RU2451778C1 - Method to let fish through via high head water development - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to hydraulic engineering, namely, to methods to attract and transfer fish producers via retaining structures to areas of spawning and ongrowing. In the proposed method a fish pass is arranged in the form of a channel 1 of rectangular cross section with a bottom inclination having incomplete transverse partitions 2 or in the form of a tray 3 with a stepped bottom and transverse partitions 4 with swim-in holes 5, forming a row of chambers or pools 6 and falls between them. In some internal transverse partitions 7 of the fish pass the swim-in holes 8 are framed with a flow-generating apron 9. A system of jet-forming nozzles 11 is installed under coverage of the apron 9 in galleries 10. Besides, nozzles 11 are aligned towards an upper reach and are arranged at the angle or in parallel to an axis of a swim-in hole 8. The system of jet-forming nozzles 11 is supplied from distributing headers 12. Water required to generate hydraulic jets 13 is supplied to distribution headers 12 along bypass discharge pipelines. Further a transit water flow 17 is sent from the upper reach to orient fish among chambers or pools 6 of the fish pass. At some inner transverse partitions 7 of the fish pass a system of jet-forming nozzles 11 is connected for swim-in holes 8. At the moment of water outflow via the system of jet-forming nozzles 11 the hydraulic jets 13 are formed. For more efficient full rest of fish moving along the fish pass in the fish pass pool 16, appropriate hydraulic conditions are developed using hydraulic resistance to a transit flow 17, i.e. zones of partially equal pressures 15. Whirlpool zones 18 in tray structures are created for partial rest of fish prior to a rush to overcome a transit flow 17 or swim-in holes 5. Hydraulic conditions supporting full efficient rest of fish moving along a fish pass are developed via sections of a fish pass route having equal length or via sections of a fish pass of different length, besides, in this case the section lengths regularly decrease towards the upper reach.

EFFECT: invention will make it possible to use classic fish passing technologies at medium and high head water developments, eliminating negative impact of water level variation in reaches of a water development and providing for simultaneous free and independent passing of fish into an upper reach of a water development.

3 cl, 3 dwg

Description

The invention relates to hydraulic engineering, and in particular to methods of attracting and transferring fish producers through retaining structures to spawning and feeding grounds.

Known methods for passing fish through fish passages from the lower pool of the hydroelectric station to the upper pool [1, 2], which include creating transit costs (jets) for orienting the fish along the chambers or pools of the fish passage, as well as creating conditions for partial rest of the fish using whirlpool zones in tray structures of fish passageways or with the help of pools in ladder and pond structures of fish passageways.

The disadvantage of these methods is the impossibility of providing favorable conditions for the complete relaxation of fish, especially in the setting of changing levels of the head of the water system, as due to a change in the water level in the head of the water system, a change in the speed of the transit flow in the trays or chambers of the fish passage takes place. In addition, these methods are applicable only for low-pressure hydroelectric facilities, because the speed of water in the fish passage tract when using these methods is close to the critical swimming speed of fish.

The closest technological scheme is the method of passing fish through the fish passage from the lower pool of the hydroelectric station to the upper pool (options) [3], which consists in forming a controlled water flow along the entire length of the fish passage tract, depending on the difference in the levels of the upper and lower pools and the type of fish passed. A water stream is created in each chamber of the fish passage as a result of the flow of water into the jet-forming nozzles located along the perimeters of the swimming holes made in the uppermost or the lowest, or at the same time the highest and lowest transverse partitions of the fish passage. The jet-forming nozzles are directed towards the upper pool, forming two parallel or at an angle to the axis of the inlet opening of a series of flooded parallel hydraulic jets. When these rows of jets interact together, they create hydraulic resistance to the transit flow, i.e. zones of partially equal pressures entering the fish passage through the fish passage chambers from the upper pool. Hydraulic resistance maintains the calculated water level in the inner pools of the fish passage by passing a predetermined transit water flow of equal magnitude through the inlet openings equipped with jet nozzle systems, and thereby creates favorable conditions for the fish to pass through the inlet openings towards the upstream.

This method, although it compensates for the negative influence of fluctuations in the head of the hydroelectric system, but it is also suitable only for use on low-pressure hydroelectric facilities, since the speed of movement of water in the fish passage tract in this case will be close to the critical swimming speed of the fish. In addition, in this method there are no zones for the complete effective relaxation of fish moving along the fish passage. The critical swimming speed of fish implies a rather short residence time of fish in a given water stream without loss of orientation. For this reason, it is impossible to apply this method to medium- and high-pressure waterworks, because with an increase in the pressure on the dam of the waterworks, the residence time of the fish in the stream with critical swimming speeds will also increase. This will inevitably lead to a loss of orientation in the fish and its demolition back to the lower tail of the waterworks.

The aim of the invention is the formation in separate sections along the entire length of the fish passage tract of hydraulic conditions conducive to a complete effective rest of fish moving along the fish passage at minimum cost and simple control of fish passage.

The invention consists in the following.

According to claim 1 of the claims. In some inlet openings made in the internal transverse partitions, using two rows of flooded hydraulic jets formed as a result of the flow of water into the system of jet-forming nozzles located along the perimeters of some inlet openings and directed parallel or at an angle to the axis of the inlet opening and towards the upper downstream, create hydraulic resistance to the transit flow, i.e. zone of partially equal pressures. Due to the formation of zones of partially equal pressures, hydraulic conditions are formed in the pool of the fish passage located below the given transverse partitions, which contribute to the complete effective rest of the fish moving along the fish passage.

According to claim 2 of the claims. Creation of hydraulic conditions conducive to a complete effective rest of fish moving along the fish passage, through equal length sections of the fish passage, will allow the formation of evenly spaced fish rest zones along the entire length of the fish passage, and also simplify the management of the method of passing fish through a high-pressure hydraulic unit. Indeed, in this case, the implementation of the method requires the minimum possible number of zones of partially equal pressures, and hence the minimum number of adjustments associated with the flow of water into the jet nozzle systems.

According to claim 3 of the claims. Creation of hydraulic conditions conducive to a complete effective rest of fish moving along the fish passage, through segments of the fish passage tract of different lengths with a gradual decrease in their length towards the upper pool, will often form zones for fish to rest when approaching the upper pool. Due to this, in the method of passing fish through a high-pressure hydraulic unit, conditions are created that take into account the costs of physical forces as the migrating fish moves along the fish passage.

The solution to this problem is achieved by implementing a new method of passing fish through a high-pressure hydraulic system. Graphic material explaining the essence of the proposed method is presented in the following figures:

figure 1 is a diagram of a tray fish passage in a plan view;

figure 2 is a diagram of a ladder fish passage in a plan view;

figure 3 - diagram of the creation on the site of the ladder fish passage of hydraulic conditions conducive to an effective rest of the fish moving along the fish passage, a section along a vertical plane.

The fish passage, executed according to the type of classical designs of fish passage in the form of a tray (figure 1) or in the form of a ladder fish passage (figure 2), is placed in the alignment of the dam of the waterworks. It is made in the form of a quick current (channel) 1 of rectangular cross section with a slope of the bottom, in which incomplete transverse partitions 2 are installed (Fig. 1), or it consists of a tray 3 with a stepped bottom and transverse partitions 4 with inlet openings 5, forming a number of pools 6 and differences between them (figure 2, 3). In some internal transverse partitions 7 of the fish passage, the inlet openings 8 are surrounded by a flow-forming apron 9, where under its cover in the galleries 10 there is a system of jet-forming nozzles 11 which are directed towards the upstream and positioned at an angle or parallel to the axis of the inlet opening 8 (Fig. 3) . The system of jet-forming nozzles 11 is fed from distributing manifolds 12, which, in turn, are connected via bypass pipelines to the upstream sections of the fish passage or the upper pool of the hydraulic system.

The method of passing fish through a high-pressure waterworks is as follows.

From the upper pool, a transit flow rate of water is served to orient the fish along the chambers or pools of the fish passage. On some internal transverse partitions of the fish passage 7 include a system of jet-forming nozzles 11 of the inlet openings 8 (Fig.1, 2). At the time of the outflow of water through this system of jet-forming nozzles 11, hydraulic jets 13 are formed having a certain initial speed V ₀ (FIG. 3). At a certain distance from the transverse baffle 7, hydraulic jets 13 interact, resulting in the formation of the total flow 14. With the further propagation of the total flow, its axial velocity will decrease due to pulsating velocities and the counterflow velocity, which depends on the pressure flowing to the transverse baffle 7, to zero values, and the total flow 14 in the direction of the axis of the inlet 8 will quiet down. Thus, the formation of hydraulic resistance to the transit stream 17, i.e. a zone of partially equal pressures 15, which will allow unhindered passage of fish producers through the inlet hole 8 of the transverse partitions of the fish passage 7 in the direction of the upper pool of the waterworks. In addition, due to the formation of a zone of partially equal pressures 15, a predetermined transit flow rate of water is passed through the inlet openings 8 made in the transverse partitions 7 of the fish passage, thereby forming hydraulic conditions in the pool of the fish passage 16 located downstream of these transverse partitions 7 that facilitate a complete effective rest of people moving along fish passage fish. The water necessary for the formation of hydraulic jets 13, is fed into the distributing manifolds 12 through the bypass pressure pipelines from the upstream sections of the fish passage or the upper pool of the hydraulic system.

In addition, hydraulic conditions conducive to a complete effective rest of fish moving along the fish passage can create equal lengths through the sections of the fish passage.

In addition, the hydraulic conditions conducive to a complete effective rest of the fish moving along the fish passage can create different lengths through the sections of the fish passage, and the lengths of the sections are gradually decreasing towards the upstream.

Fish passage, depending on the design option, works as follows.

The fish passage exploitation service creates along the entire fish passage tract, consisting of a rapid current 1 (Fig. 1) or a tray 3 with a stepped bottom (Figs. 2, 3), a transit stream of water 17 to orient the fish along the chambers or pools 6 of the fish passage. The whirlpool zones 18 in the tray structures of the fish passages (Fig. 1) and the pools 6 in the ladder fish passages (Figs. 2, 3) serve for partial rest of the fish before the cast to overcome the transit stream 17 or swimming holes 5. For a complete effective rest of the fish moving along the fish pass in the pools of the fish passage 16, the corresponding hydraulic conditions are created using the hydraulic resistance to the transit flow 17, i.e. zones of partially equal pressures 15. By changing the initial flow rates of hydraulic jets 13 from the jet-forming nozzles 11, the passage of a predetermined transit water flow through the inlet openings 8 made in the transverse partitions 7 is controlled, and therefore the hydraulic conditions in the fish passage pool 16 are provided for complete effective relaxation. Hydraulic conditions for a complete effective rest of fish are prescribed based on the species of fish migrating through the fish passage and the length of the fish passage. This technology allows migrating fish to pass fish passages of any length, thereby overcoming high-pressure hydroelectric facilities. In addition, by changing the initial flow rates of the hydraulic jets 13 from the jet-forming nozzles 11 they compensate for the negative effect of the changes in the levels of the water system downstream on the value of the transit stream 17.

Hydraulic conditions conducive to a complete effective rest of the fish moving along the fish passage can be created both through segments of the fish passage tract of equal length and through segments of the fish passage tract of different lengths with a gradual decrease towards the upstream. The first version of the method is designed for stronger swimmers, the second - less weak. In the second variant, as the fish moves upward along the fish passage, the pressure overcome between the zones with hydraulic conditions conducive to a complete effective rest of the fish moving along the fish passage will decrease, thereby making it possible for the fish moving along the fish passage to relax more often. The method in which hydraulic conditions for resting fish are created through segments of a fish passage tract of equal length is simpler and easier to control.

The proposed method for passing fish through a high-pressure hydroelectric facility allows the use of classical technology of fish passage at medium and high-pressure hydroelectric facilities, eliminating the negative impact of changes in water levels in the head of the hydroelectric system and, at the same time, providing free and independent passage of fish into the upper head of the hydroelectric system.

Information sources

1. Waterworks: Textbook. in the specialty "Land Reclamation" / N.P. Rozanov, Y. V. Bochkarev, B. C. Lapsenkov, and others; Ed. N.P. Rozanova. - M .: Agropromizdat, 1985 .-- 432 p. - S.373-374, Fig. 13.6-13.8.

2. Waterworks: Textbook. for builds. universities: in 2 hours / M.M. Grishin, S.M. Spissky, A.I. Antipov and others; Ed. M.M. Grishina. - M.: Higher School, 1979. - 586 p. - Part 2. - S.131-133, Fig. 23.14-23.16.

3. Pat. 2377365 RF, IPC ⁸ E02B 8/08. The method of passing fish through a fish passage from the lower pool of the hydroelectric station to the upper pool (options) / O.G. Vvedensky (RF). - No. 2008137015/03; Claimed September 15, 2008; Publ. 12/27/2009, Bull. Number 36. - 28 p.

Claims (3)

1. The method of passing fish through a high-pressure hydraulic system, which consists in the formation of a controlled water flow along the entire length of the fish passage tract, depending on the difference in the levels of the upper and lower pools and the type of fish passed in each fish passage chamber as a result of the flow of water into the jet-forming nozzles located along the perimeters of some of the swimming holes made in the transverse partitions, and directed towards the upper pool, the subsequent formation of two parallel or at an angle to the axis of the swimming from a verst of rows of flooded parallel hydraulic jets and the creation of a combination of these rows of jets of hydraulic resistance to the transit flow, i.e. zones of partially equal pressures entering the fish passage through the fish passage chambers from the upper pool, ensuring the maintenance of the calculated water level in the inner pools of the fish passage by passing a predetermined transit water flow of equal magnitude through the inlet openings equipped with jet-forming nozzle systems, and thereby creating favorable conditions for passage fish through the swimming holes in the direction of the upper pool, characterized in that with the help of zones of partially equal pressures created on some internal nnih transverse bulkheads fish pass, are formed in the following locations for these transverse partitions pool fish pass hydraulic conditions conducive to the full effectiveness of the rest of the fish ladder moving fish. 2. The method according to claim 1, characterized in that the hydraulic conditions conducive to a complete effective rest of the fish moving along the fish passage, create equal lengths through the sections of the fish passage. 3. The method according to claim 1, characterized in that the hydraulic conditions conducive to a complete effective rest of the fish moving along the fish passage create through different sections of the fish passage tract of different lengths, the lengths of the sections being gradually reduced towards the upstream.

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