RU2136402C1 - Method of burial of wastes in dump - Google Patents

Abstract

FIELD: environment control; joint stockpiling and utilization of various waste. SUBSTANCE: first. territories of burial of wastes are subjected to topographic, geological and hydrogeolocical analysis followed by formation of pit, core and dump. Watertight shield is formed over lateral slopes of pit and base; gravel-sand bed is made above this shield; lateral walls of pit are inclined relative to base. Distributing reinforced concrete slab is laid on bottom of pit within base of core and core is formed on this slab from large-fragment material. Tight shield whose height is equal to 1/3 of height of core is provided in upper portion of core; this shield has holes for gas discharge pipes. Inner portion of dump is formed depending on physico-chemical properties of wastes or layer by layer with sealing, or by filling to design height without mechanical sealing by forming a layer of pressed briquettes of solid domestic wastes which are coated by insulating layer of soil. intermediate zone, 0.8 to 1.0 m in size is made between this layer and inner portion of dump from sand-gravel soil. EFFECT: extended field of application; enhanced efficiency; reduced expenses. 1 dwg

Description

 The invention relates to the field of environmental protection and can be used for joint storage and disposal of various waste: solid and waste water.

 A known method of urban municipal and industrial waste disposal, including a preliminary analysis of the geological, topographic and hydrogeological characteristics of waste disposal areas, the formation of a trench to the depth of the waterproof layer, the drainage device at the bottom of the trench, the penetration of the well and its connection with drainage, filling the trench with waste and covering them a layer of overburden [1].

 This method of disposal has a number of disadvantages: firstly, disposal requires the removal of large areas that are suitable for use in agriculture and communal housing, and secondly, this method is applicable provided that the water closure is close, which makes it limited in use ( which introduces additional restrictions on its use).

 The closest technical solution to the method is a method for the disposal of sewage sludge, including a preliminary analysis of the topographic, geological and hydrogeological characteristics of the disposal areas. The whole territory is bordered by an anti-filtration curtain (wall in the ground), a drainage system is being built, a pit is being developed, followed by filling it with sewage sludge and forming the upper part of the dump [2].

 The disadvantages of this method are: firstly, the low inconsistency of the buried material, which requires the installation of cavaliers of significant dimensions from mineral soils, additional costs and leads to inefficient use of land, and secondly, to give the stability of the blade, there is a need to create intermediate layers of sand of large power (more than 2 m), which reduces the efficiency of the blade.

 The aim of the proposed invention is to expand the scope, increasing efficiency and reliability due to the device core of the trapezoidal section in the middle part of the dump of coarse material on top of a complex base, as well as reducing costs for the implementation of the method and reducing the time to bring the landfill to an environmentally sustainable state and reducing the negative impact of landfill products on the environment.

 To achieve this goal, a method for landfill disposal is proposed, which includes a preliminary analysis of the topographic, geological and hydrogeological characteristics of the landfill with the subsequent formation of a pit, core and dump, and a waterproof screen is arranged along the side slopes of the foundation pit and the base, a gravel-sand cushion is made on top of the screen , the side walls of the pit are formed at an angle to the base, at the bottom of the pit, within the base of the core, a distribution iron is laid eton plate, a core of coarse-grained material is arranged on top of the plate, an impermeable screen with a height of 1/3 of the height of the core is made in the upper part of the core, the inner part of the dump is formed depending on the physicomechanical properties of the waste to be disposed of, either in layers with a seal or dumped to the design height without mechanical compaction and the implementation of the loading layer of pressed briquettes of solid household waste, covered with an insulating layer of soil, between the loading layer and the inner part of the dump arrange a transition hydrochloric zone of sandy soil of 0.8 - 1.0 m.

 The proposed method of landfill disposal differs from the known one in that: the side walls of the pit are made at an angle to the base of the pit, a waterproof screen is arranged along the inclined walls and the base of the pit, and a gravel-sand cushion is placed on top of the screen, above the gravel-sand cushion at the base of the pit arrange the core of a trapezoidal section of coarse material. A distribution reinforced concrete slab is located at the base of the core, and an impermeable screen 1/3 of the height of the core and with openings for gas pipes are arranged in the upper part. The inner part of the dump is formed depending on the physicomechanical properties of the utilized waste, either layer by layer with compaction or filling to the design height without mechanical compaction and a loading layer made of pressed briquettes of solid household waste. Moreover, between the loading layer of pressed briquettes of solid household waste and the inner part of the dump, a transition zone of sand and gravel soil is arranged. A layer of insulating soil is poured on top of the loading layer, followed by reclamation of slopes and dump territories.

 The implementation of the method is illustrated in the drawing.

 The method of landfill in the dump is as follows.

 Initially, a pit is developed with the expectation that the volume of the excavation is equal to or greater than the volume necessary for sanitary filling and biological reclamation of the slopes of the dump. The side walls of the pit, serving as the bottom, are performed with a general bias towards the core. In order to prevent the filtrate from entering the groundwater, a waterproof screen 1 is arranged at the base of the pit bottom. In order to prevent damage to the screen during the process, a sand and gravel cushion 2 is poured on top of it, which also serves as drainage and allows the filtrate to be removed to the core base. To prevent bursting and to evenly distribute the load when dumping and operating the core 3 from coarse material, a reinforced concrete distribution plate 4 is laid on the base of the pit within the base of the core 4. The core is made of coarse material obtained during the development of quarries, tunnels, mines, ditches, as well as waste mining and house-building plants, and consists of coarse clastic material. In order to avoid direct surface water entering the core, an impermeable screen 5 with a size equal to 1/3 of the core height is arranged in the upper part of the core contour. In order to divert the gaseous decomposition products, openings for installing gas exhaust pipes are provided in the screen 9. The inner part of the dump is formed from municipal solid waste or sewage sludge. Depending on the physicomechanical properties of the utilized waste, filling is carried out either in layers with compaction or filling directly to the design height without mechanical compaction.

Rigid loading 7 is made of pressed briquettes of solid household waste with a density of 1.0 ^o C 1.3 t / m ³ , laid "in the dressing of blocks" on the outer surface of the inner part of the dump and on the inclined walls of the pit; it improves the stability and reliability of the entire blade. To accelerate the processes of neutralization and decomposition of waste in the dump between the inner part 6 and the loading layer 7, a transition zone 10 is made of sand and gravel soil with a size of 0.8 - 1 m.An insulating soil layer 8 is poured on top of the load, followed by restoration work of the dump territory.

Sources of information:
1. USSR patent N 1792350, B 09 V 1/00, 01/30/93.

 2. V.I.Smetanin "Cleaning and arrangement of reservoirs", pp. 118-119. Tutorial. Edition of Moscow State University of Environmental Engineering. (prototype). 1996.

Claims (1)

 A method of dumping waste into a dump, including a preliminary analysis of the topographic, geological and hydrogeological characteristics of the landfill with the subsequent formation of a pit, a core and a dump, characterized in that a waterproof screen is arranged on the side slopes of the foundation pit and the base, on top of which a gravel-sand cushion is made, side the walls of the pit are formed at an angle to the base, at the bottom of the pit, within the base of the core, a distribution reinforced concrete slab is laid, on top of the slab arrange the core from coarse material, in the upper part of the core perform an impermeable screen with a height of 1/3 of the height of the core with openings for gas pipes, and the inner part of the dump is formed depending on the physicomechanical properties of the utilized waste; either in layers with compaction, or filling to the design height without mechanical compaction by creating a loading layer of pressed briquettes of solid household waste covered with an insulating soil layer, a transition zone of sand and gravel soil of 0.8 - 1 is arranged between the loading layer and the inside of the dump, 0 m