KR102468004B1 - Dewatering and drying system of algae sludge - Google Patents

Abstract

The present invention relates to a system connected to an algae removal ship to dehydrate and dry algae sludge moved from the algae removal ship, comprising: a sludge storage tank in which the moved algae sludge is stored; A screw compression dehydrator dewatering the algae sludge moved from the sludge storage tank; A first screw conveyor for moving the algae sludge dehydrated from the screw compression dehydrator; and a sludge dryer for drying the algae sludge moved through the first screw conveyor.

Description

Dewatering and drying system of algae sludge {DEWATERING AND DRYING SYSTEM OF ALGAE SLUDGE}

The present invention relates to a technique for dewatering and drying algae sludge in a ship.

Green algae appearing in lakes is a phenomenon in which green algae proliferate in large quantities during summer and change the color of water to blue-indigo or green. plays an important role in energy circulation. Phytoplankton, which live in a temperate climate with four distinct seasons, such as Korea, transition largely according to seasonal changes such as water temperature and light intensity. exists as When the water temperature rises due to seasonal changes, algae cells in the sedimentary layer grow into vegetative cells and float to the surface to form a phytoplankton community, sometimes causing a large outbreak depending on the conditions. It is known that the breeding of these algae is largely due to the inflow of nutrients such as nitrogen and phosphorus contained in artificially used fertilizers, domestic sewage, and livestock wastewater into the water system.

Since most of the generated algae exist near the surface layer of the water system, it is difficult for sunlight to reach the water, and this phenomenon causes inhibition of photosynthesis of aquatic organisms and mass death of aquatic organisms. In addition, when algae proliferate in such a large amount, there is a problem that it is difficult to purify water due to toxins generated from these algae and the purification cost greatly increases.

In addition, dissatisfaction from nearby residents due to the occurrence of odor and anxiety that it may remain even after purification treatment can act as a cause of lowering the reliability of drinking water. Therefore, there is an urgent need for a technology capable of solving various problems caused by these algae.

Accordingly, the inventor of the present invention has completed the present invention after long research and trial and error on how to efficiently remove algae from lake lakes.

The present invention is to provide a dewatering and drying system for algal sludge that can greatly reduce the volume and weight of algal sludge by dewatering and drying the algae sludge, so that it can be stored and transported very easily.

According to one embodiment of the present invention, it is intended to provide a system for dewatering and drying algae sludge that can be discharged as it is in lake lakes by filtering the separated water after dehydration using a zeolite filter.

In addition, it is intended to provide a dewatering and drying system for algae sludge that does not require additional power for the filter when the effluent passes through the zeolite filtration filter as a gravity filter.

Meanwhile, other unspecified objects of the present invention will be additionally considered within the scope that can be easily inferred from the following detailed description and effects thereof.

According to an embodiment of the present invention, it is connected to an algae removal line and relates to a system for dewatering and drying algae sludge moved from the algae removal line,

A sludge storage tank in which the moved algae sludge is stored;

A screw compression dehydrator dewatering the algae sludge moved from the sludge storage tank;

A first screw conveyor for moving the algae sludge dehydrated from the screw compression dehydrator; and

Characterized in that it comprises a sludge dryer for drying the algal sludge moved through the first screw conveyor,

A system for dewatering and drying algae sludge is provided.

According to an embodiment of the present invention, an agitation tank disposed between the sludge storage tank and the screw compression dehydrator may further include an agitation tank for agitating and coagulating the algae sludge moved from the sludge storage tank.

According to an embodiment of the present invention, it may further include a polymer storage tank connected to the stirring tank and supplying a polymer as a coagulant to the stirring tank.

According to an embodiment of the present invention, an effluent filter connected to the screw compression dehydrator may further include an effluent filter for filtering the water separated from the algae sludge.

According to an embodiment of the present invention, the effluent filter,

A zeolite filtration filter may be included.

According to an embodiment of the present invention, it may further include a discharge line connected to the effluent filter and discharging the water passing through the effluent filter to the outside.

According to an embodiment of the present invention, the sludge dryer,

A second screw conveyor for moving the algae sludge; and

A drying blower may be included to provide wind for drying the algae sludge to the second screw conveyor.

According to an embodiment of the present invention, connected to the sludge dryer,

A sludge storage tank for storing the dried sludge dried and moved from the sludge dryer may be further included.

According to an embodiment of the present invention, the first screw conveyor,

Since the outlet of the algae sludge is inclined higher than the inlet of the algae sludge, the algae sludge passing through the outlet can be formed to fall by gravity to the sludge dryer.

According to an embodiment of the present invention, the effluent inlet of the effluent filter is formed higher than the effluent outlet, so that water introduced into the effluent inlet due to gravity passes through the zeolite filter and then discharged to the effluent outlet.

Using the dewatering and drying system for algae sludge according to the present invention, it is possible to greatly reduce the volume and weight of the algae sludge collected from lakes and the like by dehydrating and drying the algae sludge, making storage and transportation very easy.

In addition, by filtering the separated water after dehydration using a zeolite filter, it is possible to discharge it as it is to lake lakes.

In addition, it is configured as a gravity filter so that no additional power is required for the filter when the effluent passes through.

On the other hand, even if the effects are not explicitly mentioned here, it is added that the effects described in the following specification expected by the technical features of the present invention and their provisional effects are treated as described in the specification of the present invention.

1 is a view showing a system for dewatering and drying algae sludge according to the present invention.
2 is a view showing a screw compression dehydrator according to the present invention.
3 is a view showing a first screw conveyor according to the present invention.
4 is a view showing a sludge dryer according to the present invention.
5 is a view showing an effluent filter according to the present invention.
It is revealed that the accompanying drawings are illustrated as references for understanding the technical idea of the present invention, and thereby the scope of the present invention is not limited thereto.

In the description of the present invention, if it is determined that a related known function may unnecessarily obscure the subject matter of the present invention as an obvious matter to those skilled in the art, the detailed description thereof will be omitted.

Terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

Hereinafter, an embodiment of the dewatering and drying system for algal sludge according to the present invention will be described in detail with reference to the accompanying drawings. In the description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals, Redundant descriptions thereof will be omitted.

1 is a view showing a system for dewatering and drying algae sludge according to the present invention.

As shown in FIG. 1, the algae sludge dewatering and drying system according to an embodiment of the present invention is connected to an algae removal ship to dehydrate and dry the algae sludge transferred from the algae removal ship, and includes a sludge storage tank 100, a screw It includes a compression dehydrator 200, a first screw conveyor 300, and a sludge dryer 400.

The sludge storage tank 100 is connected to the algae removal line, stores the algae sludge moved from the algae removal line, and transfers it to the dewatering and drying device.

The algae sludge stored in the sludge storage tank 100 may be transferred to the screw compression dehydrator 200 by the power of the sludge transfer pump.

2 is a view showing a screw compression dehydrator 200 according to the present invention.

The algal sludge introduced through the inlet 220 of the screw compression dehydrator 200 is compressed and dehydrated while passing through the screw 210 of the screw compression dehydrator 200, and moves to the next step through the outlet 230.

The screw compression dehydrator 200 is formed to be inclined at a predetermined angle, so that the algae sludge is compressed and rises along the screw. At this time, the screw angle and rotational speed of the screw compression dehydrator 200 may be formed to be adjustable. By adjusting the angle and rotational speed in this way, the transport amount per hour of the compressed and dewatered algae sludge can be adjusted.

On the other hand, large-capacity algae sludge can be moved through the screw compression dehydrator 200. In order to dehydrate and move the algae sludge, problems such as clogging of the pipe may occur when transporting using a conventional transfer pipe, but the present invention can move a large amount of algae sludge without clogging by using a screw.

The screw compression dehydrator 200 can wash algae sludge remaining on the screw by supplying water on the lake. That is, most of the algae sludge is compressed and dehydrated and moved through the screw compression dehydrator 200, but some algae sludge may be attached to or entangled in the screw. You can spray water on it.

The sprayed water can separate the algae sludge that is attached or entangled on the screw from the screw. Through such a washing process, the compression dehydration process of the screw compression desaturation machine can proceed smoothly.

The water separated from the algae sludge in the screw compression dehydrator 200 may be moved to the effluent filter 700 connected to the screw compression dehydrator 200. That is, the water from the screw compression dehydrator 200 is transferred to the effluent filter 700 and filtered.

The discharge line is connected to the effluent filter 700 so that water passing through the effluent filter 700 can be discharged to the outside. That is, by filtering the effluent separated from the screw compression dehydrator 200 through the effluent filter 700, it is possible to return the algae to the collected lake bed.

As shown in FIG. 1, the system for dewatering and drying algae sludge according to an embodiment of the present invention may further include an agitation tank 500. The algae sludge received from the algae removal vessel and stored in the sludge storage tank 100 may move to the stirring tank 500 and be agitated and aggregated.

That is, the stirring tank 500 is disposed between the sludge storage tank 100 and the screw compression dehydrator 200. On the other hand, between the agitation tank 500 and the sludge storage tank 100, a raw water treatment tank may be further disposed. In the treatment raw water metering tank, the amount of algae sludge transferred to the agitation tank 500 can be adjusted so that the rate or amount of algae sludge treatment in the subsequent process can be adjusted.

A polymer for agitation and aggregation may be additionally supplied to the stirring tank 500, and the polymer storage tank 600 may be connected to the stirring tank 500 for this purpose.

The polymer is supplied from the polymer storage tank 600 to the stirring tank 500. In this case, the polymer storage tank 600 may periodically supply the polymer to the stirring tank 500, or receive a signal from the stirring tank 500 and supply the polymer to the stirring tank 500.

3 is a view showing a first screw conveyor 300 according to the present invention.

The first screw conveyor 300 moves the dehydrated algae sludge from the screw compression dehydrator 200. At this time, the first screw conveyor 300 may be formed so that the algae sludge outlet is inclined higher than the algae sludge inlet, so that the algae sludge passing through the outlet falls to the sludge dryer 400 by gravity.

That is, no additional power is required to move the algae sludge from the first screw conveyor 300 to the sludge dryer 400. At this time, the amount of algae sludge moved to the sludge dryer 400 can be adjusted by adjusting the rotational speed and inclination of the first screw conveyor 300.

As shown in FIG. 3, the algae sludge can be moved much more efficiently without clogging by using a screw than when moving using a pipe. Furthermore, by making the inclination of the first screw conveyor 300 large, algae sludge can be moved to the sludge dryer 400 only by rotation of the screw without additional power.

4 is a view showing a sludge dryer 400 according to the present invention.

As shown in FIG. 4 , the sludge dryer 400 may include a plurality of screws arranged vertically. That is, the algae sludge transferred from the first screw conveyor 300 first passes through the inlet 44 through the second screw conveyor 410 disposed at the top and then to the second screw conveyor 410 disposed at the bottom. and when all of them pass through the lower second screw conveyor 410, they move to the sludge storage tank through the outlet 450.

A blower 420 for drying may be further included to provide wind for drying while the algae sludge moves both on the upper and lower second screw conveyors 410. The drying blower provides wind to dry the algae sludge.

By disposing the second screw conveyor 410 up and down in this way, it is possible to utilize a narrow space, but since the wind from the blower is provided to the algae sludge for a longer time, drying can be more effective. That is, it is arranged up and down for space utilization, but it is possible to secure sufficient drying time for drying the algae sludge.

The sludge storage tank stores the dried sludge that has been dried and moved from the sludge dryer 400. At this time, the algae sludge stored in the sludge storage tank is dehydrated and dried, so the volume is small and the weight is light. Therefore, the amount of algae sludge that can be stored in the sludge storage tank may increase.

5 is a view showing an effluent filter 700 according to the present invention.

As shown in Figure 5, the effluent filter 700 is a configuration for returning the water separated from the screw compression dehydrator 200 to the lake, and the effluent is moved to the lake via the effluent filter 700.

That is, the water moved from the screw compression dehydrator 200 moves to the screw compressor body 720 through the inlet 730 and then passes through the filter 750 accommodated in the body 720 to the outside through the outlet 740. will move

At this time, the filter 750 may include a zeolite filter. That is, the effluent is discharged to the outside through the zeolite filter. In addition, the effluent inlet 730 of the effluent filter 700 is formed higher than the effluent outlet 740 so that the effluent flowing into the effluent inlet 730 by gravity passes through the zeolite filter and is then discharged to the effluent outlet 740. can Through this configuration, it is possible to filter the effluent without providing additional power to the filter.

The protection scope of the present invention is not limited to the description and expression of the embodiments explicitly described above. In addition, it is added once again that the protection scope of the present invention cannot be limited due to obvious changes or substitutions in the technical field to which the present invention belongs.

100: sludge reservoir
200: screw compression dehydrator
300: first screw conveyor
400: sludge dryer
500: stirring tank
600: polymer reservoir
700: effluent filter

Claims (10)

It is connected to an algae removal line and relates to a system for dewatering and drying algae sludge moved from the algae removal line,
A sludge storage tank in which the moved algae sludge is stored;
A screw compression dehydrator dewatering the algae sludge moved from the sludge storage tank;
A first screw conveyor for moving the algae sludge dehydrated from the screw compression dehydrator; and
A sludge dryer for drying the algae sludge moved through the first screw conveyor,
The screw compression dehydrator includes a configuration for separating algae sludge stuck on or entangled on the screw from the screw by spraying water on the lake from the top to the screw,
The sludge dryer,
A second screw conveyor for moving the algae sludge; and
A drying blower providing wind for drying the algae sludge to the second screw conveyor,
The second screw conveyor includes a plurality of screws disposed vertically, and the algae sludge transferred from the first screw conveyor passes through the inlet through the second screw conveyor disposed at the top, and then the second screw disposed at the bottom. move on the conveyor,
Further comprising an agitation tank disposed between the sludge storage tank and the screw compression dehydrator to agitate and coagulate the algae sludge moved from the sludge storage tank,
Further comprising a polymer storage tank connected to the stirring tank and supplying a polymer as a coagulant to the stirring tank,
Further comprising an effluent filter connected to the screw compression dehydrator and filtering the water separated from the algae sludge,
The effluent filter,
Including a zeolite filtration filter,
Further comprising a discharge line connected to the effluent filter and discharging the water that has passed through the effluent filter to the outside,
Connected to the sludge dryer,
Further comprising a sludge storage tank for storing the dried sludge dried and moved from the sludge dryer,
The first screw conveyor,
Since the outlet of the algae sludge is formed to be inclined higher than the inlet of the algae sludge, the algae sludge passing through the outlet is formed to fall by gravity to the sludge dryer,
The effluent inlet of the effluent filter is formed higher than the effluent outlet, so that the water flowing into the effluent inlet due to gravity passes through the zeolite filter and then is discharged through the effluent outlet,
The screw compression dehydrator is formed to be inclined at a preset angle, and the angle and rotation speed are adjusted to control the amount of compressed and dehydrated algae sludge per hour,
Characterized in that a treatment source water metering tank is further disposed between the stirring tank and the sludge storage tank to adjust the algae sludge treatment rate or amount,
Algae sludge dewatering and drying system. delete delete delete delete delete delete delete delete delete

Images