Experimental and field approach to the hydraulics of nature-like pool-type fish migration facilities

Nature-like fish migration facilities have gradually become a common type to ensure longitudinal connectivity of fish movements in running waters. This article presents verification on hydraulic and geometric parameters of nature-like pool-type fish passes vi...

Full description

Bibliographic Details
Main Authors: Wang R.W., Hartlieb A.
Format: Article
Language:English
Published: EDP Sciences 2011-02-01
Series:Knowledge and Management of Aquatic Ecosystems
Subjects:
Online Access:http://dx.doi.org/10.1051/kmae/2011001
id doaj-8b11e25a56af4573ad4df812f66bf853
record_format Article
spelling doaj-8b11e25a56af4573ad4df812f66bf8532020-11-25T01:26:00ZengEDP SciencesKnowledge and Management of Aquatic Ecosystems1961-95022011-02-0104000510.1051/kmae/2011001kmae100033Experimental and field approach to the hydraulics of nature-like pool-type fish migration facilitiesWang R.W.0Hartlieb A.1 Former Ph.D. Student, Institute of Hydraulic and Water Resources Engineering, Technische Universität München Managing Engineer, Laboratory of Hydraulic and Water Resources Engineering, Technische Universität München Nature-like fish migration facilities have gradually become a common type to ensure longitudinal connectivity of fish movements in running waters. This article presents verification on hydraulic and geometric parameters of nature-like pool-type fish passes via experimental and field investigations. The experiment verified that the maximum streamwise velocity near a slot ranged from 0.8–1.0 time of the theoretical maximum velocity. Large vertical recirculations presented below sills, moved downstream with the increase in discharge, and were likely to vanish or to change the rotation direction with high flow conditions. High turbulent kinetic energy distributed immediately downstream from boulder sills instead of along the water jet. Fieldwork was conducted at a full-width ramp in Kolbermoor and a partial-width ramp in Leitner in Bavaria under low, mean and high flow conditions to investigate the flow and geometry characteristics in real constructions and under various hydrologic conditions. The results for velocity show confidence in the method to obtain the maximum value around a slot by measuring at one depth only. Instead of flow velocity, water depth played a more critical role in the performance of a nature-like fishway, in particular under low flow conditions, and so did the arrangement of boulders along a sill. A detailed hydraulic/geometric investigation, together with biological monitoring, should be conducted to identify appropriate criteria on assessment of fish free passage at nature-like fish migration facilities. http://dx.doi.org/10.1051/kmae/2011001nature-like rampfish passesturbulent kinetic energy
collection DOAJ
language English
format Article
sources DOAJ
author Wang R.W.
Hartlieb A.
spellingShingle Wang R.W.
Hartlieb A.
Experimental and field approach to the hydraulics of nature-like pool-type fish migration facilities
Knowledge and Management of Aquatic Ecosystems
nature-like ramp
fish passes
turbulent kinetic energy
author_facet Wang R.W.
Hartlieb A.
author_sort Wang R.W.
title Experimental and field approach to the hydraulics of nature-like pool-type fish migration facilities
title_short Experimental and field approach to the hydraulics of nature-like pool-type fish migration facilities
title_full Experimental and field approach to the hydraulics of nature-like pool-type fish migration facilities
title_fullStr Experimental and field approach to the hydraulics of nature-like pool-type fish migration facilities
title_full_unstemmed Experimental and field approach to the hydraulics of nature-like pool-type fish migration facilities
title_sort experimental and field approach to the hydraulics of nature-like pool-type fish migration facilities
publisher EDP Sciences
series Knowledge and Management of Aquatic Ecosystems
issn 1961-9502
publishDate 2011-02-01
description Nature-like fish migration facilities have gradually become a common type to ensure longitudinal connectivity of fish movements in running waters. This article presents verification on hydraulic and geometric parameters of nature-like pool-type fish passes via experimental and field investigations. The experiment verified that the maximum streamwise velocity near a slot ranged from 0.8–1.0 time of the theoretical maximum velocity. Large vertical recirculations presented below sills, moved downstream with the increase in discharge, and were likely to vanish or to change the rotation direction with high flow conditions. High turbulent kinetic energy distributed immediately downstream from boulder sills instead of along the water jet. Fieldwork was conducted at a full-width ramp in Kolbermoor and a partial-width ramp in Leitner in Bavaria under low, mean and high flow conditions to investigate the flow and geometry characteristics in real constructions and under various hydrologic conditions. The results for velocity show confidence in the method to obtain the maximum value around a slot by measuring at one depth only. Instead of flow velocity, water depth played a more critical role in the performance of a nature-like fishway, in particular under low flow conditions, and so did the arrangement of boulders along a sill. A detailed hydraulic/geometric investigation, together with biological monitoring, should be conducted to identify appropriate criteria on assessment of fish free passage at nature-like fish migration facilities.
topic nature-like ramp
fish passes
turbulent kinetic energy
url http://dx.doi.org/10.1051/kmae/2011001
work_keys_str_mv AT wangrw experimentalandfieldapproachtothehydraulicsofnaturelikepooltypefishmigrationfacilities
AT hartlieba experimentalandfieldapproachtothehydraulicsofnaturelikepooltypefishmigrationfacilities
_version_ 1725111352013357056