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1	Flow over weirs with application to fish passage facilities Kamula, R. (Riitta) 09 May 2001 (has links) Abstract Fishways are hydraulic structures designed to dissipate the energy of flowing water in order to decrease water velocities and increase water depths. The history of fishways is long, the first written remarks date back to the 17th century. Fishway hydraulics, however, have been intensively studied only starting since the 1980's. Fishways have been classified into three main categories according to their hydraulic characteristics: pool-and-weir, vertical slot, and Denil fishways. Fishways are hydraulically complex structures, and thus designing tools for different fishway types have been developed. In this report, a new designing procedure has been established, and equations for each main fishway type have been suggested. In addition, flow conditions below different fishway types have been examined, and velocity distributions at weirs with V-shaped crests in both pool-and-weir fishways and at a single weir have been compared in different discharges and drops. Fishway flows have been compared with flows over single weirs. Denil fishways fishway design fishway hydraulics pool-and-weir fishways vertical slot fishways weir flow
2	The Macroinvertebrate Community in a Nature-like Fishway with Habitat Compensation Properties Gustafsson, Stina January 2012 (has links) Nature-like fishways are often constructed to restore connectivity in streams exploited for hydropower. They also have the potential to compensate for important habitats that have been degraded or lost. The aim of this thesis was to improve knowledge of the concept of nature-like fishway design, with special focus on their habitat compensation potential. This was done by comparing a nature-like fishway with four different habitat types, termed the biocanal, to six nearby natural reference creeks. In paper I the macroinvertebrate colonization of the biocanal was studied and the community composition was compared to that of the natural reference creeks. Furthermore, the potential for the biocanal to contain a diverse macroinvertebrate fauna was investigated. The results showed that the species composition of the benthic fauna in the biocanal was approaching that of the reference creeks and that the different habitat types in the biocanal contributed to the increased family diversity. In paper II the functional organization of the biocanal was studied using the functional feeding group approach. The results showed that after two years, the functional organization in the biocanal resembles that of the natural reference creeks. nature-like fishway biodiversity macroinvertebrates functional feeding groups
3	Fragmentation and fish passage: can fishways mitigate discontinuities in Great Plains fish communities? Pennock, Casey A. January 1900 (has links) Master of Science / Department of Biology / Keith B. Gido / Fishways are a common tool for mitigating the effects of habitat fragmentation on fish communities, but their utility in low-gradient, sand-bed rivers of the Great Plains is not well studied. The Lincoln Street Fishway on the Arkansas River became operational in 2015 and was built specifically to pass small-bodied threatened fishes. We used a combination of surveys up-and downstream of the barrier and tagging experiments to test the ability of fishes to move into and through the fishway. Differences in fish community structure up- and downstream of the dam were more pronounced prior to the construction and operation of the fishway. In particular, Emerald Shiner Notropis atherinoides was absent from collections upstream of the dam before fishway construction, but commonly collected upstream in 2015 and 2016 surveys. Surveys within the fishway structure revealed 29 species, or 74% of the total species captured during our study were using the fishway. To further quantify fishway passage, we used a VIE experiment to assess if fish marked downstream of the fishway moved into or upstream of the fishway. Although we did not recapture marked fish upstream of the fishway, some marked individuals moved into the fishway. Finally, we conducted a PIT tag experiment to evaluate short distance movements within the fishway for three species of small-bodied minnow and were able to document upstream movement across a gradient of flows through the fishway. Results from our study illustrate the potential for fishways to mitigate the effects of habitat fragmentation on small-bodied fishes in sand-bed rivers. Arkansas River Kansas Fishway Fish ecology Dams Community structure
4	Hydraulic modelling at Finsjö Övre hydropower plant : Study for evaluation of a fishway's attractiveness / Hydraulisk modellering vid Finsjö Övre vattenkraftverk : Studie för utvärdering av en fiskvägs attraktivitet Blomström, Eddie January 2022 (has links) In connection with the government’s approval on the proposed national plan (NAP) in 2019, it has become highly topical to find solutions problems regarding fish migration in Swedish watercourses. At Finsjö Övre hydropower plant in Emån, a new type of fishway is planned to be installed and evaluated starting at the end of 2022. The fishway is a double Archimedes screw turbine that has never been assessed in a Nordic country. The energy company Fortum is operating the power plant. Fortum’s main purpose with the installation is to evaluate the double-screw turbine to gain knowledge about how it performs in Nordic conditions and with Swedish fish species. The evaluation of the fishway will focus on why fish choose to use it or not. It will then be advantageous to have knowledge of velocities in the area below the fishway since fish´s choice of route is affected by that. The goal of this project was to investigate flow velocities below the intended fishway through hydraulic simulations. Then by the results produce a basis that can be helpful in future evaluations of the fishway’s function for upstream fish migration. In addition to this, to also link the results to previous studies on upstream fish migration to be able to detect shortcomings. In that case to give suggestions for improvement measures. Field measurements were conducted to collect data on the environment at the hydropower plant. The environment was then recreated in the simulation software HEC-RAS and the planned fishway was added to the model. Three different flow scenarios were assessed and information on flow velocities was obtained. The simulations showed that the velocity distribution below the fishway probably is suitable for most fish species due to both fast and calm water near the fishway’s opening. No obvious shortcomings emerged. However, the volume flow rate from the fishway is low and is below the recommended guide values. Upstream fish migration will probably work best at low volume flow rates in the river since the velocity of the attraction flow then is relatively high compared to the currents from the hydropower plant. The higher flows from the hydropower plant and the spillway, the less attractive the flow from the fishway becomes. / I samband med att regeringen fattade beslut den nationella planen (NAP) år 2019 har det blivit högaktuellt att hitta lösningar på problematiken kring fiskvandring i svenska vattendrag. Vid Finsjö Övre vattenkraftverk i Emån är en ny sorts fiskväg planerad att installeras och utvärderas med början i slutet av 2022. Fiskvägen är en dubbel Arkimedesskruv som aldrig tidigare har testats i ett nordiskt land. Energiföretaget Fortum, som ansvarar för driften av kraftverket, har som huvudsyfte med installationen att utvärdera skruven för att få kunskap om hur den presterar i nordiska förhållanden och med svenska fiskarter. Vid utvärdering av fiskvägen är det fördelaktigt att ha kunskap om hydrauliska förhållanden i området nedanför fiskvägen, då det bland annat ska undersökas varför fiskar väljer att använda den eller inte. Målet med detta projekt var att genom hydrauliska simuleringar undersöka flödeshastigheter nedanför den tilltänkta fiskvägen. På så vis sedan ta fram ett underlag som ska kunna användas vid framtida utvärderingar av fiskvägens funktion gällande uppströmsvandring. Utöver detta att också koppla resultaten till tidigare studier kring fiskvandring för att kunna upptäcka eventuella brister och i så fall ge förslag på förbättringsåtgärder. Fältmätningar genomfördes för att samla in data om miljön vid vattenkraftverket. Därefter återskapades miljön i simuleringsprogrammet HEC-RAS och den planerade fiskvägen adderades till modellen. Tre olika flödesscenarior testades och information om flödeshastigheter erhölls. Simuleringarna visade att hastighetsfördelningen nedanför fiskvägen troligtvis lämpar sig för flertalet fiskarter på grund av både snabbt och lugnt vatten i nära anslutning till fiskvägens öppning. Inga uppenbara brister visade sig. Dock är flödeshastigheten från fiskvägen låg och ligger under rekommenderade riktvärden. Troligtvis kommer uppströmsvandring fungera bäst vid låga volymflöden i ån eftersom hastigheten på lockvattnet då är relativt hög. För ju högre flöden från kraftverket och spillfåran, desto mindre attraktivt blir flödet från fiskvägen. fishway flow hydraulics HEC-RAS Energy Engineering Energiteknik Ecology Ekologi
5	Rekonstrukce jezu v obci Brantice / Reconstruction of the weir in Brantice village Filipi, Josef January 2017 (has links) Topic of Diploma thesis is „Reconstruction of the weir in the Brantice village.“ The theoretical part of their focus deals with the definition and putting patterns associa-ted with the design-ing reconstruction of the weir. In the practical part were made three proposals reconstructions of the weir, which are mathematically based, graphically pre-sented and discussed.
6	Study of a vertical slot fish ladder : Evaluation of flow dynamics through a standardized bypass and the effect of predesigned roughness elements Revilla, Iñigo, Pons, Laia January 2020 (has links) Migrating freshwater fish population has been significantly declined, mostly by the obstruction of their migratory routes by hydropower dams. To diminish such impacts, fish ladders have been developed to facilitate the passage of migrating fish. However, fish ladders are associated with mortality and migratory failure, resulting in an ecological problem which has been a concern for years. The paper contained in the following pages focuses on studying the viability of an innovative modular design for a fish ladder developed by Fiskvägsteknik AB. The design is based in a vertical slot fishway (VSF) to which some roughness elements are attached to modify the flow. The aim of this bypass system is to restore the original biological continuity and diversity in the Swedish rivers, therefore solving a long-lasting ecological problem that hydroelectric production has caused over the years. Through a computational analysis, the flow has been evaluated as a function of the parameters that present an influence over its behaviour. First, a study of the changes in flow velocity influenced by four different slopes: 5 %, 10 %, 15 % and 20 %, has been performed with the objective to find an appropriate inclination according to the capabilities of the fish species considered. The lowest slopes have resulted to be the most appropriate ones, coinciding with low values of turbulent kinetic energy and lower flow velocities. The second step has been checking the effect of roughness elements on the bottom part of the structure tilted a 5%. The flow velocity has shown a considerable decrease, falling in the range of the fish swimming capabilities established. As for the streamlines of the flow, they were altered compared to the cases without the roughness elements. Vertical slot fishway roughness element pattern slope velocity turbulence Fluent Fluid Mechanics and Acoustics Strömningsmekanik och akustik
7	Öringens (Salmo trutta) vandring i Billsta naturlika fiskväg, Jämtlands län, år 2018-2020 : Uppströms- och nedströmsvandring av öring i lekfisk- och smoltstorlek / Brown trout (Salmo trutta) migration in Billsta nature-like fishway, Jämtland county, Sweden, 2018-2020 : Upstream and downstream migration of trout of spawing- and smolt-size Rundström Segersten, Ida January 2022 (has links) Opening migratory pathways is crucial for the brown trout´s ability to recolonize spawning- and rearing areas, in order to complete its lifecycle. Damming rivers for hydropower production has created obstacles for migration, and nature-like fishways are one measure used to recreate connectivity. The purpose of this bachelor´s thesis was to find out how the nature-like fishway, constructed in 2016, at Billsta power plant, central Sweden, was used by migratory brown trout for upstream and downstream passage, and to observe if the migration pattern changed over time, between 2018-2020. The collected data comes from an automatic fish-counter that has been located upstream of the nature-like fishway. To analyze the data, recorded trout were categorized into two length classes, spawning-size and smolt-size, according to criteria from the Swedish Agency for Marine and Water Management (HaV). Since individual fish could not be identified, a method for daily “net migration” was been developed to estimate the direction of migration. The results showed that net migration of spawning-size trout was greater upstream than downstream. Net upstream migration of spawning size trout tended to increase over time, but not the net downstream migration. There was no difference between net upstream and net downstream migration smolt-size trout, but the net downstream migration smolt-size trout increased over time. The study showed that there was substantial use of Billsta nature-like fishway for brown trout of both spawning- and smolt-sizes, for both upstream and downstream migration. The migration pattern was partly as expected but, upstream migration of smolt-size trout suggests that there is a considerable population of stationary trout passing the fish-counter. The study highlights the importance of monitoring the results of the restoration and implementing improvement measures where necessary. Billstaån has regained open migration pathways, but more time is needed to evaluate its effect and find out if the ecosystem works so that Storsjöns unique, large sized, migratory brown trout stocks once again have the conditions to complete their lifecycle in Billstaån. / Fria vandringsvägar är avgörande för öringens förmåga att återkolonisera lek- och uppväxthabitat, vid fungerande lek- och smoltvandring kan öringen fullborda sin livscykel. Vattenkraftsproduktion har skapat vandringshinder och naturlika fiskvägar är en åtgärd för att återskapa konnektivitet. Syftet med den här kandidatuppsatsen var att ta reda på hur den nedersta naturlika fiskvägen, skapad 2016 vid Billsta kraftverk i mellersta Sverige, nyttjades av vandrande öringar för uppströms och nedströms passage och observera om vandringsmönstret förändrades över tid, mellan 2018–2020. Rådatan kommer från en automatisk fiskräknare som funnits placerad uppströms den naturlika fiskvägen. För att analysera datan delades öringen in efter två längdstorlekar, lek- och smoltstorlek, enligt kriterier från Havs- och vattenmyndigheten. Eftersom individuell fisk inte gick att identifiera har en metod för daglig ”nettovandring” utarbetats för att uppskatta vandringens riktning. Resultatet visade att fler öringar i lekfiskstorlek nettouppvandrade än nettonedvandrade. Nettouppvandring av lekfiskstorlek tenderade att öka över tid men inte nettonedvandringen. Det var ingen skillnad mellan nettoupp- och nettonedvandrande öring i smoltstorlek, men nettonedvandringen av öring i smoltstorlek ökade över tid. Studien visade att Billsta naturlika fiskväg nyttjades väl av öring i både lekfisk- och smoltstorlek för både uppströms- och nedströmsvandring. Vandringsmönstret var delvis som förväntat, men när det gäller smoltstorlekens vandring var det snarare bäcköringens vandring än smoltens vandringsmönster som analyserades. Studien belyser vikten av att övervaka resultatet av restaureringen och implementera förbättringsåtgärder där så behövs. Billstaåån har återfått fria vandringsvägar men mer tid behövs för att utvädera dess effekt och ta reda på om ekosystemet fungerar så att Storsjöns unika, storvuxna, lekvandrande öringstam återigen fått förutsättningar att fullborda sin livscykel i Billstaån. nature-like fishway upstream and downstream migration brown trout naturlik fiskväg uppströms- och nedströmsvandring öring Natural Sciences Naturvetenskap
8	Determining the best location for a nature-like fishway in Gavle River, Sweden Buck, Sine January 2013 (has links) The construction of dams and hydro-power stations are some of the most common anthropogenic changes of watercourses and rivers. While being important to humans and society by providing electricity, these obstructions of watercourses can have severe consequences for the aquatic ecosystems. One consequence is that dams often hinder the important movement of migrating fish species between habitats. This can lead to decline and even extinction of important fish populations. To prevent these negative effects, a number of different fish passage systems, including nature-like fishways, have been developed. Nature-like fishways mimic natural streams in order to function as a natural corridor for a wide range of species. Planning and construction of a nature-like fishway is a complex task that often involves many different interests. In the present study a combination of multi-criteria decision analysis and least-cost path analysis is used for determining the best location for a nature-like fishway past Strömdalen dam in Gavleån, Sweden. An anisotropic least-cost path algorithm is applied on a friction-layer and a digital elevation model, and the least-cost path for a nature-like fishway is determined. The results show that the method is useful in areas of varying topography and steep slopes. However, because low slope is a very important factor when constructing a nature-like fishway, slope becomes the dominating factor in this analysis at the expense of e.g. distance to roads. Combining the methods with results from biological studies of fish behavior and detailed hydrological modelling would provide a very strong tool for the planning of nature-like fishways. GIS nature-like fishway multi-criteria decision analysis (MCDA) least-cost path analysis anisotropic path analysis fish migration Gavle River
9	The role of fish physiology, behaviour, and water discharge on the attraction and passage of adult sockeye salmon (Oncorhynchus nerka) at the Seton River dam fishway, British Columbia Pon, Lucas Benjamin 05 1900 (has links) In many rivers, dams have interrupted the connectivity of migration routes for fish. While fishways can provide access between downstream and upstream habitats, it is important that passage can occur with minimal delay, energy expenditure, and physiological stress. The research presented here is based on investigations into fishway attraction and passage for the Gates Creek sockeye salmon (Oncorhynchus nerka, Walbaum) stock at the Seton River dam in British Columbia. The first part of this thesis examined the effect of changes in water discharge from the dam on the relationship between the physiological condition of sockeye and their behaviour in approaching the fishway entrance. Fish were caught and non-lethally biopsied under three normal operating discharge conditions at Seton River dam, and subsets of sampled fish were implanted with radio transmitters and released downstream of the dam. Indices of physiological stress and exhaustive exercise (e.g. plasma cortisol, glucose, lactate, osmolality and hematocrit) did not differ among the water discharge levels that were examined. Fish delayed in the tailrace below the fishway entrance significantly longer under intermediate discharge (19.9 h @ 12.7 m³s‾¹) than either the high discharge (9.3 h @ 15.8 m³s‾¹), or the low discharge (7.0 h @11.0 m³s‾¹;) conditions (P = 0.022, and P = 0.015, respectively). Delay time was similar under high and low discharge conditions (P = 0.617), and passage success was found to be independent of discharge (P = 0.356). The second part of this thesis investigated how prior physiological condition and subsequent swimming energetics and behaviours effected fishway passage success. Fish were captured and biopsied, before being implanted with electromyogram (EMG) transmitters and released near the downstream entrance of the fishway. Very few differences existed between successful and unsuccessful fish in body size, initial plasma physiology and energy state, and mean swim speed and energy use during passage. However, plasma Na+ concentration was significantly lower in unsuccessful fish (P = 0.022), which is suggestive of a depressed ionic state for unsuccessful fish. Generally, fish did not employ burst swimming during successful or failed attempts at passage, indicating that failure was probably not related to metabolic acidosis. Sockeye salmon Oncorhynchus nerka Fishway Fish ladder Stress Fish physiology Swim behaviour Seton River dam Fraser River
10	The role of fish physiology, behaviour, and water discharge on the attraction and passage of adult sockeye salmon (Oncorhynchus nerka) at the Seton River dam fishway, British Columbia Pon, Lucas Benjamin 05 1900 (has links) In many rivers, dams have interrupted the connectivity of migration routes for fish. While fishways can provide access between downstream and upstream habitats, it is important that passage can occur with minimal delay, energy expenditure, and physiological stress. The research presented here is based on investigations into fishway attraction and passage for the Gates Creek sockeye salmon (Oncorhynchus nerka, Walbaum) stock at the Seton River dam in British Columbia. The first part of this thesis examined the effect of changes in water discharge from the dam on the relationship between the physiological condition of sockeye and their behaviour in approaching the fishway entrance. Fish were caught and non-lethally biopsied under three normal operating discharge conditions at Seton River dam, and subsets of sampled fish were implanted with radio transmitters and released downstream of the dam. Indices of physiological stress and exhaustive exercise (e.g. plasma cortisol, glucose, lactate, osmolality and hematocrit) did not differ among the water discharge levels that were examined. Fish delayed in the tailrace below the fishway entrance significantly longer under intermediate discharge (19.9 h @ 12.7 m³s‾¹) than either the high discharge (9.3 h @ 15.8 m³s‾¹), or the low discharge (7.0 h @11.0 m³s‾¹;) conditions (P = 0.022, and P = 0.015, respectively). Delay time was similar under high and low discharge conditions (P = 0.617), and passage success was found to be independent of discharge (P = 0.356). The second part of this thesis investigated how prior physiological condition and subsequent swimming energetics and behaviours effected fishway passage success. Fish were captured and biopsied, before being implanted with electromyogram (EMG) transmitters and released near the downstream entrance of the fishway. Very few differences existed between successful and unsuccessful fish in body size, initial plasma physiology and energy state, and mean swim speed and energy use during passage. However, plasma Na+ concentration was significantly lower in unsuccessful fish (P = 0.022), which is suggestive of a depressed ionic state for unsuccessful fish. Generally, fish did not employ burst swimming during successful or failed attempts at passage, indicating that failure was probably not related to metabolic acidosis. Sockeye salmon Oncorhynchus nerka Fishway Fish ladder Stress Fish physiology Swim behaviour Seton River dam Fraser River

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