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Create the page "Suitable measures for FLOW-3D" on this wiki! See also the search results found.
- ...ped in the FIThydro project! See [[Innovative technologies from FIThydro]] for a complete list.|reminder}} ...d cover refuge areas respectively. All dimensions are in meters (m) except for E.]]14 KB (1,950 words) - 10:03, 26 October 2020
- ...ced in the FIThydro project! See [[Innovative technologies from FIThydro]] for a complete list.|reminder}} Different measures are used to protect downstream moving fish (details in [https://www.fithydr18 KB (2,762 words) - 09:53, 10 May 2021
- ...structures in the main river (e.g. physical obstacles and guiding elements for migratory fish). In addition to functioning as an upstream migration corrid ...and different fish species, and this should be considered when designing, for example with V-shaped entrance profile, slots in the tahlweg and high bed r7 KB (1,106 words) - 10:01, 26 October 2020
- ...m), essentially on the Columbia and Snake River dams (west coast of USA). For example: installation of advanced turbines Minimum Gap Runner (MGR) at Bonn ..., 2003). A first prototype site for demonstration purposes is still looked for (Dixon, 2015).13 KB (1,903 words) - 10:03, 26 October 2020
- ..._wua.jpg|thumb|250px|Figure 4: Weighted Usable Area (WUA) (m<sup>2</sup>) for the European Eel. Ocreza River, Portugal (source:adapted from Boavida et al ...Weighted Usable AreaWUA (m<sup>2</sup>) and discharge in the Ocreza River for Iberian barbel (adult and juvenile), European eel (adult and juvenile) and8 KB (1,166 words) - 13:53, 13 April 2020
- [[file:pool_type_fishway_norway.png|thumb|250px|Figure 1: Pool-type fishway for salmon and trout in Norway.]] ...r flow at varying upstream water levels. This fishway type may be suitable for adult salmon and large trout even when the available terrain is steep.5 KB (788 words) - 10:01, 26 October 2020
- {{Fact box for Altheim}} {{Relevant SMTDs for Altheim}}9 KB (1,512 words) - 14:02, 21 October 2020
- ...reductions in total, annual flow, as large volumes of water are withdrawn for the purpose of producing electricity. The changes will depend on the hydrol ..., 2012). Q95 or variants of this is used in several countries as benchmark for the lowest flow releases in rivers with dramatically reduced flows. Q95 ref7 KB (1,131 words) - 10:05, 26 October 2020
- ...ced in the FIThydro project! See [[Innovative technologies from FIThydro]] for a complete list.|reminder}} [[file:dam_velocity.png|thumb|500px|Figure 1: Reynolds decomposition for the velocity component ''u'']]9 KB (1,204 words) - 14:07, 8 October 2020
- ...ring Center (CEIWR-HEC), United States Corps of Engineers (USACE)Institute for Water Resources ...ort/mobile bed computations, and water temperature/water quality modelling for a full network of natural and constructed channels, or a single river reach8 KB (1,212 words) - 13:38, 29 September 2020
- ...ped in the FIThydro project! See [[Innovative technologies from FIThydro]] for a complete list.|reminder}} ...ructures (FGS) with wide bar spacing and vertical bars have been developed for using at RoR HPPs and water intakes with high design discharges. These are15 KB (2,120 words) - 09:52, 10 May 2021
- ...ced in the FIThydro project! See [[Innovative technologies from FIThydro]] for a complete list.|reminder}} ..._fish.png|thumb|250px|Figure 1: CASiMiR model of river stretch and results for adult barbel (source:SJE Ecohydraulic Engineering GmbH).]]5 KB (746 words) - 13:58, 6 July 2020
- ...ced in the FIThydro project! See [[Innovative technologies from FIThydro]] for a complete list.|reminder}} ...ure sensors (1-6), and the absolute pressure sensor (7)[3].(source: Centre for Biorobotics, TUT).]]7 KB (952 words) - 13:04, 30 September 2020
- ...deliverables the sediment measure is referred to as "Hydraulic conditions for sediment transport". ...e orange is the flow after regulation. Note that the data series are shown for different time periods.]]5 KB (814 words) - 10:03, 26 October 2020
- ...use of existing and innovative technologies. It concentrates on mitigation measures and strategies to develop cost-efficient environmental solutions and on str ...ble to all possible sites, and often the solution will be a combination of measures.6 KB (824 words) - 15:08, 27 March 2023
- Developed by: French agency for biodiversity (AFB) ...ge ([[Nature-like_fishways]], [[Pool-type_fishways]], [[Baffle_fishways]], for futher information on the different type of fishways please see the deliver5 KB (729 words) - 13:34, 26 October 2020
- ...e habitats for fish less accessible. In some cases, establishment of areas for fish can be an important measure to extend the living areas. ...er to assess under what flow conditions the different areas are accessible for species with various swimming and jumping capabilities and habitat requirem3 KB (515 words) - 10:04, 26 October 2020
- ...ty of eggs. This method is not efficient to improve the shelter conditions for adult fish (Pulg et al. 2017). ...quality of spawning areas would be to assess if these are limiting factors for the development of fish population, i.e. diagnosis according to the environ6 KB (921 words) - 10:04, 26 October 2020
- ...3.png|thumb|250px|Figure 2: Dilution gauging in a fishway: Mariotte device for continuous injection into the fishway (source: Itagra.ct).]] ...er and the discharge we want to know. There are two main different methods for the injection of the tracers into the flow: (a) instantaneous or integratio4 KB (661 words) - 15:25, 11 April 2020
- ...ped in the FIThydro project! See [[Innovative technologies from FIThydro]] for a complete list.|reminder}} ...ool_principle.png|thumb|250px|Figure 1: Principle of the hydropeaking tool for categorization of regulated rivers according to the potential impacts of hy4 KB (541 words) - 13:24, 2 December 2020
