RU2768023C1 - Degassing system for solid waste polygons - Google Patents

Abstract

FIELD: biogas transportation and neutralization.

SUBSTANCE: invention relates to the safe and cost-effective operation of operating and discontinued landfills for solid household, municipal and industrial waste, namely to the collection, transportation and neutralization of biogas generated during the decomposition of waste in the body of the landfill. The degassing system for solid waste landfills contains vertical drainage flexible tires, consisting of plastic cores, which are wrapped in a filtering gas-permeable non-woven material, consisting of thermally bonded polymer fibers. Flexible busbars are installed at the same distance from each other and are connected in the upper part with a closed system of horizontal pipes with the possibility of venting gas to the outside. The degassing system includes a system for surface and underground collection, a system for transporting and processing biogas, systems for preparing, cleaning and utilizing biogas, and an energy generation system. The system of surface and deep collection includes vertical polymer belt tires with a textured core, immersed in the body of the landfill to a depth of up to 35 m. At the same time, the ends of the vertical tires are taken out of the body of the landfill on a slope or into the overlying layers. The vertical tires are combined into a closed gas transmission system, insulated with a sheet, and the horizontal drainage tires-mats are connected by 10-20 vertical tires each in the direction towards the central line of the gas collection areas. Drainage horizontal polymer tires-mats are overlapped over vertical strip drains extending from the body of the landfill by 0.5 m over the area of ​​the gas-gathering field and led into trenches, in which polymer tires are laid over perforated collector pipes. The trenches with a collector pipeline and attached polymer tires along the entire length are covered with gravel and covered with a drainage geocomposite, followed by covering with a smooth polymer sheet. The biogas transportation system includes a tubular gas transportation system, valve blocks and condensate separation, compressor stations, a control center for all operating equipment located in a modular building or block container. The landfill is insulated with a protective screen consisting of reclamation layers that form an airtight surface and prevent landfill gas from escaping.

EFFECT: invention provides an increase in the efficiency of biogas extraction for the stabilization of solid waste storage sites.

2 cl, 2 dwg

Description

The present invention relates to the safe and cost-effective operation of existing and decommissioned municipal solid waste landfills; solid municipal waste; industrial waste, namely to the section of collection, transportation and neutralization of biogas generated during the decomposition of waste in the body of the landfill.

The formation of biogas is associated with the anaerobic biosynthesis of methane, which naturally and constantly occurs in loose layers of waste, provided that they are hermetically stored at landfills. The constant release of biogas into the atmosphere causes environmental degradation due to the presence of harmful substances in it, such as methane and carbon dioxide. In addition, the release of biogas causes constant spontaneous combustion of waste in landfills. The yield of biogas per ton of dry matter of waste depends on both the thermodynamic conditions of biosynthesis and the type of waste.

There is a known method for collecting and removing biogas using a vertical gas drainage system in the form of wells equipped from the surface of the formed landfill and supplemented by a horizontal gas drainage system in the form of a developed network of horizontal drains laid under an insulating coating in the upper layer of waste (Germany Patent No. 3425785, MKI V09V 1/00, 1986).

The disadvantage of this method is that the organized removal of biogas is carried out only after the waste layer reaches the design height, which results in low efficiency of gas extraction from deep layers of waste and the absence of means for degassing the waste array as it forms.

A method is known for stimulating the biological decomposition and degassing of waste processing sites, comprising the following steps: installing drainage pipes on a waste processing site by pressing a hollow guide lance, in which the drainage pipe is located, in a direction vertically downwards into the waste processing site, and the lower part of the spear provided with a detachable plate to which the drain pipe is attached, the plate displaces the waste material in the waste disposal area and remains there when the lance is removed from the waste disposal area at a depth at which the drain pipe is installed at the bottom of the waste processing area; place a drainage layer on the waste present at the surface of the landfill site so that gas from both vertical drain pipes and from the surface of the waste collects in porous cavities or channels in the drainage layer, install top gas and water seals on top of the drainage layer to prevent escape gases into the atmosphere and oxygen supply to said biogas collection system and install a pipe system that releases gas from the drainage layer to the outside. Moreover, a flexible plastic section is used as a drainage pipe, and this section is surrounded by a filter material along its outer circumference, while preferably the filter material contains thermally bonded polypropylene fibers, and the drainage pipes are installed at a distance of 1-7 m from each other, vertically less than 4 m from the bottom insulation of the waste treatment site and drainage system, and preferably the drainage pipes are installed on the waste treatment site at such a depth that the drainage pipes form a connection with the drainage system that is already present at the waste treatment site. The upper insulation contains a layer of mineral insulating material, wherein the drainage layer is selected from a layer of porous material, a drainage mat and a drainage channel made of porous material, wherein the drainage layer is configured to maintain a reduced pressure in said drainage layer, while the drainage layer is configured to supply water to drainage pipes. Moreover, the pipe system is configured to maintain reduced pressure in the drainage pipes installed at the waste processing site, while the pipe system is configured to supply water to the drainage pipes (see EA patent No. 027813, IPC B09V 1/00, 2011).

The disadvantages of the system implemented in the method are: low efficiency of biogas extraction, both in terms of volume, due to the non-optimal location of the drains, and in terms of the quality of the extracted biogas, tk. filter material, located along the entire length of the drainage pipe, reduces the effectiveness of low or high pressures, which, in turn, leads to environmental degradation; the inability to regulate the qualitative composition of biogas at the outlet, because its quality is different in different places of the waste disposal site; the need for frequent removal of condensate formed in the pipes, because condensate is formed along the entire length of the main pipe.

There is a known method for stimulating the degassing of a waste disposal site (Russian patent No. 2696886, V09V 1/00, 03/19/2019), the essence of which is to immerse a large number of flexible vertical wells into the body of the landfill, which on the surface are linked to each other by gas-gathering horizontal flexible drains transporting the collected gas to the system of its utilization. This method is used in the Dutch Multriwell technology (https://www.multriwell.com/).

The disadvantage of the system is the limitation of the average installation depth of vertical drains to 13 m, which does not allow collecting landfill gas in high-quality landfills with a height of more than 20 m and limits the effect on the filtrate lenses located in the landfill body, which does not allow uniform distribution of moisture inside the landfill body, leads to an increase in hydraulic head in the body of the landfill and an increase in the formation of leachate. Also, the hydrogen sulfide removal layer in the described invention is ineffective. in landfill gas, the content of carbon dioxide is much higher than the content of hydrogen sulfide and the primary reaction is the formation of calcium carbonate, the reaction of decomposition of hydrogen sulfide occurs in a minimum volume.

There is a known method for collecting, removing and neutralizing biogas at sites for the placement of solid waste and solid waste (Russian patent No. waste, contains vertical drainage flexible drains (tires) consisting of plastic cores wrapped in filtering gas-permeable non-woven material consisting of thermally bonded polymer fibers, installed at the same distance from each other and connected at the top with a closed system of horizontal pipes , which are connected to condensate collectors, a compressor, a gas compressor, a flare system, while the system is equipped with a station for automatically adjusting the biogas flow from each gas collection cluster and an automated control system.

The disadvantage of the system is the absence of a protective screen on the surface of the landfill, which prevents the entry of atmospheric precipitation into the body of the landfill and the release of landfill gas into the atmospheric air.

The problem solved by the invention is to increase the efficiency of biogas extraction to stabilize solid waste storage sites, improve environmental ecology, ensure the supply of a given composition of biogas to consumers, and reduce the frequency of condensate removal.

The technical result from the application of the invention is to increase the efficiency of biogas extraction to stabilize solid waste storage sites.

This is achieved due to the fact that the degassing system for solid waste landfills, containing vertical drainage flexible tires (drains), consisting of cores, which are wrapped in a filtering gas-permeable non-woven material, consisting of thermally bonded polymer fibers, installed at the same distance from each other; connected at the top with a closed system of horizontal pipes, having the ability to release gas to the outside, according to the invention, includes a system of surface and underground collection, transportation and processing of biogas, an energy generation system, while the system of surface and underground collection includes a gasket in the form flexible tires (drains) with a textured core, the ends of the tires are placed outside the body of the landfill on a slope or in the overlying layers, the flexible tires are combined into a closed gas transmission system insulated with a sheet, the gas transportation system of flexible tires is connected through separating wells to a tubular gas transmission system, wells formed stitcher punctures, equipped with flexible tires. Stitcher pin holes are equipped with flexible tires, drillable casing is an option in case there is an obstacle in the body of the landfill that the stick pin cannot pass. Wells can be equipped with casing pipes, including those with perforation. In a typical situation, instead of casing pipes and wells, punctures are made in the body of the landfill and flexible vertical drains are immersed in them (they are not equipped with casing pipes). The flexible tires coming out of the wells are connected to a closed gas transmission system, insulated with a sheet. The gas transportation system of flexible tires is connected through separation wells to the tubular gas transportation system. The biogas transportation system includes a tubular gas transportation system, blocks of valves and condensate separation, and a compressor station. The biogas preparation, purification and disposal systems optionally include a blower compressor, an adsorber, a gas dryer, a scrubber, a flare plant, an automated gas analyzer system, a gas piston block thermal power plant, a control center for all operating equipment located in a modular building or a special block container.

Significant differences between the invention and known technical solutions:

- gas-gathering communications in the landfill body are carried out using flexible polymer tires, which compensate for the natural subsidence of the landfill body and maintain the integrity and performance of the system;

- it is allowed to use flexible polymer tires, both in vertical wells and when laying in the body of an operating landfill;

- allows you to use any type of wells, the number, type and depth depends on the morphology of the landfill body.

- is a closed system for processing both gases and liquid wastes;

- allows you to get commercial products (electricity and steam) from waste.

- allows you to install the system on an existing landfill, increase it during operation and receive biogas (landfill gas, Methane) even after the landfill is closed.

On FIG. 1 shows the degassing system for solid waste landfills, a vertical drainage flexible drain unit

On FIG. 2 - the same, the node of the horizontal drainage flexible drain.

Positions designate: vertical tape tire (drains) 1; sheet 2; separation well 3; tubular gas transport system 4; valve block and condensate separation 5; draining horizontal tire-mat 6; drainage geocomposite 7; geogrid 8; leveling layer of inert material 9; reclamation layer 10; plant layer 11.

The invention relates to the safe and cost-effective operation of existing and discontinued waste landfills for MSW (Household Solid Waste); MSW (Communal Solid Waste); PO (Industrial waste); and mixed waste landfills. Namely, to the section of the collection and use of biogas (landfill gas, Methane), generated in the process of decomposition of waste in the body of the landfill, to the generation of electricity; obtaining technical steam, both in a separate and in a combined process.

The invention includes: a system for surface and underground collection, a system for transporting and processing biogas, a system for generating electricity or technical steam suitable for sale to third-party consumers.

The surface and in-depth collection system for operating landfills includes gaskets in the form of flexible polymer tires 1 with a textured core during the operation of the landfill, bringing the ends of the tires 1 out of the landfill body onto a slope or into overlying layers. Flexible tires 1 are connected into a closed gas transmission system, insulated with a polymer sheet 2 with a thickness of at least 0.2 mm. The gas transportation system of flexible polymer tires 1 is connected through separation wells 3 to the tubular gas transportation system 4. Further, the biogas is transported to the processing equipment.

The biogas transportation system (landfill gas, methane) includes: a tubular gas transportation system 4, blocks of valves and condensate separation 5, a biogas drying system, a biogas purification system based on scrubbers and/or sorbent gas filters, compressor stations.

Control point (not shown in the figure) for all operating equipment located in a modular building or a special block container.

Implementation of the system. The working surface of the landfill is divided into gas collection fields (the approximate area of the field should be 1000 - 3000 m ² , the exact size is determined in accordance with the parameters of the landfill body). The main element of the system is vertical polymer belt tires (drains) 1, which are immersed into the body of the landfill every 2-3-4 meters (depending on the geometry of the landfill), to a depth of 35 m, which allows not only to extract landfill gas from the body landfill, but also evenly distribute the leachate, penetrating into hard-to-reach areas of the waste array.

Drainage horizontal polymer tires-mats 6 are overlapped over vertical tape drains 1 (outgoing from the body of the landfill by 0.5 m), over the area of the gas-gathering field and lead into trenches in which polymer tires are laid over perforated collector pipes, along which biogas is transported to gas condensate collection wells. The trenches filled with gravel with a collector pipeline and attached polymer tires are covered along the entire length with a drainage geocomposite, followed by covering with a smooth polymer sheet.

Horizontal drainage tires-mats 6, connected by 10-20 vertical tires each, come to the central line of gas collection sites. Gas-gathering perforated collector polyethylene pipeline is connected to gas condensate-gathering wells. Landfill gas is transported through gas condensate collection wells from collector pipelines to the external surface, where it enters the gas transmission pipeline. Through gas pipelines, landfill gas enters the collector, and then through the main pipeline to the gas collection station, then to the neutralization station. At the necessary low points of the gas transmission pipelines, the escaping condensate is collected in siphons. The discharge of the escaping condensate in the pipeline flows, depending on the direction of the slope, downstream or against the flow of biogas to the condensate collectors. For condensate collectors, a return drainage is provided, into the body of the landfill, into the leachate collection system.

After the installation of the landfill gas removal system, work is carried out to isolate the landfill with a protective screen consisting of reclamation layers, the composition and appearance of which may vary depending on the morphology and geometry of the landfill, forming a sealed surface and preventing landfill gas from escaping.

Claims (2)

1. Degassing system for solid waste landfills, containing vertical drainage flexible tires, consisting of plastic cores, which are wrapped in a filtering gas-permeable non-woven material, consisting of thermally bonded polymer fibers, installed at the same distance from each other, connected at the top with a closed system of horizontal pipes having the ability to release gas to the outside, characterized in that it includes a system of surface and in-depth collection, a system for transporting and processing biogas, systems for preparing, cleaning and utilizing biogas, an energy generation system, while the system for surface and in-depth collection includes vertical polymeric tape tires with a textured core, immersed in the body of the landfill to a depth of 35 m, the ends of the vertical tires are taken out of the body of the landfill on a slope or into the overlying layers, the vertical tires are combined into a closed gas transmission system, insulated with a sheet, horizontal drainage tires-mats, connected by 10-20 vertical tires each, in the direction to the central line of the gas collection areas, draining horizontal polymer tires-mats are overlapped over vertical tape drains extending from the landfill body by 0.5 m, along the area of the gas collection field and brought into trenches, in which polymer tires are laid over perforated collector pipes, trenches with a collector pipeline and attached polymer tires along the entire length are covered with gravel and covered with a drainage geocomposite, followed by covering with a smooth polymer sheet, the biogas transportation system includes a tubular gas transportation system, blocks valves and condensate separation, compressor stations, control center for all operating equipment located in a modular building or block container, the landfill is insulated with a protective screen consisting of reclamation layers that form a sealed surface and prevent landfill gas from escaping. 2. The degassing system for solid waste landfills according to claim 1, characterized in that the systems for the preparation, purification and utilization of biogas optionally include an adsorber, a gas dryer, a scrubber, a flare plant, an automated system of gas analyzers, a gas-piston block thermal power plant.

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