RU2326208C1 - Fish-way (variants) - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention refers to the sphere of hydraulic engineering immediately dealing with arrangement of fish-passing facilities intended to provide for passage of brood fishes over retaining structures to feeding and spawning grounds. The fish-way consists of a tray-shaped fish duct with its outlet and inlet ends connected to the upstream and the downstream walls of the hydro-engineering structure accordingly, enhanced roughness elements arranged along the fish duct, partial transverse obstacles arranged along the fish duct and forming compartments, vertical slotted orifices regularly arranged along the fish duct and adjoining the tray side walls. The varied width compartments form two sections, of confusor and diffuser shape in terms of layout, the width of the compartments being minimal at their mating site and maximal at the site of the confusor section inlet and diffuser section outlet. In case of Variant 2: the side walls of the compartments are curvilinearly shaped, the concave side oriented towards the longitudinal axis of the fish duct. The enhanced roughness elements are V-shaped, with the vertex oriented upstream, and positioned downstream relative to the minimal width section. The partial transverse obstacles are curvilinearly shaped, the bulging side oriented downstream. In case of Variant 3: the side walls of the compartments are curvilinearly shaped and symmetric about the longitudinal axis of the fish duct. The enhanced roughness elements and partial transverse obstacles are equal-sized curvilinearly shaped (V-shaped in terms of layout). The enhanced roughness elements installed with the vertex oriented upstream and positioned downstream relative to the minimal width section. The partial transverse obstacles are positioned upstream relative to the minimal width section with the bulging side oriented downstream. The enhanced roughness elements and partial transverse obstacles form amenities for the fish located within the installation area.

EFFECT: making the fish duct hydraulic conditions convenient for passage of fish.

37 cl, 40 dwg

Description

The invention relates to hydraulic engineering, in particular to fish passage facilities designed to allow fish producers to pass through retaining structures to spawning and feeding grounds.

Known fish passage [1], including a fish passage, made in the form of a tray, the output head of which is connected to the upper pool of the hydraulic system, and the input head - to the lower pool, flooded transverse partitions installed along the length of the fish passage and forming chambers between them, while transverse the partitions are V-shaped in plan and with the apex facing towards the flow.

The disadvantage of the construction is the low efficiency of skipping fish.

Known fish passage [2], including a fish passage, made in the form of a tray, the output head of which is connected to the upper pool of the hydraulic system, and the input head - to the lower pool, incomplete transverse partitions installed along the length of the fish passage and forming chambers, while the partitions adjoin at an acute angle to the side walls of the tray.

The disadvantage of the construction is the low efficiency of skipping fish.

Known fish passage [3], including a fish passage, made in the form of a tray, the output head of which is connected to the upper pool of the hydraulic system, and the input head is connected to the lower pool, elements of enhanced roughness located along the length of the fish passage, incomplete transverse partitions installed along the length of the fish passage the path and the chambers forming between themselves, while the elements of enhanced roughness adjoin the vertical swimming inlets and form a fish-directing current.

The disadvantage of the construction is the low efficiency of fish passage and difficult hydraulic conditions in the fish passage chambers.

The closest in technical essence and the achieved result is a fish passage [4], including a fish passage, made in the form of a tray, the output head of which is connected to the upper pool of the waterworks, and the input head - to the lower pool, elements of enhanced roughness located along the length of the fish passage, incomplete transverse partitions installed along the length of the fish passage and forming chambers, vertical slotted inlet holes made symmetrically with respect to the longitudinal axis of the fish passage kta and adjacent to the side walls of the tray.

The disadvantage of this structure is the low efficiency of fish promotion along the fish passage.

The aim of the invention is the creation of effective hydraulic conditions in the fish passage for the passage of fish.

The invention consists in the following.

According to claim 1 of the claims. The execution of the camera of variable width with the formation of two sections - confusor and diffuser in plan view - allows you to create a plan and vertical diagrams with a wide range of speeds along the width and length of the chamber. This, in turn, provides the fish with the opportunity to choose the optimal paths of advancement. In addition, the side walls of the tray perform flow-forming and fish-guiding functions. This is facilitated by the configuration, when the width of the chambers in the alignment section of the two sections is minimal, and the maximum width of the chambers falls on the target entrance to the confuser section and the exit target from the diffuser section.

According to claim 2 of the claims. The option, when the elements of enhanced roughness are installed in the alignment site of the sections of the confuser and diffuser forms and form a vertical slotted inlet hole, coaxial with the longitudinal axis of the fish passage tract, is a variant of their arrangement.

According to claim 3 of the claims. The option, when the elements of enhanced roughness and incomplete transverse partitions are perforated, improves the flow skipping mode and practically eliminates stagnant whirlpool areas.

According to claim 4 of the claims. The variant when the elements of enhanced roughness and incomplete transverse partitions are made V-shaped in plan and form a relaxation zone for fish, while the top of the elements of enhanced roughness is oriented towards the flow, and the top of incomplete transverse partitions - in the direction of flow, firstly, allows create a directed flow stream along the side walls of the tray, and, secondly, it allows you to create pools for relaxing fish, located between the elements of increased roughness and incomplete transverse odkami (Figure 4).

According to claim 5, the claims. The option, when incomplete transverse partitions are perforated, allows you to create flow in the recreation areas and eliminate the whirlpool zone, which previously took place directly behind the incomplete transverse partitions.

According to claim 6, claims. The option, when the elements of reinforced roughness are made perforated, allows to increase the flow in the pools for relaxing fish and to eliminate the whirlpool zone, which previously took place immediately after the elements of enhanced roughness.

According to claim 7 of the claims. The option, when the elements of enhanced roughness and incomplete transverse partitions are perforated, can improve the hydraulic mode in the fish passage.

According to claims 8, 9, 10 of the claims. A variant when the perforation holes are made round or square or rectangular in shape, are options for their execution.

According to claim 11, the claims. The option, when the bottom of the chambers is made with a transverse slope, allows you to create sections with different speeds along the width and depth of the chambers. This gives the fish the opportunity to choose the best travel paths.

According to paragraph 12 of the claims. The option, when the bottom of the chambers is made with bottom fish channels, improves the conditions for the movement of bottom fish species.

According to item 13 of the claims. The option, when the bottom of the fish passageway is made stepwise, allows you to form a ladder fish passage.

According to claim 14. The option, when the bottom of the fish passage tract is made with a longitudinal slope, allows you to form a chute fish passage.

According to clause 15 of the claims. The option, when the bottom of the chambers in the section of the diffuser shape is made with a reverse slope, and in the section of the confuser shape with a longitudinal slope in the direction of the inlet head, allows increasing the hydraulic resistance to the flow and expanding the speed range in depth.

According to clause 16 of the claims (option). The option, when the chambers are made of variable width and form two sections - confusor and diffuser in plan view, and in the alignment of their conjugation the width of the chambers is minimal, and the maximum width of the chambers falls on the entrance gate to the confuser section and the exit gate from the diffuser section, it allows to form and the length of the chamber planned and vertical diagrams, characterized by a wide range of speeds. This, in turn, provides the fish with the opportunity to choose the optimal paths of advancement.

The execution of the side walls of the chambers with a curved and concave side facing the longitudinal axis of the fish passage path allows the formation of an inseparable flow stream inside the chambers.

The implementation of the elements of reinforced roughness of a V-shaped form, with the apex facing the stream and installed below the alignment with a minimum width, and incomplete transverse partitions - curved and convex side facing the stream, and the elements of reinforced roughness and incomplete transverse partitions form recreation areas for fish located within their installation allows you to get the optimal layout of the fish passage cameras.

According to claim 17. The option, when incomplete transverse partitions are perforated, allows you to create flow in the recreation areas and eliminate the whirlpool zone, which previously took place directly behind the incomplete transverse partitions.

According to claim 18. The option, when the elements of reinforced roughness are made perforated, allows to increase the flow in the pools for relaxing fish and to eliminate the whirlpool zone, which previously took place immediately after the elements of enhanced roughness.

According to claim 19 of the claims. The option, when the elements of enhanced roughness and incomplete transverse partitions are perforated, can improve the hydraulic mode in the fish passage.

According to claims 20, 21, 22 of the claims. A variant when the perforation holes are made round or square or rectangular in shape, are options for their execution.

According to claim 23 of the claims. The option, when the bottom of the chambers is made with a transverse slope, allows you to create sections with different speeds along the width of the chambers. This gives the fish the opportunity to choose the best travel paths.

According to paragraph 24 of the claims. The option, when the bottom of the chambers is made with bottom fish channels, improves the conditions for the movement of bottom fish species.

According to claim 25 of the claims. The option, when the bottom of the fish passageway is made stepwise, allows you to form a ladder fish passage.

According to p. 26 claims. The option, when the bottom of the fish passage tract is made with a longitudinal slope, allows you to form a chute fish passage.

According to item 27 of the claims (option). The option, when the chambers are made of variable width and form two sections - confusor and diffuser in plan view, and in the alignment of their conjugation the width of the chambers is minimal, and the maximum width of the chambers falls on the entrance gate to the confuser section and the exit gate from the diffuser section, it allows to form and the length of the chamber planned and vertical diagrams, characterized by a wide range of speeds. This, in turn, provides the fish with the opportunity to choose the optimal paths of advancement.

The execution of the side walls of the chambers is curved and symmetrical with respect to the longitudinal axis of the fish passage path, which allows the formation of an inseparable flow stream inside the chambers.

The execution of reinforced roughness elements and incomplete transverse partitions is curved, equal, and V-shaped in plan, with reinforced roughness elements installed with the apex facing the stream and below the section with a minimum width, and incomplete transverse partitions installed above the section with a minimum width and a convex side facing the stream , while the elements of enhanced roughness and incomplete transverse partitions form rest areas for fish located within their installation, allows you to get the optimum arrangement of the fish ladder chambers.

According to p. 28 claims. The option, when incomplete transverse partitions are perforated, allows you to create flow in the recreation areas and eliminate the whirlpool zone, which previously took place directly behind the incomplete transverse partitions.

According to clause 29 of the claims. The option, when the elements of reinforced roughness are made perforated, allows to increase the flow in the pools for relaxing fish and to eliminate the whirlpool zone, which previously took place immediately after the elements of enhanced roughness.

According to claim 30. The option, when the elements of enhanced roughness and incomplete transverse partitions are perforated, can improve the hydraulic mode in the fish passage.

According to claims 31, 32, 33 of the claims. A variant when the perforation holes are made round or square or rectangular in shape, are options for their execution.

According to clause 34 of the claims. The option, when the bottom of the chambers is made with a transverse slope, allows you to create sections with different speeds along the width of the chambers. This gives the fish the opportunity to choose the best travel paths.

According to clause 35 of the claims. The option, when the bottom of the chambers is made with bottom fish channels, improves the conditions for the movement of bottom fish species.

According to clause 36 of the claims. The option, when the bottom of the fish passageway is made stepwise, allows you to form a ladder fish passage.

According to clause 37 of the claims. The option, when the bottom of the fish passage tract is made with a longitudinal slope, allows you to form a chute fish passage.

The solution to this problem is achieved by creating a new design of the fish passage and its variants. Graphic material that explains the essence of the invention is presented in the following figures:

figure 1 - fish passage, plan;

figure 2 is the same, the elements of enhanced roughness are installed in the alignment section of the sections of the confuser and diffuser forms and form a vertical slotted inlet hole coaxial with the longitudinal axis of the fish passage tract;

figure 3 - fish passage, plan, option, when the elements of enhanced roughness and incomplete transverse partitions are perforated;

figure 4 - fish passage, plan, option, when the elements of enhanced roughness and incomplete transverse partitions are made V-shaped in plan and form a relaxation area for fish, while the top of the elements of enhanced roughness is oriented towards the flow, and the top of incomplete transverse partitions is in the direction flow stream;

5 is the same, incomplete transverse partitions made perforated;

6 is a section aa in figure 2;

Fig.7 - the same, incomplete transverse partitions made perforated;

Fig - the same, the perforation is made in a checkerboard pattern;

Fig.9 - incomplete transverse partitions made perforated, perforation holes of rectangular shape;

figure 10 is the same, the perforation is made in a checkerboard pattern;

11 - incomplete transverse partitions are perforated, perforation holes are square in shape;

Fig - the same, the perforation is made in a checkerboard pattern;

Fig - incomplete transverse partitions are perforated, perforation holes are rectangular in shape, while the larger side of the holes is horizontal;

Fig - the same, the perforation is made in a checkerboard pattern;

Fig.15 is a section bB in Fig.4;

Fig - cross section of the fish passage, an option when the bottom of the chambers is made with bottom fish channels;

Fig is a fragment of the fish passage tract, plan, structure of speeds;

Fig. 18 is the same, reinforced roughness elements and incomplete transverse partitions are perforated;

Fig. 19 - reinforced roughness elements and incomplete transverse partitions are V-shaped in plan and form a rest area for fish, while the top of reinforced roughness elements is oriented towards the flow, and the top of incomplete transverse partitions is directed in the direction of flow;

Fig.20 is the same, incomplete transverse partitions made perforated;

Fig.21 is the same, an option when the elements of enhanced roughness and incomplete transverse partitions are made perforated;

Fig.22 - the bottom of the chambers in the section of the diffuser shape is made with a reverse slope, and in the section of the confuser shape with a longitudinal slope in the direction of the inlet head;

Fig is a fragment of the fish passage tract, isometry;

Fig is a fragment of the fish passage tract, isometry, option;

Fig is a fragment of the fish passage tract, isometry, option;

Fig - the same, incomplete transverse partitions are perforated;

Fig.27 - the bottom of the fish passage tract is made with a longitudinal slope, isometry;

Fig.28 - the bottom of the fish passage tract is made stepwise, isometry;

Fig.29 is a variant of the fish passage, plan;

Fig - the same, incomplete transverse partitions are perforated;

Fig - option fish pass, plan, elements of enhanced roughness made perforated;

32 is a fish passage variant when reinforced roughness elements and incomplete transverse partitions are perforated;

Fig.33 is a variant of the fish passage, when the elements of enhanced roughness and incomplete transverse partitions are made curved, isometric and V-shaped in plan;

Fig - the same, incomplete transverse partitions are perforated;

Fig.35 is the same, the elements of enhanced roughness are made perforated;

Fig. 36 is a variant of a fish passage when reinforced roughness elements and incomplete transverse partitions are perforated;

Fig - plot pairing confuser and diffuser parts of the camera, plan;

Fig. 38 is a flow structure for flowing around an element of enhanced roughness;

Fig. 39 is the same, in the case of an element of enhanced roughness perforated;

Fig - diagram of the camera fish passage, plan.

The fish passage includes a fish passage path 1, made in the form of a tray, the output tip 2 of which is connected to the upper pool of the hydraulic system, and the input tip 3 - to the lower pool, reinforced roughness elements 4 located along the length of the fish passage tract 1, incomplete transverse partitions 5 installed along the length the fish passage path 1 and the chambers forming one another, vertical slotted inlet holes 6, made symmetrically with respect to the longitudinal axis of the fish passage path 1 and adjacent to the side walls of the tray.

The chambers are made of variable width and form two sections - confusor 7 and diffuser 8 in plan view, and in the alignment of their conjugation, the width of the chambers is minimal, and the maximum width of the chambers falls on the entrance gate to the confuser 7 section and the exit gate from the diffuser 8 section.

In addition, the elements of enhanced roughness 4 can be installed in the alignment section of the sections of the confuser 7 and diffuser 8 shapes and form a vertical slit inlet hole 9, coaxial with the longitudinal axis of the fish passage 1.

In addition, the elements of reinforced roughness 4 and incomplete transverse partitions 5 can be made perforated.

In addition, the elements of reinforced roughness 4 and incomplete transverse partitions 5 can be V-shaped in plan and form a rest zone 10 for fish, while the top of the elements of enhanced roughness 4 is oriented towards the flow, and the top of incomplete transverse partitions 5 is directed in the direction of flow flow.

In addition, incomplete transverse partitions 5 can be made perforated.

In addition, the elements of enhanced roughness 4 can be made perforated.

In addition, the elements of reinforced roughness 4 and incomplete transverse partitions 5 can be made perforated.

In addition, the perforation holes can be made round.

In addition, the perforation holes can be made square.

In addition, the perforation holes can be made rectangular.

In addition, the bottom of the chambers can be made with a transverse slope.

In addition, the bottom of the chambers can be made with bottom fish channels 11.

In addition, the bottom of the fish passage tract 1 can be made stepwise.

In addition, the bottom of the fish passage tract 1 can be made with a longitudinal slope.

In addition, the bottom of the chambers in the section of the diffuser 8 form can be performed with a reverse slope, and in the section of the confusor 7 form with a longitudinal slope in the direction of the inlet head 3.

The chambers can be made of variable width and form two sections - confusor 7 and diffuser 8 in plan view, and in the alignment of their conjugation, the width of the chambers is minimal, and the maximum width of the chambers falls on the entrance gate to the confuser 7 section and the exit gate from the diffuser 8 section, at the side walls of the chambers are made curved and the concave side facing the longitudinal axis of the fish passage 1, the elements of enhanced roughness 4 can be made V-shaped, with the apex facing the flow and installed below the alignment with a mini the smallest width, and incomplete transverse partitions 5 - curved and convex side facing the stream, and the elements of increased roughness 4 and incomplete transverse partitions 5 form recreation areas 10 for fish located within their installation.

The cameras can be made of variable width and form two sections - confusor 7 and diffuser 8 in plan view, and in the alignment of their conjugation, the width of the chambers is minimal, and the maximum width of the chambers falls on the entrance gate to the confuser 7 section and the exit gate from the diffuser 8 section, at the side walls of the chambers are made curved and symmetrical relative to the longitudinal axis of the fish passage 1, the elements of reinforced roughness 4 and incomplete transverse partitions 5 can be made curved, isometric and V-shaped th form in plan, and the elements of reinforced roughness 4 can be installed with the vertex facing the stream and below the alignment with a minimum width, and incomplete transverse partitions 5 can be installed above the alignment with a minimum width and convex side facing downstream, while the elements of enhanced roughness 4 and incomplete transverse partitions 5 form recreation zones 10 for fish located within their installation.

Fish passage works as follows.

When the working flow is fed into the fish passage, migrants are allowed to pass through the spillway dam. The fish attracted from the downstream enters the inlet head 3 and gradually moves along the fish passage 1 in the direction of the upstream and outlet head 2.

The implementation of chambers of variable width with the formation of two sections - confusor 7 and diffuser 8 in plan view - allows you to create a horizontal and vertical diagrams of the width and length of the chambers, characterized by a wide range of speeds. This, in turn, provides the fish with the opportunity to choose the optimal paths of advancement. In addition, the side walls of the tray perform flow-forming and fish-guiding functions, while a targeted flow is formed along the entire length of the fish passage tract 1 and, at the same time, rest zones 10 for fish that form when a stream flows around incomplete transverse partitions 5 (Fig. 17). The configuration also contributes to this, when the width of the chambers in the alignment area of the two sections is minimal, and the maximum width of the chambers falls on the entrance gate to the confusory 7 section and the exit gate from the diffuser 8 section.

It is possible that the elements of enhanced roughness 4 are installed in the alignment section of the sections of the confuser 7 and diffuser 8 shapes and form a vertical slit inlet hole 9, coaxial to the longitudinal axis of the fish passage 1, which is a variant of their layout (Fig. 2).

An option when the elements of enhanced roughness 4 and incomplete transverse partitions 5 are perforated (Fig. 3), which improves the flow skipping mode and practically eliminates stagnant whirlpool areas. In addition, the hydraulic structure of the flow inside the chambers is improved (Fig. 18), multi-gradient velocity plots are formed, etc.

A variant when the elements of reinforced roughness 4 and incomplete transverse partitions 5 are V-shaped in plan and form a rest zone 10 for fish, while the top of the elements of enhanced roughness 4 is oriented towards the flow, and the top of incomplete transverse partitions 5 is oriented in the direction of the flow, allows: firstly, to create a directed flow stream along the side walls of the tray, and, secondly, allows you to create recreation areas 10 for fish, located between the elements of increased roughness 4 and incomplete transverse partitions 5 (figure 4). The fish has the ability to enter the recreation areas 10 for fish, where the flow rate is less, and restore its physiological state.

The option, when the incomplete transverse partitions 5 are perforated (Fig. 5), allows you to create a flow in the recreation areas 10 and partially eliminate the whirlpool zone that previously occurred immediately behind the incomplete transverse partitions 5.

The option, when the elements of reinforced roughness 4 are made perforated (Fig. 19), allows to increase the flow rate in the recreation areas 10 for fish and partially eliminate the whirlpool zone that previously occurred immediately after the elements of reinforced roughness 4.

The option, when the elements of enhanced roughness 4 and incomplete transverse partitions 5 are perforated (Fig.21), allows to improve the hydraulic mode in the fish passage 1.

The perforation holes in the elements of reinforced roughness 4 and incomplete transverse partitions 5 can be made round (Fig.7, 8) or square (Fig.11, 12) or rectangular (Fig.9, 10, 13, 14), which are options their execution.

The option, when the bottom of the chambers is made with a transverse slope, allows you to create sections with different speeds along the width and depth of the chambers. This gives the fish the opportunity to choose the best travel paths.

The variant, when the bottom of the chambers is made with bottom fish-guiding channels 11 (Fig. 16), it allows to improve the conditions for the movement of bottom fish species.

The option when the bottom of the fish passage tract 1 is made stepped (Fig.28), allows you to form a ladder fish passage.

The option when the bottom of the fish passage tract 1 is made with a longitudinal slope (Fig.27), allows you to form a chute fish passage.

The option, when the bottom of the chambers in the section of the diffuser 8 form is made with a reverse slope, and in the section of the confuser 7 form with a longitudinal slope in the direction of the inlet head 3, it allows increasing the hydraulic resistance to the flow and expanding the speed range in depth.

According to the second embodiment of the fish passage (claim 16 of the claims) and the third variant of the fish passage (claim 27 of the claims), the fish passage works in a similar way.

The main difference of the second option is the execution of the side walls of the chambers with a curved and concave side facing the longitudinal axis of the fish passage 1, which allows to form a continuous flow flow inside the chambers, improve the flow hydraulics and obtain the optimal layout of the fish passage chambers (Figs. 29-32).

The main difference of the third option is that the side walls of the chambers are curved and symmetrical with respect to the longitudinal axis of the fish passage 1, as well as the elements of reinforced roughness 4 and incomplete transverse partitions 5 are curved, isometric, and V-shaped in plan, which allows to obtain the optimal layout of the fish passage chambers (Fig. 33-36).

The proposed fish passage and its variants can improve the hydraulic conditions for the passage of fish into the upper pool.

Information sources

1. Japan Patent (JP) No. 2006052605, IPC EB02B 7/02, EBB 8/08, EBB 8/00. 2006, February 23.

2. German patent (DE) No. 202005019792, "Mäandrierender Fischpass", IPC E02B 8/08. Peters Hans Wilhelm, April 27, 2006.

3. German patent (DE) No. 202006005000U1, "Fischpass zum Fischaufstieg", IPC E02B 8/08. Schnitzer Valentin, 2006, July 13.

4. Clay CH 1995. Design offishway and other fish facilities, 2 ^nd edition. Boca Raton, Florida, USA, CRC Press Publisher. 248 pp. Page 30, fig.2.2, a.

Claims (37)

1. The fish passage, including the fish passage, made in the form of a tray, the output head of which is connected to the upper pool of the hydraulic system, and the input head - to the lower pool, reinforced roughness elements located along the length of the fish passage, incomplete transverse partitions installed along the length of the fish passage and chambers that are interconnected, vertical slotted inlet holes made symmetrically with respect to the longitudinal axis of the fish passage path and adjacent to the side walls of the tray, characterized in that the chambers are made us variable width and form two portions - confuser and diffuser shape in plan, and in their alignment pairing chambers minimum width and the maximum width of said input target falls on a convergent portion and a target output of the diffuser portion. 2. The fish passage according to claim 1, characterized in that the elements of enhanced roughness are installed in the alignment section of the sections of the confuser and diffuser forms and form a vertical slot inlet inlet aligned with the longitudinal axis of the fish passage tract. 3. The fish passage according to claim 2, characterized in that the elements of enhanced roughness and incomplete transverse partitions are perforated. 4. The fish passage according to claim 1, characterized in that the elements of enhanced roughness and incomplete transverse partitions are V-shaped in plan and form a relaxation area for fish, while the top of the elements of enhanced roughness is oriented towards the flow, and the top of incomplete transverse partitions is aligned flow direction. 5. Fish passage according to claim 4, characterized in that the incomplete transverse partitions are perforated. 6. The fish passage according to claim 4, characterized in that the elements of enhanced roughness are perforated. 7. The fish passage according to claim 4, characterized in that the elements of enhanced roughness and incomplete transverse partitions are perforated. 8. Fish passage according to any one of claims 3, 5, 6 and 7, characterized in that the perforation holes are made round. 9. Fish passage according to any one of claims 3, 5, 6 and 7, characterized in that the perforation holes are square in shape. 10. Fish passage according to any one of claims 3, 5, 6 and 7, characterized in that the perforation holes are made in a rectangular shape. 11. Fish passage according to any one of claims 1, 2 and 4, characterized in that the bottom of the chambers is made with a transverse slope. 12. Fish passage according to any one of paragraphs.1, 2 and 4, characterized in that the bottom of the chambers is made with bottom fish channels. 13. Fish passage according to any one of claims 1, 2 and 4, characterized in that the bottom of the fish passage is made stepwise. 14. Fish passage according to any one of claims 1, 2 and 4, characterized in that the bottom of the fish passage is made with a longitudinal slope. 15. Fish passage according to any one of claims 1, 2 and 4, characterized in that the bottom of the chambers in the section of the diffuser shape is made with a reverse slope, and in the section of the confusor shape with a longitudinal slope in the direction of the inlet head. 16. The fish passage, including the fish passage, made in the form of a tray, the output head of which is connected to the upper pool of the hydraulic system, and the input head - to the lower pool, reinforced roughness elements located along the length of the fish passage, incomplete transverse partitions installed along the length of the fish passage and chambers that are interconnected, vertical slotted inlet holes made symmetrically with respect to the longitudinal axis of the fish passage path and adjacent to the side walls of the tray, characterized in that the chambers are made They are of variable width and form two sections — confusor and diffuser in plan view, with the width of the chambers being minimal at the interface of their conjugation, and the maximum width of the chambers being at the entrance to the confuser section and the exit port from the diffuser section, while the side walls of the chambers are curved and with the concave side facing the longitudinal axis of the fish passage tract, the elements of reinforced roughness are V-shaped in plan, oriented with the apex towards the flow and installed below the alignment with a minimum width, and n Incomplete transverse partitions - with a curved and convex side facing the stream, and the elements of enhanced roughness and incomplete transverse partitions form recreation areas for fish located within their installation. 17. The fish passage according to clause 16, characterized in that the incomplete transverse partitions are perforated. 18. The fish passage according to clause 16, characterized in that the elements of enhanced roughness are perforated. 19. The fish passage according to clause 16, characterized in that the elements of enhanced roughness and incomplete transverse partitions are perforated. 20. Fish passage according to any one of paragraphs.17-19, characterized in that the perforation holes are made round. 21. Fish passage according to any one of paragraphs.17-19, characterized in that the perforation holes are square in shape. 22. Fish passage according to any one of paragraphs.17-19, characterized in that the perforation holes are made in a rectangular shape. 23. Fish passage according to any one of paragraphs.16-19, characterized in that the bottom of the chambers is made with a transverse slope. 24. Fish passage according to any one of paragraphs.16-19, characterized in that the bottom of the chambers is made with bottom fish channels. 25. Fish passage according to any one of paragraphs.16-19, characterized in that the bottom of the fish passage tract is made stepwise. 26. Fish passage according to any one of paragraphs.16-19, characterized in that the bottom of the fish passage tract is made with a longitudinal slope. 27. The fish passage, including the fish passage, made in the form of a tray, the output head of which is connected to the upper pool of the hydraulic system, and the input head - to the lower pool, reinforced roughness elements located along the length of the fish passage, incomplete transverse partitions installed along the length of the fish passage and chambers that are interconnected, vertical slotted inlet holes made symmetrically with respect to the longitudinal axis of the fish passage path and adjacent to the side walls of the tray, characterized in that the chambers are made They are of variable width and form two sections — confusor and diffuser in plan view, with the cameras having a minimum width of alignment and a maximum width of chambers at the entrance to the confuser section and the exit gate from the diffuser section, while the side walls of the chambers are curved and symmetrical with respect to the longitudinal axis of the fish passage tract, the elements of reinforced roughness and incomplete transverse partitions are made curved, equal, and V-shaped in plan, the elements reinforced roughnesses are set with the apex towards the stream and below the gauge with a minimum width, and incomplete transverse partitions are installed above the gauge with the minimum width and the convex side are facing downstream, while the elements of enhanced roughness and incomplete transverse partitions form recreation areas for fish located within their installation. 28. Fish passage according to item 27, wherein the incomplete transverse partitions are perforated. 29. The fish passage according to claim 27, characterized in that the elements of enhanced roughness are perforated. 30. The fish passage according to claim 27, characterized in that the elements of enhanced roughness and incomplete transverse partitions are perforated. 31. Fish passage according to any one of paragraphs 28-30, characterized in that the perforation holes are made round. 32. Fish passage according to any one of paragraphs 28-30, characterized in that the perforation holes are square in shape. 33. Fish passage according to any one of paragraphs 28-30, characterized in that the perforation holes are made in a rectangular shape. 34. The fish passage according to any one of paragraphs.27-30, characterized in that the bottom of the chambers is made with a transverse slope. 35. Fish passage according to any one of paragraphs.27-30, characterized in that the bottom of the chambers is made with bottom fish channels. 36. Fish passage according to any one of paragraphs.27-30, characterized in that the bottom of the fish passage tract is made stepwise. 37. Fish passage according to any one of paragraphs.27-30, characterized in that the bottom of the fish passage tract is made with a longitudinal slope.

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