

Meanwhile, in order to increase the generation effect of oxidized sediments in the groundwater, the filling cylinder 12 filled with the manganese dioxide yarn 12a is connected to the support 11 and put in the center of the water collecting tank 3. At this time, if the coagulant for water use is used together, the oxidation efficiency of the manganese dioxide yarn 12a is lowered.

The manganese dioxide (MnO 2) is an oxidation catalyst, and manganese reacts with oxygen in the fine bubbles to rapidly and effectively produce oxidized precipitate, thereby reducing the volume of the precipitation tank 6 and the power of the bubble generator 20.

In addition, since the oxidized precipitate formed during the oxidation reaction adheres to the surface of the manganese dioxide sheet, there is a problem that the treatment efficiency is rapidly lowered over time. However, in the present invention, by supplying and diffusing the minute bubbles, manganese dioxide 12a), as well as to remove the precipitate adhering to the surface, thereby maintaining the catalyst in a clean state, thereby providing long-term functionality.

In other words, fine bubbles with negative (-) charges in water are easily adsorbed to oxide precipitates with positive (+) charges, and vortices generated when the buoyancy of fine bubbles and fine bubbles are supplied through the nozzles cause the precipitate It will prevent sticking to the surface.

FIG. 5 is a view showing still another embodiment of the groundwater iron, manganese treatment, and oxygenated water supply apparatus provided in the present invention, in which a filtration tank is used instead of passing through the settling tank 6.

When the precipitation tank 6 having a sufficient capacity can not be installed when the iron and manganese treatment and oxygen supply apparatus 1 provided in the present invention is applied, the first discharge pipe 5 is placed in the water tank 8 Or as shown in the figure, a first pipe (5) and a second pipe (7) are connected by a bypass pipe (13) provided with a control valve (13a) A conventional pressure-type filter 14 may be connected to remove the oxide precipitate by the filter 14. [

When the concentration of iron and manganese dissolved in the groundwater is low or the amount of water to be treated is small, the first discharge pipe 5 connected to the sedimentation tank 6 when the bypass pipe 13 and the separate filter 14 are further installed, And then the bypass pipe 13 is opened to collect the water in the water tank 8 and then the groundwater is transferred to the filter 14 by using the discharge pump 10 to remove the precipitate, And the operation of the oxygen water supply device 1 can be carried out in a more flexible and various ways.

The groundwater iron, manganese treatment and oxygen supply device 1 of the present invention having the above-described structure supplies microbubbles having a micro or nano particle size generated by the bubble generator 20 to the water collecting tank 3, (DO) is increased to make fresh ground water while iron and manganese dissolved in ground water are oxidized with oxygen in the air, so that oxidized precipitate Is generated in a short time, and iron and manganese can be quickly removed and supplied to the groundwater. At this time, the on / off valve 9a of the second inflow pipe is shut off and only the on / off valve 4a of the first inflow pipe is opened so that the purified groundwater is not consumed.

In this case, the opening / closing valve 4a of the first inflow pipe is shut off so that the groundwater of the water collecting tank is not mixed with the water tank, 2 Only the on-off valve 9a of the inflow pipe is opened.

In addition, it is possible to maximize the sedimentation efficiency while minimizing the scale of the system by feeding the oxidizing catalyst agent or supplying the flocculant in a fixed amount, if necessary. In some cases, the sediment is removed through the filter 14 without going through the sedimentation tank 6 It is possible to provide a groundwater treatment method suited to various environments and conditions.

While the present invention has been described in connection with what is presently considered to be the most practical embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. Therefore, the scope of protection of the present invention is not limited to the above-described embodiments, but the scope of the claims of the following claims and the scope of protection from these techniques to equivalent technical means should be acknowledged.

1: Ground water iron, manganese treatment and oxygen water supply device
2: feed pump 3: water collecting tank 3a: molten pipe 4: first inlet pipe 4a: opening / closing valve 5: first outlet pipe
6: settling tank 6a: hopper 6b: drain pipe 7: second outlet pipe
8: water tank 8a: level detector 9: second inlet pipe 9a: opening / closing valve
10: discharge pump 11: support 12: filling tube 12a: manganese dioxide
13: bypass pipe 13a: control valve 14: filter
20: bubble generator
21: strainer 22: air inlet pipe 23: circulation pump 24: pressure tank
25: first bubble supply pipe 26: second bubble supply pipe
30: Nozzle
31: body 31a: exhaust port 31b: working space 32: cover 33: plug 34: pin 34a:
35: spring 35a: lower cap 35b: upper cap 36: adjusting screw 37: lock nut 38:
40: Coagulant supply part
41: coagulant tank 42: agitating motor 43: impeller 44: metering pump

Claims (5)

A feed pump (2) for raising groundwater;
A water collecting tank 3 storing a groundwater supplied by the supply pump 2 and forming a nozzle 30 for supplying fine bubbles to an inner lower portion thereof;
A hopper 6a which is located at the rear of the water collecting tank 3 and is connected to the first discharge pipe 5 by mutual piping and whose lower part is narrowed downwardly is formed integrally with the hopper 6a, A settling tank 6 in which a drain pipe 6b is installed;
A water level sensor 8a for keeping the level of the water level constant and a water level sensor 8b for collecting purified water from which sediment is removed through a second discharge pipe 7 which is located at the rear of the settling tank 6 and through a second discharge pipe 7 piped to the settling tank 6 from above, A water tank 8 in which a nozzle 30 for supplying fine bubbles is formed;
A drain pump (10) for supplying groundwater of the water tank (8) to a use site;
A first inlet pipe (4) piped to a lower portion of the water collecting tank (3) with a body provided with an on-off valve (4a);
A second inlet pipe (9) piped to a lower portion of the water purification tank (8) with a body provided with an on-off valve (9a);
(9) connected to the first inlet pipe (4) and the second inlet pipe (9) and connected to a water tank for supplying fine bubbles among the water collecting tank (3) or the water tank (8) A bubble generator 20 for selectively introducing groundwater by opening only the on-off valves 4a and 9a and mixing the groundwater with air to generate fine bubbles;
A first bubble supply pipe 25 for supplying the fine bubbles generated in the bubble generator 20 to the water collecting tank 3 and a second bubble supply pipe 26 for supplying the fine bubbles generated in the bubble generator 20 to the water tank 8;
And an oxygen supply unit for supplying oxygen and water to the groundwater.
The method of claim 1,
And a coagulant supply unit (40) for introducing a coagulant into the water collecting tank (3)
The coagulant supply unit (40)
A flocculant tank 41 for containing a flocculant therein;
A stirring motor 42 installed at the center of the tank top;
An impeller 43 axially rotating and rotating in the stirring motor 42;
A metering pump 44 for injecting the coagulant into the bubble supply tank;
And the oxygen supply unit supplies the ground water, the manganese treatment, and the oxygen water.
The method of claim 1,
Wherein the filling cylinder (12) connected to the supporting table (11) and filled with the manganese dioxide yarn (12a) is inserted into the water collecting tank (3) so as to be immersed in the ground water.
The method of claim 1,
A bypass pipe 13 connected to the first discharge pipe 5 and the second discharge pipe 7, respectively, piped to the settling tank 6;
A control valve 13a formed on the bypass pipe 13;
A filter 14 connected to a downstream end of the discharge pump 10;
Further comprising: a groundwater iron, manganese treatment and oxygen water supply device.
The method of claim 1,
The nozzle (30)
A cylindrical body 31 having an operation space 31b formed therein and an upper portion thereof opened and connected to the bubble supply pipes 25 and 26 at a lower side thereof;
A discharge port (31a) formed at one side of the body (31) in a vertical direction and through which fine bubbles are sprayed;
A cover 32 for sealing the upper portion of the body 31;
An upper cap 35b and a lower cap 35a which are mounted on the springs 35 in upper and lower sides in the operating space 31b;
A hook 33a is formed at the lower end of the upper cap 35b and the lower cap 35a so as to engage with the lower cap 35a and a plug 33 for opening and closing the channel 38 is coupled to the lower end, (34);
An adjusting screw (36) penetrating the upper portion of the pin (34) and screwed into the open top of the body (31);
A lock nut 37 fastened to the outer peripheral surface of the adjusting screw 36 to fix the position of the adjusting screw 36;
And the oxygen supply unit supplies the ground water, the manganese treatment, and the oxygen water.

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