KR20130103043A - Desalting, dehydration and foreign substances removal system for recycleing of waste net - Google Patents

Abstract

PURPOSE: A system of desalination, dehydration and foreign substance removal for recycling waste nets is provided to be able to reduce the cost, and to supply fuel materials and reproduced nets with high quality by efficient desalination, dehydration and foreign substance removal work. CONSTITUTION: A system of desalination, dehydration and foreign substance removal for recycling waste nets comprises a drying apparatus (100) in which waste nets collected from the ocean are input, transferred and dried; an injection apparatus which includes a high pressure air injector and a foreign substance suction device (105) which remove and suction foreign substances of the waste nets; a desalination and dehydration apparatus (200) which performs desalination and dehydration of the crushed waste nets transferred from the injection apparatus, and includes a purifier (210) purifying the washing water which has been used in desalination and dehydration, and therefore, contains a large amount of salt, by using a reverse osmosis apparatus (212); a compressing apparatus (300) which compresses the waste nets transferred from the desalination and dehydration apparatus; and a pulverizing apparatus (400) which pulverizes the dehydrated and compressed waste nets in the compressing apparatus.

Description

Desalting, dehydration and foreign substances removal system for recycleing of waste net}

The present invention is a device for removing the desalination, dehydration and foreign matter to recycle the waste net to a new net or fuel material, more specifically, to remove the foreign matter and salt of the waste net to recycle the net raw material or solid fuel It relates to a system for drying, removing foreign matter, desalting, dehydrating, pressing and crushing.

Along with industrial development, the sea has caused serious marine pollution problems due to various wastes flowing from factories and cities, and various household wastes flowing along rivers. Waste nets are also a major contributor to marine pollution, and much effort and research have been made to collect and dispose of them.

That is, waste nets such as stagnation fishing nets contaminate marine ecosystems, and in the past, these marine waste nets were collected and incinerated or landfilled, but when incinerated, large amounts of serious air pollutants such as dioxins are generated and landfilled. In this process, secondary environmental pollution problem occurs during the treatment process, such as it does not decay and interfere with plant growth. Efforts and studies are being conducted to recover and recycle it as a renewable resource.

Unlike general wastes, however, marine waste nets contain a large amount of salt by sea water. If this is not removed, moldability is impaired by polymer oxidation due to salts. There is a problem such as occurs, desalination work for the removal of salt is required.

In addition, the past treatment method of incineration and landfill of collected marine waste nets causes secondary environmental pollution. Therefore, only the components of the marine waste nets that have no air pollutants during incineration are separated. This is used as a method of recovering the waste heat in the combustion melting process by producing a molten slag by combustion melting only.

Another method is to dissolve marine waste nets in the combustion melting chamber and recycle molten slag as recycled solids. This regeneration method is to recycle marine waste nets into the combustion melting chamber and melt them at a high temperature with a burner for recycling. It was possible to obtain a molten slag as possible, but there was a problem that a lot of thermal energy was wasted during high temperature melting.

In addition, a method of drying and incinerating sludge with high moisture content and condensing water by condensing water vapor generated in the drying process is used to produce clean water vapor. The method includes mixing fuel oil having a boiling point higher than water with sludge to produce sludge. There is a method of incineration for rapid and continuous heat transfer and steam generated through the condensate recovery and clean steam recovery from the steam generator.However, the marine waste net has a very high moisture content, so it is dried and desalted during recycling. In addition, dehydration and removal of debris can take considerable time and money, reducing the economics and productivity of recycling.

Therefore, in the recycling of marine waste nets with high water content and salt content, the development of technology that can more effectively and economically handle desalination, dehydration and debris removal is the key.

As discussed above, many studies have been conducted to recycle marine waste nets. However, marine waste nets are difficult to remove, dehydrate, and remove foreign substances due to high salinity and water content. .

Accordingly, an object of the present invention is to provide a desalination, dehydration, and foreign material removal system for efficiently recycling marine waste nets having high salinity and water content due to saline.

In order to solve the above problems, the present invention provides a drying apparatus for transporting and drying crushed marine waste nets, a spraying device for removing and inhaling foreign substances with high-pressure air, desalination, desalination dehydration apparatus for dehydration, and desalination and dewatering marine waste nets. In the construction of the compaction apparatus for crushing, and the pulverized apparatus for crushing the compressed waste net,

The drying device is composed of a belt conveyor for transporting the waste net and a drying barrel for drying the waste net,

The injection device is composed of a high-pressure air to remove the foreign matter by injecting a high-pressure air and a foreign material inhaler to suck the foreign matter,

The demineralization dehydration device is composed of a desalination, dehydration of the waste net, and a purifier for reusing the water used for washing, a storage tank for storing the purified water, salinity measuring device for measuring the salinity of the waste net ,

In addition, it characterized in that it comprises a crusher and a crusher for pressing the washed waste net.

The present invention can reduce costs in desalination, dehydration, compression and recycling of marine waste nets that have been stagnated for a long time in seawater and containing a large amount of salt through a series of processes, and efficiently desalting, dehydrating, and removing foreign substances. Can supply high quality fuel materials and recycled nets.

1 is an overall configuration diagram of a desalination, dehydration and foreign matter removal system for recycling waste net according to an embodiment of the present invention
Figure 2 is a perspective view of a drying apparatus and injector of the desalination, dehydration and foreign matter removal system for recycling waste net according to an embodiment of the present invention
Figure 3 is a perspective view showing the inside of the desalination dehydration apparatus of the desalination, dehydration and foreign matter removal system for recycling the waste net according to an embodiment of the present invention
4 to 5 is a view showing the operation of the inner rotary cylinder after the desalination dehydration to the desalination, dehydration and debris removal system for recycling waste net according to an embodiment of the present invention;
Figure 6 is a view of the compaction apparatus for desalination, dewatering and debris removal system for the recycling of waste net according to an embodiment of the present invention;
Figure 7 is a flow chart showing the process of desalination, dehydration and foreign matter removal system for recycling waste net according to an embodiment of the present invention

Hereinafter, with reference to the accompanying drawings will be described in detail the desalination, dehydration and foreign matter removal system for the recycling of waste net according to an embodiment of the present invention.

1 is a block diagram showing the overall configuration of the desalination, dehydration and foreign matter removal apparatus for recycling the waste net according to an embodiment of the present invention.

As shown, the desalination, dehydration and foreign matter removal system for recycling waste net according to an embodiment of the present invention is a drying device 100 for transporting and drying the crushed waste net, and the foreign matter in the dried waste net It comprises a spray device for removing, desalination dehydration device 200 for desalting, dewatering the waste net, and a pressing device 300 for pressing after desalination, dehydration, a grinder 400 for pulverizing the waste net.

First, the collected waste net is cut to a certain size, transferred to the dryer 103 through the feed hopper 101, dried, and foreign substances are removed. The waste net from which foreign substances have been removed is transferred to the washing machine 201, subjected to desalination and dehydration, and then transferred to the compactor 300 and the grinder 400 to be compressed and crushed.

The water used in the washer 201 is reusably purified through the purifier 210 and stored in the storage tank 220.

Next, the entire structure of a desalination, dehydration, and foreign substance removal system for recycling waste nets according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 7.

Figure 2 is a perspective view of a drying apparatus for desalination, dehydration and foreign matter removal system for recycling waste net according to an embodiment of the present invention, Figure 3 is a desalination, dehydration for recycling waste net according to an embodiment of the present invention 4 and 5 are views showing the operation of the dryer of the desalination, dehydration, and foreign matter removal system for the recycling of waste net according to an embodiment of the present invention. Figure 2 is a pressing device of the desalination, dehydration and debris removal system for recycling waste net according to an embodiment of the present invention, and Figure 7 is a desalination, dehydration and debris for the recycling of waste net according to an embodiment of the present invention A flowchart of the removal system process is shown.

The drying apparatus 100, the spray apparatus, the desalination apparatus 200, the pressing apparatus 300, and the crushing apparatus 400 according to the present invention will be described.

The drying apparatus 100 and the injector are configured to include a supply hopper 101, a belt conveyor 102, a dryer 103, a high pressure air 104, a foreign substance inhaler 105, and a foreign substance storage container 106. .

Waste net cut into a predetermined size is put into the feed hopper 100, and is conveyed and dried through the belt conveyor 102 and the dryer (103).

The foreign matter remaining in the transported net is separated from the high pressure air injected from the high pressure air 104, is sucked into the foreign material inhaler 105 is stored in the foreign matter storage container 106.

Referring to the foreign matter removal in detail with reference to Figure 2, the foreign matter removal is a foreign material inhaler 105, and a foreign material inhaler located on the left and right of the high-pressure air 104 and the belt conveyor 102 located in the upper portion of the dryer 103. 105 is made by the foreign matter storage container 106 is connected to the bottom.

The high pressure air injected from the high pressure air 104 is hot enough to dry the waste net transported to the belt conveyor 102 and functions to remove foreign matters of the waste net. In addition, the foreign matter inhaler 105 and the foreign matter storage container 106 serves to suck and treat the foreign matter separated from the waste net.

The waste net is transported to the belt conveyor 102 and dried in a high temperature high pressure air sprayed from the high pressure air 104, and foreign matter adhering to the waste net by the impact of the sprayed high pressure air is spaced apart from the waste net to fly in the air. Or fall to the bottom of the belt conveyor 102. The foreign matter separated from the waste net is sucked into the foreign substance inhaler 105 enters the foreign substance storage container 106.

This process is continuously made while the waste net is transported to the belt conveyor 102 in the dryer 103, it can be expected to increase the efficiency of the cleaning operation going on in the future. The temperature and strength of the high-pressure air are adjustable and temperature and strength sufficient to dry the waste net and remove foreign substances.

In addition, by connecting the foreign matter storage container 106 to the lower portion of the foreign substance inhaler 105 may facilitate the foreign matter processing. The crushed waste net that is dried and finished with the removal of the first foreign matter is transferred to the dehydration desalination apparatus 200.

In this embodiment, the high-pressure air 104 is installed on the upper part of the dryer 103, and the foreign material inhaler 105 and the foreign matter storage container 106 are installed on the lower side of the belt conveyor, but the present invention is not limited thereto. no.

Looking at the dehydration desalination apparatus in detail with reference to Figure 3, the dehydration desalination apparatus 200 is a washing machine 201, a rotating cylinder 204, salinity measuring unit 202, purifier 210, pretreatment device 211, reverse osmosis It comprises a fire fighting apparatus 212, storage tank 220, the pump 221.

The washer 201 has a circular shape and the inside of the washing machine is filled with washing water for desalination of the waste net, and the waste net is introduced from the input unit 203 of the upper part of the washing machine 201 in which the washing water is filled. The waste net is to remove the deposits, such as metal and to separate only the synthetic resin.

In addition, the washing machine 201 is in a cylindrical shape and the inner rotating cylinder 204 is a small hole 205 is drilled so that the washing water can escape, and receives power from the motor to rotate left and right at high speed. At this time, the salinity of the waste net can be measured through the salinometer 202.

Waste nets introduced from the input unit 203 collide with the washing water in the rotating cylinder 204 by receiving power from the motor, and the salts attached to each other while being rubbed with each other are dropped and dissolved in the washing water. After the desalting process is performed, the drain hole 206 is opened to drain the washing water in the washing machine 201 to the water purifier 210, and when the washing water is drained, the inner cylinder 204 is rotated again to rotate the marine waste net. Dewatered and dewatered water is sent to water purifier 210 through drain 206.

The drain port 206 may be provided with a screen to filter the residue or foreign matter of the waste net mixed in the washing water to be drained.

When the dehydration operation is completed, the drain 206 is closed, and the rotating cylinder 204 inside the washer 201 is mechanically vertically raised and tilted to discharge the waste net inside the washer 201. 4 to 5 show the operation of the inner rotary cylinder 204 for discharging the waste net after the desalination, dehydration and dehydration operation for the desalination, dehydration and foreign matter removal system for recycling the waste net according to an embodiment of the present invention. . The rotating cylinder 204 is configured to be able to vertically act and tilt with a conventional mechanical device such as a drive cylinder.

The purifier 210 is used for desalination and dehydration to purify the washing water containing salt into the pretreatment device 211 and the reverse osmosis device 212.

The pretreatment apparatus 211 according to the present embodiment may use various types of filters as the pretreatment apparatus according to the needs of the user, and may be configured in various ways such as using a plurality of filters of the same type.

The reverse osmosis apparatus 212 receives a washing water containing a large amount of salt through desalination and dehydration, and then discharges the washing water from which salt is removed using a reverse osmosis membrane.

Here, the pressure of the injection is the pressure caused by the transfer of the solvent from the low concentration side to the high concentration side when the two liquids having different concentrations are sealed with the semipermeable membrane. Reverse osmosis means a phenomenon in which pure solvent is released from the solution through the semipermeable membrane when a pressure higher than the osmotic pressure is applied. The reverse osmosis membrane is a semipermeable membrane used to cause reverse osmosis phenomenon.

The purified washing water is transferred to the storage tank 220 through the pump 221 while the salt is removed. In the embodiment, the purifier 210 is installed below the washer 201, but the present invention is not limited thereto.

The washing water stored in the storage tank 220 is introduced into the washing machine 201 through the pump 221.

This series of processes can reduce the amount of water generated during desalination and dehydration, thereby reducing the cost of recycling waste nets.

The pressing device 300 is a pair of pressing rollers 301 installed facing each other are arranged up and down to decompress the dehydrated, dehydrated waste net in the desalination dehydration apparatus 200 to dehydrate the remaining moisture and as a pressing operation The volume is reduced and transferred to the grinder 400 and pulverized.

Next, a process of a desalination, dehydration, and foreign substance removal system for recycling waste net according to an embodiment of the present invention will be described with reference to FIG. 7. In the following description, the structure of the desalination, dehydration and foreign matter removal system for recycling the waste net follows the configuration of FIGS. 1 to 6 and uses the same reference numerals.

7 is a flow chart of a desalination, dehydration and foreign matter removal system for recycling waste net according to an embodiment of the present invention.

First, the waste net cut to a predetermined size in step S110 is introduced into the supply hopper 101.

Subsequently, the waste net introduced in step S120 is transported and dried, and foreign matters are removed by the high pressure air 104.

Subsequently, the pegs are washed in step S130 and the wash water used for washing is purified.

Subsequently, the washed waste net is compressed and pulverized in step S140.

As described through the embodiments of FIGS. 1 to 7, the desalination, dehydration, and debris removal system for recycling waste nets according to the present invention, waste nets collected from the sea are recycled and desalted at a lower cost, Dewatering and debris removal can be performed.

What has been described above is only one embodiment for implementing a desalination, dehydration and foreign matter removal system for recycling waste net according to the present invention, the present invention is not limited to the above-described embodiment, the following claims As claimed in the present invention, those skilled in the art to which the present invention pertains will have the technical spirit of the present invention to the extent that various modifications can be made without departing from the gist of the present invention.

In order to explain the present invention in detail, the main codes used in the accompanying drawings will be described with reference to each code.
100: drying apparatus 101: supply hopper
102: belt conveyor 103: dryer
104: high pressure air 105: foreign material suction
106: foreign matter storage container 200: desalination dehydration device
201: washing machine 202: salinity measuring instrument
203: injection unit 204: internal rotating cylinder
205: hole 206: drain
210: Purifier
211: pretreatment device 212: reverse osmosis device
220: storage tank 221: pump
300: pressing device 301: pressing roller
400: grinder

Claims (4)

A drying apparatus for inputting, transferring and drying waste nets collected from the sea;
An injector including a high pressure air and a foreign substance inhaler for removing and inhaling foreign substances of the waste net;
A desalination dehydration apparatus comprising a purifier for desalting, dehydrating, desalting, and dehydrating the crushed waste nets transferred from the injector, and purifying the washing water containing a large amount of salt using a reverse osmosis apparatus;
A crimping device for crimping the waste nets transferred from the desalination apparatus;
Demineralization, dehydration and foreign matter removal system for recycling the waste net, characterized in that it comprises a; a crusher for crushing the dehydrated and compressed waste net in the compression apparatus. The method of claim 1,
The drying apparatus includes:
A feed hopper for introducing waste nets cut into a predetermined size;
A belt conveyor for transferring the waste net introduced from the feed hopper;
Desalination, dehydration and foreign matter removal system for recycling the waste net, characterized in that comprises a; dryer to dry the transported waste net.
The method of claim 1,
The injector,
A high pressure air to remove foreign matters of the conveyed waste net;
A foreign substance inhaler for inhaling foreign substances separated from the waste net;
Desalination, dehydration and foreign matter removal system for recycling the waste net, characterized in that comprises a; foreign matter storage container for storing the treated foreign matter. The method of claim 1,
The desalination apparatus,
A washing machine for desalting and dehydrating waste nets transferred from the dryer;
Salinity measuring device for measuring the waste salt in the washing machine;
Purifier used for desalination, dehydration to purify the washing water containing a large amount of salt using a reverse osmosis unit;
Desalination, dewatering and debris removal system for the recycling of waste nets, characterized in that comprises; a storage tank for storing the purified wash water

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