UA14878U - System of dam protection - Google Patents

Abstract

The system of dam protection includes dam body with base, water spillway and water outlet, water reception structures. In the body of the dam cavity is formed in whole length, this is connected to spillway collector-dispenser placed in the base of the dam, this is separated by slides from water-outlet channels placed in the end sections of the dam body and connected to water-reception structures. In the body of the dam controlled by slides upper water-spillway and lower water-outlet openings are provided, those are placed in the upper section of the cavity at the side of water level of the upper pool of the river and in the lower section of the cavity at the side of the level of water of the lower pool, respectively.

Description

Description of the invention

The useful model refers to the field of hydrotechnical construction and operation of dams and can be used to protect them from destruction by uncontrolled water flow in the event of a dam breach due to emergency situations and to prevent catastrophic flooding of territories and settlements located on them and economic facilities located below the reservoir , as well as ensuring the free passage of fish throughout the dam.

A well-known direction in solving these problems is the accumulation of river flow and its regulation with the help of 10. reservoirs-regulators or anti-flood tanks. However, such solutions have a common drawback, which is that for the accumulation of river runoff, in any form, it is necessary to flood large areas, as a rule, the most fertile agricultural lands, which leads to significant losses of the natural and economic land use system.

To solve this shortcoming, the method of regulating the river flow is directed, the essence of which is that 719 a part of the flow during a flood is fed into the old drained channel, and with the onset of low water, the water is dumped into the main channel through an additional dam, which is simultaneously used to dewater the old channel during the period of the greatest fall of water | see declaratory patent of Ukraine Mo46419, MPKb EO283/32, Byul. Mo5, 2002 |.

A significant drawback of this invention is the mandatory condition of the presence of an old and sufficiently deep arm near the main channel and the dam, which does not allow the full use of this invention in places specifically selected for the dam and, especially, for use in the modernization of already existing dams and can only be used on small reservoirs and rivers. In addition, this invention cannot be used as a receiving tank in the event of a catastrophic breach of the dam, if the old sleeve is below the dam, since the main flow of water flows along the path of least resistance - along the main channel and not into the lateral spillway of the old channel, which makes it possible to use it for the protection of cities and economic facilities located 22 near the lower riverbed. -at

The technical solution according to the declaration patent of Ukraine Mo54998 is the closest to the proposed one.

IPC? EO283/02, Bull. Мо3, 2003|, in accordance with which the excess water in the reservoir, which can lead to the destruction of the dam and, as a result, the flooding of the areas located below, is delayed in a special structure - an anti-flood flood regulator (poimer). Such an anti-flood tank is created in the floodplain of the river next to the reservoir of the hydraulic unit and is separated from the latter by a distributary dam with an adjustable lateral spillway.

In addition to the above-described general disadvantages of the creation of anti-flood tanks, which leads to the flooding of large areas, the proposed structure has significant disadvantages - the need to tie to the "I profile of the terrain for the creation of an anti-flood tank, an unjustified increase in financial and material costs for the construction of an additional distribution dam, which, in terms of scope of work and size, significantly exceeds the dam itself, which is not very efficient from an economic point of view for such expensive hydrotechnical structures. In addition, the anti-flood capacity is used for a limited time - 2-3 months a year with large differences in depth and floodplain areas, which leads to unreasonably large losses of fish stocks "4, during spawning. With 50 The proposed useful model is based on the task of creating an economic system for protecting the dam from destruction by an uncontrolled flow of water through a breach due to an emergency situation, by ensuring an accelerated regulated lowering of the water level of the upper basin, and preventing flooding in the lower reaches of the river.

In addition, ensuring the free passage of fish everywhere in the dam to the spawning grounds.

The task is solved by the fact that in the well-known system of dam protection, which includes the dam body with the base - the spillway of excess water into water intake structures, in accordance with the useful model, a cavity is created in the dam body along its entire length, and in the base of the dam, a water discharge collector-distributor is placed, connected to each other. In the body of the dam, there are also upper discharge and lower discharge holes regulated by valves, located, respectively, in the upper part of the cavity from the water level of the upper river and in the lower part of the cavity from the water level of the lower river. And in the end parts of the body of the dam, there are drainage channels, separated by valves from the collector-distributor and connected to water receiving structures. со The total size of the adjustable cross-sections of the upper and lower openings is selected in accordance with the ratio: z1/52-(Rainruputrm2, 99 where: 54, Zo - cross-sectional planes of the upper and lower openings, respectively; с Rai - atmospheric pressure; p - water density;

A - the height difference between the water levels of the upper and lower biefs; t is a variable parameter that determines the change in velocity through the hole; 60 m - speed of water flow through the upper hole.

At the same time, the upper openings are made so that, under normal conditions, their upper edge is located at or below the level of the upper river bed.

And the lower openings are located in the bottom part of the dam on the lower side of the river. incl. In the proposed dam protection system, water intake structures can be artificially created in convenient places below the level of the reservoir, regardless of their distance from the dam. Or, in their capacity, existing reservoirs can be used in places of their natural location, regardless of their distance from the dam, and connected to the collector-distributor through drainage channels.

The slopes and the bottom of drainage canals, in turn, are reinforced with a hard coating, while the bottom coating

It is made in accordance with the requirements of the road surface.

The set of features in the proposed technical solution allows solving the task by ensuring an accelerated, regulated lowering of the water level of the upper bief to the lower edge of the breach through a capacity (cavity) created inside the dam itself, through which water from the reservoir passes through a system of upper and lower openings with an adjustable latches (valves) by the plane of their sections. 70 The presence of a collector-distributor allows, with the help of its flaps, to quickly control a large excess water flow in catastrophic situations (water dam), firstly, by preventing the formation of a breach due to an accident, the growth of which can quickly lead to the catastrophic destruction of the dam with serious consequences. Secondly, during an emergency discharge, the water flow of the upper basin is directed through the collector into specially constructed water drainage channels - watercourses through which the excess water, without entering the main channel of the lower basin, is directed to one or more water intake structures, which located below the reservoir level. Which, in turn, excludes the flooding of cities and economic facilities located near the lower course of the river.

Water intake structures can be located at a considerable distance from the dam, but in the optimal location of the relief from the point of view of economic feasibility. That is, such a system of valves and watercourses eliminates the need for the construction of very expensive additional hydrotechnical structures for anti-flood tanks tied to the topography of the area near the reservoir.

Under normal conditions of a stable river flow, the flow of the main river bed, in accordance with the proposed protection system, passes through the dam through a system of valves that regulate and maintain the required water level in the upper reservoir reservoir and the natural speed of water flow throughout the dam. In addition, the declared ratio of the total cross-sections of the upper openings z / and the total cross-sections of the lower openings 52, which are located, at most, on the opposite edges of the dam, according to calculations, will ensure in the cavity of the dam and o, at the exit from it, the uniformity of the water flow with the natural (or calculated higher) speed of the river.

The presence of upper and lower openings in the system, with the plane of their sections regulated by dampers, allows you to control the excess water flow caused by a flood or an emergency situation with minor damage to the surface of the dam from the side of the reservoir or from the opposite side of the lower level of the river, respectively, both the crest and bottom part of the dam. -

At the same time, the upper openings between the edge of the dam and the container in the dam cavity, located on the side of the reservoir, in normal condition are below the level of the upper edge of the reservoir water at such a depth that their overall cross-section ensures the natural speed of water flow into the dam cavity, constantly maintaining " among them, the same level of water, which allows the fish, which is in the cavity, to pass without obstacles through the "- upper openings into the reservoir along the flow of water flowing into the cavity of the dam at a speed typical for this section of the river.

The lower openings, located in the bottom part of the edge of the dam on the side of the lower bief, with the plane of their general section selected according to the given formula, also ensure the flow of water from the cavity of the dam with a "natural or predetermined higher speed of the river, which allows fish , which is located in the riverbed in the lower part of the river, without obstacles to pass downstream into the cavity of the dam through them and then, following the flow of water, gradually rise along the cavity of the dam into the reservoir. ;" The scheme of the claimed protection system is presented in the drawing: in Fig. 1 - a general view of the dam protection system, presented in the form of a section along B-B of figure 2. in Fig. 2 - a section along AA... - The figures show a reservoir 1, dam 2, inside (in the body) of which there is a cavity 3, connected to the upper 4 and lower 5 banks of the river, respectively, by the upper 6 and lower 7 openings, regulated by water discharge valves (valves), 8 and 9, respectively.

Go! At the base 10 of the dam 2, there is a collector-distributor 11, connected to the cavity C and separated from the drainage channels 12, located in the end parts of the dam 2, by water discharge valves (valves) 13.

Sh- The protection system functions as follows. c In normal conditions, water discharge valves 8 and 9 are open, and valves 13 are closed. Thanks to this, the water level of the upper bier 4 is maintained in the cavity C. This level is constantly controlled by adjusting the capacity of the openings b and 7 with the help of valves 8 and 9. In this way, a normal discharge from the upper bier 4 to the lower 5 is ensured. additional to the spillway through hydroelectric power units.

By adjusting the throughput capacity of holes 6 and 7, or even by completely closing some of them, the normal support level of water in the reservoir is also maintained to ensure the necessary pressures on

HPP

In general, the number of openings b and 7 and their cross-sections are performed based on considerations of the speed of the river flow, because the mass of water passing through the dam in a unit of time, the height of the dam, i.e., the difference between the water levels of the upper and lower biefs and the specified rate of water outflow from lower holes. The ratio of the cross-sections of the holes is calculated using the above formula. For example, to maintain the specified water level in the cavity, with a difference between the water levels of the upper and lower basins of twenty meters and the specified maximum speed of water outflow from the lower watercourse no more than twice the inflow speed, the section of the lower 65 Watercourse should be six times less than the upper one.

In the event that the water level in reservoir 1 rises (for example, during a flood), or in the event of an emergency situation, as a result of a breach of dam 2 (in particular, from the side of the upper bund 4 of the river), a large uncontrolled flow of water flows into cavity Z. Which will be immediately recorded, for example, by an emergency alarm, or in any other way. At this moment, the upper valves 8, drain valves 13 are maximally opened and valves 9 are closed. Thus, the critical water flow will be directed through the collector 11 into the drainage channels 12.

This process will continue until the water level of the upper bund 4 reaches its initial position (in the event of a flood) or decreases to the lower edge of the breach of the emergency section of the dam. The latter will ensure a quick suspension of further erosion of the dam body by an uncontrolled flow of water through /o proran.

In the event of an emergency situation, as a result of the breach of dam 2 on the side of the lower bank 5 of the river, a large uncontrolled flow of water flows into the lower channel of the river, which can cause flooding in its adjacent areas. In this case, the water channels 7 are immediately closed with valves 9 and the discharge valves 13 are opened as much as possible. Thus, the main water flow from the cavity C will be directed through the collector 11 into the drainage channels 12. This, in turn, will significantly reduce the water pressure on the emergency section of the dam, will slow down the erosion process in the city before the start of repair work.

On particularly dangerous dams, the breach of which can lead to particularly serious consequences, the cavity can be divided in the middle into two halves by a partition 14 (Fig. 1), with the corresponding arrangement of upper and lower adjustable opening systems in them. This allows the system of watercourses to be duplicated and, in the event of damage to one part of the dam, the flow of water through it is completely stopped using the valves of this part, and is directed through the system of valves of an integral part of the dam.

In order to reduce the height difference between the water levels of the upper and lower rivers, at a certain distance from the dam on the lower part of the river, a small dam with corresponding bottom openings - water channels for fish can be additionally installed, the main purpose of which is to reduce the estimated flow rate of the river through lower adjustable dam openings.

In the inter-flood period and in normal conditions, when drainage channels are emptied, they can be - used as part of transport highways, thanks to the reinforcement of their slopes and bottom with a hard surface.

In all cases, with the use of the proposed dam protection system, the main final goal will be achieved - the prevention of a sharp rise in the water level in the main channel of the lower river, which can lead to catastrophic consequences.

Thus, the described dam protection system makes it possible to solve a very important and currently relevant problem - to significantly increase the reliability of the dam during a flood or when it is damaged in emergency situations and, as a result, inundation of fertile agricultural lands. At the same time, to reduce the material costs for the construction of a hydrotechnical structure, as it does not require the creation of additional "c5 anti-flood tanks. "-

The presence of drainage channels in this system, the construction of which is much cheaper, allows to direct the critical water flow to natural or artificial water intake facilities, which can be located in convenient places, regardless of their distance from the dam. This, in turn, will allow more efficient use of the available terrain of the area where the dam is built. "

The construction of drainage canals with the possibility of their use in the inter-flood period as transport highways will allow to obtain an additional economic effect from the multifunctional use of these canals and to compensate for the costs of their construction, and in some cases, to bring profit. ;" Ensuring the free passage of fish through the dam solves a number of environmental management problems, in particular, the protection of fish stocks, and also solves some of the environmental and social problems of the surrounding areas.

Claims (1)

- The formula of the invention sh» oo 1. The dam protection system, which includes the body of the dam with the base, spillway and discharge, water intake facilities, which is distinguished by the fact that a cavity is created in the body of the dam along its entire length, connected to -and the discharge collector- by a distributor located at the base of the dam, which is separated by valves from the drainage channels located in the end parts of the dam body and connected to the water receiving structures, while the upper discharge and lower water discharge holes, regulated by valves, are additionally formed in the body of the dam, located, respectively, in in the upper part of the cavity from the water level of the upper river and in the lower part of the cavity from the water level of the lower river, and the total size of the adjustable sections of the upper and lower openings is selected in accordance with the ratio: с 8.585 - (Raiya roy)/tre2 , where: 81, 82 - cross-sectional planes of the upper and lower holes, respectively; Rai - atmospheric pressure; 60 in - water density; n - height difference between the water levels of the upper and lower biefs; t is a variable parameter that determines the change in velocity through the hole; M is the speed of water flow through the upper opening. 65 2. Dam protection system according to claim 1, which is characterized by the fact that the upper openings are designed so that under normal conditions their upper edge is located at or below the level of the upper river bed. 3. Dam protection system according to claim 1, which differs in that the lower openings are located in the bottom part of the dam on the side of the lower river bank. 4. Dam protection system according to claim 1, which is characterized by the fact that the water intake structures are created artificially and are located below the level of the reservoir in the optimal location of the relief from the point of view of economic feasibility. 5. The dam protection system according to claim 1, which differs in that existing reservoirs are used as water intake structures in their natural locations, regardless of their distance from the dam. 6. The dam protection system according to claim 1, which differs in that the slopes and the bottom of the drainage channels are reinforced with a solid coating, while the bottom coating is made in accordance with the requirements for covering highways. that 2 (ee) in (ee) « yo - and? - sh» (ee) - and IR e) 60 b5