RU2645367C1 - Local waters purification method for watering of peatlands - Google Patents

Abstract

FIELD: peat extraction.

SUBSTANCE: invention relates to the extraction of peat, specifically to the work on the restoration of peat bogs, and in particular to the watering of worked-out peatlands. Method consists of using water from an accessible source, its redistribution to distributors throughout the peatland area. Moreover, on the developed peat bog, an artificial relief is created in the form of barrier vertical waterproof fences with the possibility of flowing to the free areas between them. In this case, watertight fences are tied to stakes, that are placed vertically and their lower ends are buried in the soil of the peat bog, while on the area of the worked peat bog the main and distribution polyethylene pipelines are laid on the bottom, they are equipped with distribution wells, in the upper part of which are provided evenly on the sides of the surface with holes for draining the water and provided with a lid, in addition, the incoming first well of the main pipeline is combined with a mobile pumping station in the form of SNP, and the outgoing end portion thereof is connected to a partitioning hydraulic engineering structure, dividing the worked-out laid operational road into an upper and a lower portion, a well in the center of which the bottom is supplied with a discharge vertical pipe, connected by means of a knee at a level difference with a polyethylene main pipeline with distributing pipelines of the second section, while a well with an installed vertical discharge pipe is supplied from above with a lid in the form of an external cylinder with a screw elevator with the possibility of moving the outer cylinder along the height.

EFFECT: technical result is the provision of efficient injection of local waters into the main and distribution pipelines with wells-dampers, ensuring controllability and flexibility of the system for flooding the developed peatlands to resume marshes to its original state and improve the ecological situation.

6 cl, 2 dwg

Description

The invention relates to the extraction of peat, specifically to the restoration of peat bogs, and in particular to the irrigation of developed peatlands.

Peat bogs cover 21% of the country, in some areas up to 40-50%. Depending on the age of the swamps and the intensity of peat formation, the thickness of peat deposits most often occurs 1-3 m, but sometimes in separate depressions up to 8 meters.

It should be noted that many lands of peat bogs currently have a large development of deposits of peat-forming peat bogs. The need for environmental rehabilitation of the developed peatlands, the renewal of the bog and peat formation processes in them, the revival of biosphere functions, as well as the fire hazard situation with the developed peatlands (repeated swamping) is an urgent task.

In this case, you can cite the international meeting “Restoring peat bogs in Russia in order to prevent fires and mitigate climate change”, which was held in 2016 (September 27-28) - Vladimir - Meshchera National Park: Project results and prospects for cooperation, which are part of the International Climate Initiative (IKI), where preference was given to directly inspecting the property.

For example, you can make a link to the publication (Zaderenko OI, Yampolsky AL, Vlasov EB Temporary recommendations for the design of irrigation of the areas of peat deposits developed and brought out of their operation. Part 3. M., 2008).

As noted in a well-known source (NP Karpenko, DA Manukyan. Water management systems for peat bogs to prevent fires. Journal. Land reclamation and water management. No. 4, pp. 13-17, 2012), the total area peatlands in the Moscow region is 254.5 thousand ha, of which 75 thousand ha are fire hazardous. In the practice of active snowmelt and heavy rains there is a rise in the level of water horizons and the formation of a water surface. However, at the same time, new systems must be created that could create a regulated water regime of local runoff, which ultimately eliminates any ignition of peat deposits. Thus, the lack of water can be eliminated in a significant inflow of local water flow into the swamp, which is comparable to the accumulation of water in the storage pond with the flow of water in the stream, interception of the flow of nearby swamps, etc. Thus, to intercept and divert these waters into a storage pond for feeding to the developed peat bogs.

A known method of extinguishing a fire at a depth, comprising supplying water below the surface of the earth, water is supplied directly to the burning site, for which, depending on the depth of the location of the source at a remote distance from it, a foundation pit with a depth corresponding to the depth of the fire is located, and horizontal by installing the casing string in the direction of the burning center, or if the fire is at a considerable depth of the peat bore, from the surface of the earth at a remote distance from the burning center a well with the installation of a casing string in the direction of the combustion zone and it is bent in a horizontal plane at a depth of burning of peat, then a perforated drill pipe is placed in the well drilled in any way and water is supplied under pressure, after the combustion zone is eliminated, the drill pipe is removed, and casing string is used to extinguish re-ignition (patent RU No. 2438739, А62С 3/02 from 01/10/2012).

A disadvantage of the known solution is the use of a complex drilling rig with pumps, for the implementation of the method from the surface of the earth requires a special pit for storing and discharging water, in addition, requires additional energy costs and time. Moreover, the known solution is limited by the fact that it is necessary to carry out hydrodynamic injection of water or a special liquid into the combustion zone for a long time, i.e. in other words, the filling of certain sections and groundwater level fluctuations on them (including in the territory adjacent to the irrigated area) does not occur within the acceptable time limits, which completely eliminates the possibility of fire of peat bogs. In addition, the known method leads to a significant increase in capital and operating costs due to the significant cost and complexity of the casing of the well, drill pipe, as well as the supply of special fluid in the form of water and the surface of the active substances under pressure into the pipe. Another disadvantage is the inability to intercept and divert local water flow towards the developed peat deposits.

A known method of preventing a fire in peatlands, including laying channels around a source of possible ignition, supplying and filling the channels with water, in winter channels are laid along the entire source of possible ignition and ice masses are frozen in prepared channels and natural depressions by supplying water to them in winter ( patent RU No. 2254154, A62C 3/02 dated 08/20/2005).

This method of preventing fire in peatlands is accepted as the closest analogue.

The disadvantage of this method in conditions of flooding of developed peat bogs is that for technological reasons it is necessary to accumulate water in the channels and freeze it in the winter. However, using such channels it is impossible to flood most of the developed peat bog deposits, given their dispersion and a significant area of peat mines. In addition, significant costs will be required to maintain sufficient water accumulation in such channels for effective and possible watering of peat, which is constantly necessary for its flooding, as well as the absence of regulatory structures (storage ponds, etc.) does not allow intercepting and diverting local runoff for watering peat mines.

The technical task of the invention is to ensure the injection of the required volume of water for irrigation of each of the peat bog production sites through the use of accumulating local runoff water in the form of melt snow, rain water from rivers, streams and nearby marshes and the use of interconnected trunk and distribution pipelines based on the use of a mobile pumping station stations, as well as the creation of a hydraulic structure between them for the flow of water to peat bog areas.

The technical problem is solved by the proposed method of local water injection for irrigation of developed peat bogs, which consists in creating the use of water from an accessible source, its redistribution into distributors over the entire area of the peat bog, on the developed peat bog additionally creates an artificial relief in the form of protective vertical waterproof fences with the possibility of overflow to free areas between them, while the waterproof fences are tied to stakes, which are placed vertically, and the lower ends they are buried in the soil of the peat bog, while on the area of the developed peat bog, they lay the main and distribution polyethylene pipelines at the bottom, equip them with distribution wells-dampers, in the upper part of which they evenly provide holes for draining water on the sides of the surface and provide a lid, in addition, the first the well of the main pipeline is combined with a mobile pumping station in the form of a type of SNP, and the outgoing end section of it is connected to a blocking hydraulic structure july, dividing the worked-out laid operational road into upper and lower sections, the well of which in the center of the bottom is equipped with a vertical outlet pipe connected by an elbow with a level difference with a polyethylene main pipeline with distribution pipelines of the second section, while a well with a vertical outlet pipe installed, is supplied from above a cover in the form of an external cylinder with a screw lift with the ability to move the external cylinder in height.

In addition, a waterproof fence is made of inexpensive materials at hand, for example, boards made of boards, boards made of slats, revetted with plastic wrap, nylon fabric, and others.

In addition, the distribution wells-dampers with holes for draining the water and covered with a lid on top are set by the depth of their vertical location, not exceeding the maximum filling depth during the development of the top layer of peat.

In addition, the production road dividing into the upper and lower sections of the developed peat bog is made from local peat bog soil.

In addition, according to an embodiment, the initial section of the main pressure pipeline of the second section of the developed peat bog may be equipped with a well with a valve, which is combined with the second mobile pump station in the form of SNP and connected to a water source.

In addition, a well with a vertical outlet pipe installed and provided with a lid on the top in the form of an external cylinder with a screw drive can be made by a hydraulic structure as additionally carrying out for the reverse direction and feeding structure for supplying water to the first section of the developed peat bog with insufficient water filling in it.

What is new is that they regulate the entire supplied local runoff by retaining watertight fences with the possibility of overflow to the free areas between them, which create an artificial relief. The volume of retained water in front of the fence is evenly distributed by damping wells, which supply evenly on the sides of the surface with holes for draining water from them over the entire area of the developed peat bog, which in turn is divided by the production road into two sections with an adjustable hydraulic structure when the level rises. The cover of the external outlet vertical pipe does not allow air to be sucked up in large volumes, which ensures uniform discharge (supply) of water to the second section of the developed peat bog through a main pressure pipe with distribution pipelines equipped with damping wells for draining water into the peat bog.

The depth of the water discharge is regulated by moving the outer cylinder, fixed movably relative to the outlet vertical pipe located in the well. The discharge of the flow (water supply) from the purer layers of water from the first section to the second section of the peat bog allows redistributing the incoming water flow to the main pipelines both in the forward and reverse directions even when one of the pumping stations stops, or there is a shortage (shortage) of water from any source. The use of two sections separated by an operational road will help maintain the level of developed peat bog in each of them, taking into account the presence of a given source (for example, a reservoir or a river), and this will increase the level of environmental safety from ignition of a developed peat bog and restore its original state regardless of the altitude location terrain and geometric dimensions.

This will allow more efficient irrigation of peatlands both individually and as a whole of the entire massif, providing ecological and reclamation conditions of the territory.

In FIG. 1 shows a method for injecting local waters for irrigation of developed peatlands in general; in FIG. 2 shows a hydraulic structure in the form of a well with an installed vertical outlet pipe in general.

The claimed method of injecting local water for irrigation of the developed peat bogs is a construction within the boundaries of the developed peat bog 1 with the help of pressure pipelines 2 and 3 of distribution 4 and 5 of high pressure polyethylene pipelines. Construction is as follows. In winter, the laying of main pipelines 2 and 3 with distribution pipelines 4 and 5 is carried out on the bottom of the developed peat bog 1 between fences 6 and artificial fences 6 with stakes 7 are built, which are buried, for example, by known percussion methods in the soil of peat. Then, fences 6 are attached to the poles 7 using a garter and the fence is performed, for example, by shields from boards or shields from battens lined with plastic wrap. The distance between the stakes is performed based on the absence of deflection and reliable stability in the vertical position of the fence 6.

High-pressure trunk 2 and 3, distribution 4 and 5 pipelines located between the fences 6 along the length (along the route) of each of them are equipped with damping wells 8, the upper parts of which are provided evenly with holes on the sides of the surface with a cover (not shown). In this case, the main 2 and 3 pipelines in their initial part are connected to the wells 9 and 10, which are combined with the mobile pumping station 11 and 12 in the form of SNP. Wells 9 and 10 are connected respectively to the source of the reservoir 13 and to the source of the river 14.

In the places of construction of the production road 15, fences 6 are interrupted, and the production road 15 divides the developed peat bog (depending on the topography and terrain) into the first 16 and second 17 sections, different in area of flooding. Production road 15 is poured from the soil of peat to marks excluding overflow through it at the place of separation into two sections 16 and 17.

The scheme of the method includes between sections 16 and 17 with main pipelines 2 and 3 a hydraulic structure, including a well 18 with a discharge vertical pipe 19, by means of a bend with a differential connecting to the main pipe 3, an external cylinder 20, a screw drive 21, a cover with holes 22 for communication outer cylinder 20 with atmosphere.

In addition, the mobile pumping stations 11 and 12 can operate separately from each other depending on the water content of the existing source at the moment to fill the peatland as a whole. This makes it possible to supply water both in the forward direction through the hydraulic structure 18, and in the opposite direction to sections 16 and 17, i.e. to feed from the source 14 of the river. With a shortage of water, this allows you to even out the flooded areas of the developed peat bog 1.

A method of injecting local water for irrigation of developed peatlands works as follows.

The known method determines the boundary of the contour of the developed peat bog 1 and break it into sections 16 and 17 of the bulk operational road 15 from local soil. Water sources are used from the reservoir 13 or river 14 with the supply of a mobile pumping station 11 or 12 to the main 2 and 3 with distribution 4 and 5 polyethylene pipelines equipped with damping wells 8.

In the mode of supplying water through side openings (not shown) on the surface in the upper part of the damper 9 and 10 with covers (not shown), water is poured out and floods the space between the fences 6 made by artificial relief, and then fills through the free space between the fences 6 the entire territory of the developed peat bog of the first part 16, then the second part 17 of the peat bog. When filling the specified water level of the first section 16 of the peat bog, the level rises and in the well 18, the air is forced out through the hole 22 in the cover of the outer cylinder 20 and the water flows overflow into the discharge vertical pipe 19, then with a difference it enters the main pipeline 3 with distribution pipelines 5 with wells -quenchers 10. The cover of the outer cylinder 20 for the exhaust vertical pipe not only allows air to be sucked in large volumes, which ensures uniform discharge of water along the exhaust pipe 19, but also poses olyaet relief depth (infeed) water adjusted by moving the outer cylinder 20 fixed movably relative to the vertical pipe 19 in the well 18.

The discharge of the stream (water intake) from the purer layers of the water of the well 18, located on the first section 16 of the main pipeline 2, makes it possible to increase the reliable operation of the second section of the peat bog even with slightly reduced static pressure in the main pipeline 3. Thus, the water is discharged through the water overflow vertical pipe 19 and further along the main pipeline 3 in the second section 17 of the peat bog, gradually filling its entire area as a whole.

According to an embodiment, the water can be taken by one mobile pumping station 12, connected with the source of the river, to the main pipeline 3. In this case, it will be possible to close the hydraulic structure 18 with the vertical pipe 19 with an external cylinder 20 with a cover or, conversely, open it if there is a shortage (shortage) water for the reverse spout, on the contrary, from the vertical pipe 19, in this case, make up the first section 16 of the peat bog, in particular, in a dry year. In general, the range of application of hydraulic structures is expanding. Thus, the use of local sources will be carried out depending on the needs in the dry season or in dry dry years.

The use of this invention allows for the irrigation of peat bogs to reduce the cost of the watering of the developed peat bog, to increase the controllability and flexibility of the system when changing technological conditions.

Thus, the use of the invention allows to control differentially the flooding of each of the sections of developed peat bog for large areas, providing a favorable ecological and reclamation environment of the territory, and this eliminates its fire.

Claims (6)

1. A method of injecting local water for irrigation of developed peatlands, which consists in using water from an accessible source, its redistribution into distributors over the entire area of the peat bog, characterized in that an artificial relief is additionally created on the developed peat bog in the form of protective vertical waterproof fences with the possibility of overflow to free sections between them, while waterproof fences are tied to stakes that are placed vertically, and the lower ends are buried in peat bog soil and, at the same time, the main and distribution polyethylene pipelines are laid to the bottom on the area of the developed peat bog, equip them with distribution wells-dampers, the upper parts of which are evenly provided with holes for draining water and provide a lid, in addition, the incoming first well of the main pipeline is combined with a mobile pumping station in the form of a type of SNP, and the outgoing end section of it is connected to a blocking hydraulic structure that separates the laid operational road to the upper and lower sections, the well of which in the center of the bottom is provided with a vertical outlet pipe connected by a bend at the level difference with a polyethylene main pipeline with distribution pipelines of the second section, while the well with an installed vertical outlet pipe is provided with a cover in the form of an external cylinder with a screw lift with the ability to move the outer cylinder in height. 2. The method according to p. 1, characterized in that the waterproof fence is made of inexpensive materials at hand, for example shields from boards, shields from battens lined with plastic wrap, nylon fabric, and others. 3. The method according to p. 1, characterized in that the distribution wells-dampers with holes for draining the water and covered with a lid on top are set by the depth of their vertical location, not exceeding the maximum filling depth during the development of the top layer of peat. 4. The method according to p. 1, characterized in that the production road dividing into the upper and lower sections of the developed peat bog is made from local peat bog soil. 5. The method according to p. 1, characterized in that according to the embodiment, the end section of the main pressure pipeline of the second section of the developed peat bog may be equipped with a well with a valve, which is combined with the second mobile pump station in the form of SNP and connected to a water source. 6. The method according to p. 1, characterized in that the well with the installed vertical outlet pipe and provided with a lid on top in the form of an external cylinder with a screw drive can be performed by a hydraulic structure as additionally carrying out for the opposite direction and feeding structure for supplying water to the first section of the produced peat bog with a deficit of water filling in it.

Images