KR20090030471A - Landfill gas collecting and leachate excluding system with leachate transferring equipment - Google Patents

Abstract

A leachate transfer apparatus for transferring landfill gas and leachate to a dry area of a landfill is provided to improve a decomposition reaction for waste and maximize an output of landfill gas. A leachate transfer apparatus(150) for transferring landfill gas and leachate comprises a sunlight integrated board(151), a sunlight control panel(157), a leachate transfer pump(159), a leachate transfer pipe(104), and a leachate supply tube(106). The sunlight integrated board integrates light energy from the sun. The sunlight control panel includes a storage battery(153) and an inverter for converting light energy integrated on the sunlight integrated board into electrical energy.

Description

Leachate Transfer Device and Landfill Gas Collection and Leachate Excluding System with Leachate Transferring Equipment

The present invention relates to a leachate transfer device and a landfill gas collection and leachate exclusion facility having the same. More specifically, by collecting landfill gas and leachate from waste landfill at the same time, the leachate is transported and supplied to a dry area that lacks moisture, thereby improving waste decomposition reaction in the dry area and maximizing the amount of landfill gas produced. The present invention relates to a conveying apparatus and a landfill gas collection and leachate removal facility having the same.

Generally, about 60% of the wastes brought into the domestic landfills are domestic wastes, and there are a lot more rapid biodegradable materials than foreign wastes. There is a situation.

In addition, due to the location conditions of domestic landfill sites, they are not normally spaced far from the living area.If rapid landfill gas collection and treatment cannot be carried out, odor causing substances are contained in the landfill gas. This will cause a complaint.

Therefore, the landfill gas collection and treatment facility is a very important facility in the operation of landfill sites, so it must be operated stably.

On the other hand, due to the high water content of the domestic waste (about 40-50%) conventionally, the flow of leachate generated inside the buried layer flows by forming a specific channel (Channel Flow) below due to the inhomogeneity of the waste. The flow may be delayed by the intermediate cover layer, which has a relatively small permeability coefficient, and it is possible that a certain water level layer is formed in a specific section of the buried layer by this delay phenomenon.

In addition, since most of the landfills in Korea are made of multi-stage landfills, a specific water level is formed for each stage, resulting in a problem that the landfill system's stability is reduced and the leachate leakage potential is high. The explosive landfill gas generation due to the rapid anaerobic decomposition of waste increases the pressure inside the landfill, which increases the possibility of leakage of leachate and odor-causing substances, and the landfill gas collection facility due to the leachate discharged even when the landfill gas collection facility is installed. Problems such as a decrease in collection efficiency occurred.

In general, the landfill gas collecting facility is classified into a vertical collection method and a horizontal collection method. In general, the vertical collection method is installed for stable landfill gas collection and simple disposal during landfill, and the horizontal collection method is an active odor during landfill. It is installed to collect the landfill gas for reduction, the present invention relates to a vertical capture method, it will be described only below.

When a landfill gas collection facility is installed in a landfill for extraction of landfill gas, leachate is collected in the gas extraction pipe, and therefore, leachate should be discharged first. Therefore, in the related art, simply connecting a leachate discharge device to a landfill gas collection facility stores the discharged leachate in a storage tank and sends it to a sewage treatment facility.

However, in this case, the dry area lacking moisture causes the landfill gas to be deteriorated due to the lack of leachate for supplying the water necessary for the decomposition reaction of the waste, and thus the landfill gas extraction economic efficiency is lost, thus losing the function as a collecting hole. There was this.

In addition, domestic waste landfills are prohibited from carrying wastes with high moisture content due to changes in government policies, resulting in water shortages, a key component of landfill gas generation, leading to a decrease in landfill gas generation, and at the same time, delaying landfill stabilization. It acts as a factor.

In fact, landfill sites formed before 2001 are mostly wet zones rich in leachate, and landfill sites formed after 2001 are mostly dry zones, depending on waste composition and landfill environment. Even in landfills, dry and water regions coexist simultaneously.

Therefore, in the dry area, there is a problem in that the leachate that plays a necessary water role during the decomposition reaction of the waste is insufficient, so that the reaction of generation of landfill gas is not active and the decomposition capacity of the waste decreases, thereby reducing the generation of landfill gas.

In order to solve this problem, the present invention collects the landfill gas and leachate generated from the waste landfill at the same time to transfer the collected leachate to the dry region lacking moisture to improve the waste decomposition reaction in the dry region and the The purpose of the present invention is to provide a leachate transfer device capable of maximizing the amount of production and a landfill gas collection and leachate exclusion facility having the same.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a cross-sectional view of a leachate transport apparatus according to a first embodiment of the present invention and a landfill gas collection and leachate exclusion facility having the same.

As shown, the leachate transport apparatus 150 according to the first embodiment of the present invention includes a solar integrated plate 151, a solar control panel 157, a leachate transport pump 159, a leachate transport pipe 104, Leachate supply pipe 106 and the like.

In addition, the landfill gas collection and leachate exclusion facility having a leachate transfer device is the leachate transfer device 150; Piping device 110, air pipe 113, submersible pump 115, submersible pump control panel 161, oil pipe 119, support 117, leachate collection pipe 121, level gauge 129, etc. It comprises a landfill gas collection and leachate removal facility 100 is configured.

Generally, electricity is used as a power source for operating a landfill gas or leachate collection facility at a waste landfill, and for this purpose, a separate power supply facility must be installed in a landfill site or a power source is introduced from another nearby area. For power supply, leachate is extracted and transferred using solar energy as a power source.

That is, the leachate transport apparatus 150 according to the first embodiment of the present invention includes a solar integrated plate 151 for integrating solar light energy; A solar control panel 157 including an inverter 155 for converting light energy integrated in the solar integrated plate into electrical energy, and a storage battery 153 for storing or supplying electrical energy generated by the inverter; A leachate feed pump 159 which receives electric energy from the solar control panel and feeds the leachate to the leachate supply pipe 106 through the leachate feed pipe 104; A leachate feed pipe (104) for transferring leachate to a dry area by a leachate feed pump; It is configured to include a leachate feed pipe 106 is connected to one end of the leachate feed pipe, the supply hole 127 for leachate spraying is formed.

Meanwhile, the landfill gas collection and leachate removal facility 100 includes a check valve 101 to prevent backflow of leachate, a gate valve 103 to open and close the transfer of leachate, and a ball valve 105 to check whether the pipe is blocked and cleaned. A piping device 110 including a leachate pipe 107, a landfill gas pipe 108, and a landfill gas transfer pipe 125 to which the same is attached; A non-gong tube 113 inserted into the collecting hole 123 to collect and extract the landfill gas; A perforated pipe 119 for filtering the waste components coexisting with the leachate and supplying only the leachate component to the water pump 115; An underwater pump 115 for pumping the leachate introduced through the hole into the leachate pipe 107; A leachate collection pipe 121 connected to the submersible pump and collecting and extracting the leachate pumped from the submersible pump into the leachate pipe 107; A submersible pump control panel 161 for controlling the operation of the submersible pump 115 for collecting and extracting leachate by receiving electric energy from the solar control panel 157; A level gauge 129 which detects the level of the leachate and sends a signal to the submersible pump control panel 161; It is configured to include a support 117 connected between the water pump 115 and the hole pipe 119 to support the water pump.

Submersible pump 115 is connected to the wire 111 is installed so as to pull the water pump to the ground through the unopened pipe 113 embedded in the collecting hole 123 during the repair and management of the pump.

In addition, the landfill gas collection and leachate exclusion facility having a leachate transport apparatus according to the first embodiment of the present invention comprises the leachate transfer device 150 and the landfill gas collection and leachate exclusion facility 100.

Therefore, the landfill gas collected in the landfill gas collection and leachate exclusion facility 100 configured as described above is transferred to a separate landfill gas treatment and resource recycling facility (not shown) through the landfill gas transfer pipe 125 and simultaneously collected leachate The leachate is transported to a dry area in which the decomposition reaction of the waste is slow and the generation of landfill gas is not activated by the leachate transfer device 150 is activated to maximize the generation of landfill gas by activating the decomposition reaction of the waste.

The operation process of the leachate transfer device and the landfill gas collection and leachate exclusion facility equipped with the same according to the first embodiment of the present invention will be briefly described as follows.

When the water level is measured at a predetermined level or more in the water level meter 129 measuring the level of the leachate installed in the hollow pipe 113 embedded in the collecting hole 123, the submersible pump control panel 161 operates the submersible pump 115 The leachate is extracted into the leachate collection pipe 121 and the extracted leachate is transferred to the leachate feed pipe 104 through the leachate pipe 107.

The leachate feed pipe 104 is connected to the leachate pipe 107 and the leachate feed pipe 106 at both ends, respectively, and the leachate is dried by the leachate feed pump 159 powered by the solar control panel 157. Transferred. The leachate thus transported is sprayed to the drying area through the supply hole 127 formed in the leachate supply pipe 106, the leachate penetrates the waste to activate the decomposition reaction of the waste.

However, in the first exemplary embodiment of the present invention, the submersible pump control panel 161 which transmits the signal measured by the level gauge 129 to the submersible pump control panel 161 and receives the signal is shown as operating the submersible pump 115. Although not necessarily limited thereto, in some cases, the submersible pump control panel 161 is configured without a submersible pump 115 to directly send the measured signal to the submersible pump 115 directly from the water level measuring instrument 129. It may work.

Figure 2 is a cross-sectional view of the landfill gas collection and leachate removal facilities provided with a leachate transport apparatus according to a second embodiment of the present invention.

As shown in FIG. 2, the landfill gas collection and leachate exclusion facility including the leachate transport apparatus according to the second embodiment of the present invention includes a leachate transport apparatus 150; And a check valve 101 to prevent backflow of the leachate, a gate valve 103 for opening and closing the transfer of leachate, a ball valve 105 for checking and cleaning pipes, and a leachate pipe 107 and a landfill A piping device 110 including a gas pipe 108 and a buried gas transfer pipe 125; A non-gong tube 113 inserted into the collecting hole 123 to collect and extract the landfill gas; A perforated pipe 119 for filtering the waste components coexisting with the leachate and supplying only the leachate component to the extraction pump 215; An extraction pump 215 for pumping the leachate introduced through the hole into the leachate pipe 107; An air compressor 201 and an air storage tank 203 for driving the extraction pump 215 by compressing and storing air by receiving electrical energy from the solar control panel 157; A leachate collection pipe 121 connected to an extraction pump and collecting and extracting leachate pumped from the extraction pump 215 to the leachate pipe 107; A level gauge 129 which detects the level of the leachate and sends a signal to the air compressor 201; It is configured to include a landfill gas collection and leachate removal facility 200 is configured to include a support 117 connected between the extraction pump 215 and the hole pipe 119 to support the extraction pump.

Briefly explaining the operation of the landfill gas collection and leachate exclusion facility equipped with a leachate transfer device according to a second embodiment of the present invention, when a predetermined level or more is measured in the water level meter 129, from the solar control panel 157 The extraction pump 215 is operated by the pressure of the air stored in the air storage tank 203 by the air compressor 201 supplied with electric energy to leach the leachate introduced through the oil hole pipe 119 below the collecting hole 123. Extracted by the collection pipe 121, the leachate is extracted is transferred to the dry region lacking moisture through the leachate pipe 107 through the leachate transfer device 150.

However, in the second exemplary embodiment of the present invention, the air compressor which receives the signal measured by the water level measuring instrument 129 and receives the signal is illustrated and described as being operated, but is not necessarily limited thereto. The controller may be configured to further control the compressor to send a signal measured by the water level measuring instrument 129 to the controller to operate the air compressor. Since the leachate feeder is the same as the first embodiment, a detailed description thereof will be omitted.

3 is a cross-sectional view of a landfill gas collection and leachate removal facilities provided with a leachate transport apparatus according to a third embodiment of the present invention.

As shown in FIG. 3, the landfill gas collection and leachate exclusion facility including the leachate transport apparatus according to the third embodiment of the present invention includes a leachate transport apparatus 150 and a check valve 101 to prevent backflow of leachate, leachate The leachate pipe 107 and the landfill gas pipe 108 and the landfill gas transfer pipe 125 to which the gate valve 103 for opening and closing the transfer of water, and the ball valve 105 for checking and cleaning the pipes are attached. A piping device 110 configured to include; A non-gong tube 113 inserted into the collecting hole 123 to collect and extract the landfill gas; A perforated pipe 119 for filtering the waste components coexisting with the leachate and supplying only the leachate component to the jet pump 315; A jet pump 315 for pumping the leachate introduced through the hole into the leachate suction pipe 321 through the nozzle 307; A leachate circulation pump 305 which receives electric energy from the solar control panel 157 and circulates the leachate introduced from the leachate pipe 107 to the leachate circulation pipe 323; A leachate circulation pipe 323 connected with the leachate circulation pump and the jet pump to transfer the leachate to the jet pump 315; A leachate suction pipe 321 connected to the jet pump and transferring the leachate pumped from the jet pump to the leachate pipe 107 and the leachate circulation pump 305; The landfill gas collection and leachate exclusion facility 300 is configured to include a level gauge 129 that detects the level of the leachate and sends a signal to the leachate circulation pump 305.

Briefly explaining the operation of the landfill gas collection and leachate exclusion facility equipped with a leachate transfer device according to a third embodiment of the present invention, when the water level is measured at a predetermined level or more in the water level meter 129, from the solar control panel 157 Powered leachate circulation pump 305 is operated so that the leachate is transferred to the jet pump 315 through the leachate circulation pipe 323 is ejected through the nozzle 307 and the collecting hole 123 by the pressure difference generated at this time Leachate is introduced from the lower hole tube 119 is to be sent to the leachate suction pipe 321. The leachate thus sent out will be finally transported to a dry area lacking moisture through the leachate pipe 107 and the leachate feeder.

However, in the third exemplary embodiment of the present invention, the signal measured by the level gauge 129 is transmitted to the leachate circulation pump 305 and illustrated and described as the leachate circulation pump receiving the signal, but it is not necessarily limited thereto. In some cases, the control unit for controlling the leachate circulation pump may be further configured to send a signal measured by the water level measuring instrument 129 to the control unit to operate the leachate circulation pump.

The leachate feeder is a solar control panel 151, the solar control panel 157 including the storage battery 153 and the inverter 155 is supported by the support plate 310 to be located on the top of the piping device Except for the same, the detailed description thereof will be omitted.

The above description is merely illustrative of the present invention, and those skilled in the art will appreciate that various modifications and variations can be made without departing from the essential features of the present invention. Accordingly, the embodiments disclosed herein are not intended to limit the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the same scope should be interpreted as being included in the scope of the present invention.

1 is a cross-sectional view of a leachate transport apparatus and a landfill gas collection and leachate exclusion facility having the same according to a first embodiment of the present invention,

Figure 2 is a cross-sectional view of the landfill gas collection and leachate removal facility equipped with a leachate transport apparatus according to a second embodiment of the present invention,

3 is a cross-sectional view of a landfill gas collection and leachate removal facilities provided with a leachate transport apparatus according to a third embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100: landfill gas collection and leachate removal facility 107: leachate collection pipe

108: landfill gas collecting tube 113: non-empty tube

115: submersible pump 117: support

119: Merit pipe 121: Leachate collection pipe

123: collecting hole 125: landfill gas transfer pipe

127: supply hole 129: level gauge

151: solar integrated plate 153: storage battery

155: inverter 157: solar control panel

161: Submersible Pump Control Panel 201: Air Compressor

205: air storage tank 215: extraction pump

305: leachate circulation pump 315: jet pump

321: leachate suction pipe 323: leachate circulation pipe

Claims (4)

A solar integrated plate integrating solar light energy; A solar control panel including an inverter for converting light energy integrated in a solar integrated plate into electrical energy and a storage battery for storing or supplying electrical energy generated by the inverter; A leachate feed pump that receives electrical energy from the solar control panel and presses the leachate through the leachate feed pipe to the leachate feed pipe; Leachate transfer pipe for transferring the leachate to the drying area by the leachate transfer pump; A leachate supply pipe connected to one end of the leachate transport pipe and having a supply hole for leachate spraying; Characterized in that comprises a, leachate transfer device. Leachate transport apparatus of claim 1; And Pipes including leachate pipes, landfill gas pipes, and landfill gas transfer pipes with check valves to prevent backflow of leachate, gate valves for opening and closing the leachate, and ball valves for checking and cleaning pipes. Device, An empty tube inserted into the collecting hole to collect and extract landfill gas; A perforated pipe that filters only the leachate and the waste constituents and supplies the leachate to the submersible pump, An underwater pump for pumping the leachate introduced through the perforated pipe into the leachate pipe, A leachate collection pipe connected to the submersible pump to collect and extract the leachate pumped from the submersible pump into the leachate pipe; Submersible pump control panel which controls the operation of submersible pump which collects and extracts leachate by receiving electric energy from solar control panel, A level gauge that detects the level of leachate and sends a signal to the submersible pump control panel, A landfill gas collection and leachate exclusion system comprising a support connected between the water pump and the oil pipe to support the water pump; Landfill gas collection and leachate removal facility equipped with a leachate transfer device, characterized in that comprising a. Leachate transport apparatus of claim 1; And Pipes including leachate pipes, landfill gas pipes, and landfill gas transfer pipes with check valves to prevent backflow of leachate, gate valves for opening and closing the leachate, and ball valves for checking and cleaning pipes. Device, An empty tube inserted into the collecting hole to collect and extract landfill gas; A perforated pipe for filtering only the leachate and the leachate from the waste, and supplying only the leachate to the extraction pump; An extraction pump for pumping the leachate introduced through the perforated pipe into the leachate pipe, An air compressor and an air storage tank for driving the extraction pump by compressing and storing air by receiving electric energy from the solar control panel; A leachate collection pipe connected to the extraction pump for collecting and extracting leachate pumped from the extraction pump to the leachate pipe; A level gauge that detects the level of leachate and sends a signal to the air compressor, A landfill gas collection and leachate exclusion system comprising a support connected between the extraction pump and the hole pipe to support the extraction pump; Landfill gas collection and leachate removal facility equipped with a leachate transfer device, characterized in that comprising a. Leachate transport apparatus of claim 1; And Pipes including leachate pipes, landfill gas pipes, and landfill gas transfer pipes with check valves to prevent backflow of leachate, gate valves for opening and closing the leachate, and ball valves for checking and cleaning pipes. Device, An empty tube inserted into the collecting hole to collect and extract landfill gas; A perforated pipe that filters only the leachate and the waste constituents and supplies the leachate to the jet pump; A jet pump for pumping the leachate introduced through the hole into the leachate suction pipe through the nozzle; A leachate circulation pump which receives electric energy from the solar control panel and circulates the leachate introduced from the leachate pipe to the leachate circulation pipe; A leachate circulation pipe connected to the leachate circulation pump and the jet pump to transfer the leachate to the jet pump, A leachate suction pipe connected to the jet pump and transferring the leachate pumped from the jet pump to the leachate pipe and the leachate circulation pump; A landfill gas collection and leachate exclusion facility comprising a level meter for sensing the level of leachate and sending a signal to the leachate circulation pump; Landfill gas collection and leachate removal facility equipped with a leachate transfer device, characterized in that comprising a.

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