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41	Återskapande av naturliga trösklar i mindre vattendrag och våtmarker : Modellutveckling för simulering av förändradeflödesregimer / Recreation of natural thresholds in small rivers and wetlands : model development for the simulation of changing water flows Cronander, Joel January 2017 (has links) Sveriges markanvändning ser idag annorlunda ut än för 100 år sedan. Det senaste århundradet har våtmarker dikats för att öka mängden odlingsbar areal. I och med utdikning av våtmarker förändrades den kustnära miljön, där många fiskarter har sina lekområden.När en minskning av predatorfisk observerades i Östersjöns kustnära områden i slutet av 1900-talet ansågs att exploatering av fiskens lekområden kunde vara en möjlig orsak för minskningen. För att återskapa naturliga lek- och uppväxtområden diskuteras nu en implementering av naturliga trösklar i diken som avvattnar kustnära våtmarker. I samband med dessa restaureringsarbeten utfärdar man beslutsprocesser tillsammans med bland annat markägare. För att kunna uppskatta och kvantifiera hur närområdet påverkas av en naturlig tröskel behöver effekten av den tilltänkta tröskeln på vattenflöden modelleras.I denna studie har därför en hydraulisk modell utvecklats för att kunna simulera vattenflöden i tre våtmarker som ligger på Öland där implementeringen av naturliga trösklar är tilltänkt: Maren, Hyllekärr och Brokhål. Modellen användes framförallt för att kunna uppskatta hur våtmarkerna översvämmas vid olika vattenföring. Genom ett observerat starkt samband mellan avrinningsområdets yta och vattenföring kunde extrema flödesscenarion simuleras. En metod för att beskriva naturliga trösklars påverkan på uppströms flödesregimer har utvecklats med hydraulisk modellering i HEC-RAS. För att validera modellresultaten uppmättes vattenflöde under vårflod 2017.Modellsimuleringen visade att endast Brokhål visade förväntade resultat, Maren visade förväntade resultat vid högre flöden och Hyllekärr visade orimliga översvämningar. Validering av resultaten visade att höjdmodellen som använts har visat felaktig topografisk information för alla tre våtmarkerna. Avvikelser och felaktigheter i topografi och batymetri har pekats ut som den största bakomliggande felkällan till modellen.Studien visade att naturliga trösklar har ingen, eller extremt liten påverkan på uppströms flödesregimer. Det bör dock poängteras att modellen har kraftiga begränsningar, särskilt höjdmodellens upplösning. Fler försök med modellen samt utveckling av höjdmodellen rekommenderas och resultaten från denna studie bör endast ses som vägledande. / In the late 20th century a decrease in coastal predatory fish in the Baltic Sea has been observed. It has been suggested that exploitation of the fish’s spawning habitats, mainly through draining of coastal wetlands, was one reason for the fish decline. To recreate spawn and growth areas, natural thresholds can be installed in trenches draining coastal wetlands. To quantify the effects of a natural threshold on water discharge in the drainage area under various water flow regimes modeling is needed.In this study, a hydraulic model was developed to estimate the effect of changing water discharges of three wetlands when natural thresholds are implemented, i.e. Maren, Hyllekärr and Brokhål, located on northern Öland. The model was run under different water flow regimes. Through an observed strong relation between catchment area and discharge, extreme discharge situations could be simulated. A method for investigating the effects of natural thresholds on upstream flow regimes has been developed with hydraulic modeling in HEC-RAS. To validate the model results, a comparison with empirical data during the spring flood 2017 was made.Model simulations showed that only water discharges in Brokhål behaved as expected, Maren behaved as expected for large flows and results for Hyllekärr were considered not being reliable. Validation showed that the elevation model for topography and bathymetry deviated from reality in all three wetlands. The elevation model has been identified as the single largest source of error in the water discharge model.From the model results, it is concluded that natural thresholds have none, or very minor effects on the upstream water flow regimes. It should however be emphasized that the model has major limitations, in particular the elevation model’s resolution. It is highly recommended to further develop the elevation model before further simulations on water discharges are made. The results from this study should only be considered as a first approximation where more detailed studies are needed to confirm that natural thresholds won’t result in major changes in upstream water flows. Hydraulic modeling natural thresholds inundation modeling HEC-RAS HEC-geoRAS Hydraulisk modellering naturliga trösklar översvämningsmodellering HEC-RAS HEC-geoRAS Water Engineering Vattenteknik
42	Assessment of a sediment management solution in a reservoir with a sluicing technique using a HEC-RAS 2D model : Case study of Andakílsá river in west Iceland / Bedömning av en sedimenthanteringslösning i en reservoar med hjälp av en HEC-RAS 2D-modell : Fallstudie av Andakílsá-floden på västra Island Gudgeirsdóttir, Emilía Sól January 2023 (has links) Sediment-related issues in reservoirs can often pose significant challenges to their operational effectiveness, sustainability, and environmental impact. Sustainable sediment management can help resolve these issues and extend the lifespan of dams. The reservoir in Andakílsá river in west Iceland is one out of many reservoirs that has experienced sediment-related problems, and in this study, it was evaluated whether a particular sediment management solution called SediCon Sluicer could be a suitable solution for the site. More specifically, evaluate whether the river transport capacity is sufficient to transport the sediments released from the SediCon Sluicer outlet pipe, so they don’t settle and form thick deposit layers in the river bottom. A hydraulic model of the river was set up in a two-dimensional HEC-RAS model (version 6.3.1) and the Manning’s roughness coefficient in the channel calibrated using water level data. The Manning’s value 0.025 was found to best describe the channel roughness. A HEC-RAS 2D Sediment Transport model was then used to simulate different amount of sediments being released into the river for different flow scenarios. A flood event with 95% confidence level to occur once a year was found to have a peak flow of 50 m3/s and have a duration of around 18 hours. However, the average peak flow from the biggest flood events during a 14-year period was found to be 118 m3/s, and that type of flood events can have a duration up to 70 hours. The results from the sediment simulation scenarios showed that for flood events with long duration and high discharge, the yearly accumulated sediments could most likely all be flushed once a year without too much deposit in the river. A shorter flood event, that is almost certain to occur once a year, is not likely to be able to flush out all the yearly accumulated sediments all at once. Perhaps the SediCon sluicer could be operated several times a year, but a more detailed flow frequency analysis must reveal what smaller floods can be expected yearly. This solution could be a suitable option for the river, but more research and analysis need to be performed for a better certainty on the optimal operational range. / Sedimentrelaterade problem i reservoarer kan ofta utgöra betydande utmaningar för vattensystemets effektivitet, hållbarhet och miljöpåverkan. Hållbar sedimenthantering kan hjälpa till att lösa dessa problem och förlänga dammarnas livslängd. Reservoaren i Andakílsá-floden på västra Island är en av många reservoarer som har upplevt sedimentrelaterade problem, och i denna studie utvärderades om en specifik sedimenthanteringslösning kallad SediCon Sluicer kunde vara en lämplig lösning för platsen. Mer specifikt, utvärdera om flodens transportkapacitet på nedströmssidan om reservoaren är tillräcklig för att transportera sedimenten som frigörs från SediCon Sluicers utloppsrör, så att de inte sätter sig och bildar tjocka avlagringslager i flod-botten. En modell över hydraulik och sedimenttransport i floden sattes upp i en tvådimensionell HEC-RAS-modell (version 6.3.1) och Mannings friktionskoefficient i kanalen kalibrerades med hjälp av vattennivådata. Manning-värdet 0,025 visade sig bäst beskriva kanalens grovhet. En HEC-RAS 2D Sediment Transport-modell användes sedan för att simulera olika mängder sediment som släpps ut i floden för olika flödesscenarier. Resultaten från sedimentsimuleringen visade att om sediment släpptes ut en gång om året så krävs en tillräckligt varaktigt högflödesscenario för att få acceptabel transport, medan sedimenten kan avsättas i floden vid kortare händelser. SediCon Sluicer kanske skulle kunna köras flera gånger per år, men en mer detaljerad flödesfrekvensanalys måste i så fall visa vilka sekvenser av mindre översvämningar som kan förväntas årligen. Denna lösning skulle kunna vara ett lämpligt alternativ för floden, men mer forskning och analys behöver göras för att få en bättre säkerhet om det optimala driftområdet. SediCon Sluicer Andakílsá Hydropower Station HEC-RAS 2D Sediment modelling Sustainable sediment management SediCon Sluicer Andakílsá vattenkraftverk HEC-RAS 2D Sediment Modellering Hållbar sedimenthantering Engineering and Technology Teknik och teknologier
43	Numerical Simulation of Unsteady Hydrodynamics in the Lower Mississippi River Davis, Mallory 14 May 2010 (has links) Alterations along the Mississippi River, such as dams and levees, have greatly reduced the amount of freshwater and sediment that reaches the Louisiana coastal area. Several freshwater and sediment diversions have been proposed to combat the associated land loss problem. To aid in this restoration effort a 1-D numerical model was calibrated, validated, and used to predict the response of the river to certain stimuli, such as proposed diversions, channel closures, channel modifications, and relative sea level rise. This study utilized HEC-RAS 4.0, a 1-D mobile-bed numerical model, which was calibrated using a discharge hydrograph at Tarbert Landing and a stage hydrograph at the Gulf of Mexico, to calculate the hydrodynamics of the river. The model showed that RSLR will decrease the capacity of the Lower Mississippi River to carry bed material. The stage at Carrollton Gage is not significantly impacted by large scale diversions Lower Mississippi River Unsteady Hydrodynamics Fixed Bed Diversions HEC-RAS Model
44	Modeling Historical Meander Bends Reconnection on the lower Long Tom River in Lane Co. and Benton Co., OR Appleby, Christina 21 November 2016 (has links) Since the damming and channelization of the lower Long Tom River in the 1940s and 1950s, the quality and quantity of habitat for coastal cutthroat trout and spring Chinook salmon in the watershed has dramatically diminished. In order to better understand the potential for stream restoration, this study uses 2D hydraulic modeling to determine the impact of reconnecting historical meander bends to the main stem of the lower Long Tom River on localized flooding, sediment erosion and deposition, and salmonid physical habitat. These models compare the current conditions to two restoration scenarios that allow for fish passage given 1, 2, and 5-year flood events at two study sites. This study reveals important variations in the impact of restoration between the study sites and the reconnection methods. It also suggests that there is the potential for a large increase in the area of accessible habitat with stream restoration. 2D HEC-RAS Fluvial geomorphology Geographic Information Systems (GIS) Hydraulic modeling Long Tom River River restoration
45	Topographic data and roughness parameterisation effects on 1D flood inundation models Lim, Nancy Joy January 2009 (has links) <p>A big responsibility lies in the hand of local authorities to exercise measures in preventing fatalities and damages during flood occurrences. However, the problem is how flooding can be prevented if nobody knows when and where it will be occurring, and how much water is expected. Therefore, the utilisation of flood models in such studies can be helpful in simulating what is anticipated to occur.</p><p> </p><p>In this study, the HEC-RAS steady flow model was used in calibrating different flood events in Testeboån river, which is situated in the municipality of Gävle in Sweden. The purpose is to provide inundation maps that show the water surface profiles for the various flood events that can help authorities in planning within the area. Moreover, the study would try to address certain issues, which concern one-dimensional models like HEC-RAS in terms of the effects of topographic data and the parameters used for friction coefficient.</p><p> </p><p>Various flood maps were produced to visualise the extents of the floods. In Oppala and Norra Åbyggeby, the big water extents for both the 100-year and the highest probable floods were visible in the forested areas and grasslands, although a few houses were within the predicted flooded areas. In Södra Åbyggeby, Varva, Forsby, and in the northern parts of Strömsbro and Stigslund, the majority of the residential places were not inundated during the 100-year flood calibration, but became flooded during the maximum probable flood. The southern portions of Strömsbro and Stigslund had lesser flood extents and houses were situated within the boundaries of the highest flood. In Näringen, there were also some areas close to the estuary that were flooded for both events.</p><p> </p><p>With the other calibrations performed, two factors that greatly affect the flood extents in the floodplain, particularly in flatter areas were topographic data and the parameters used as friction coefficient. The use of high resolution topographic data was important in improving the performance of the software. Nevertheless, it must be emphasised that in areas characterised by gentler slopes that bounded the channel and the floodplain, data completeness became significant whereby both ground data and bathymetric points must be present to avoid overestimation of the inundation extent. The water extents also varied with the use of the various Manning’s <em>n</em> for the overbanks, with the bigger value showing greater water extents. Else, in areas with steeper slopes and where the water was confined to the banks, the effect was minimal.</p><p> </p><p>Despite these shortcomings of one-dimensional models, HEC-RAS provided good inundation extents that were comparable to the actual extent of the 1977 flooding.</p><p> </p><p>Modelling real floods has its own difficulties due to the unpredictability of real-life flood behaviours, and more especially, there are time dependent factors that are involved. Although calibrating a flood event will not exactly determine what is to arise as they might either under- or overestimate such flooding occurrences, still, they give a standpoint of what is more or less to anticipate, and from this, planning measures can be undertaken.</p> flood GIS HEC-RAS inundation study one-dimensional flood model topographic data roughness coefficient
46	Quantitative Flood Risk Assessment With Application In Turkey Keskin, Fatih 01 September 2012 (has links) (PDF) Floods can result in enormous causalities and huge economic losses in urban and rural regions. In recent years, while assessing the damage, risk analysis and assessment has become an important tool in addressing uncertainty in flood hazards. The lack of knowledge about the water extend, water depth, water velocity and potential damage in case of flood increase the vulnerability of the people to disasters in the flood region. Especially this information is valuable for city planners and decision makers. In case of new settlement area selection, correct decision can be taken by the help of this information. This type of information can be taken from hydraulic models as 1D or 2D. On the other hand, two dimensional (2D) hydraulic modeling becomes a need with increasing trends of very high speed computers and models instead of one dimensional (1D) ones. The ability of solving complex structures within few minutes enhances the use of 2D modeling with the integration of wave motion. In addressing the uncertainty, GIS becomes an important tool in risk assessment by integrating the flood depth, extend and vulnerability issues for definition of the quantitative risk. In this study, 1D and 2D hydraulic modeling is applied and combined with the quantitative vulnerability factors in Dalaman Plain-Turkey. Results show that the area is vulnerable to flood and high monetary damages can be seen in case a flood in the region. Flood, Dalaman, HEC-RAS, FLO2D, model
47	Performance and uncertainty estimation of 1- and 2-dimensional flood models Lim, Nancy Joy January 2011 (has links) Performance-based measures are used to validate and quantify how likely the system’s results resemble that of the actual data. Its application in inundation studies is performed by comparing the extents of the predicted flood to the real event by measuring their overlap size and getting the percentage of this size to the union of both data. In this study, performances of 1- and 2-dimensional flow models were assessed when used with different topographic data sources, rasterisation cell sizes, mesh resolution and Manning’s values with the help of Geographic Information Systems (GIS). The Generalised Likelihood Uncertainty Estimation (GLUE) was also implemented to evaluate the behaviour and the uncertainties of the Hydrologic Engineering Center-River Analysis System (HEC-RAS) steady-flow model in delineating the inundation extents when various sets of friction coefficients for floodplain and channel were utilised as inputs. Although it was not possible to perform the GLUE procedure with Telemac-2D due to the simulation time, Manning’s n performances’ effects were evaluated using ten randomly selected sets of friction for the channel and floodplain. The LiDAR data, which had the highest resolution, performed well in all simulations, followed by Lantmäteriet data at 50 m resolution. The lowest resolution Digital Terrain Elevation Data (DTED) showed poor resemblance to the actual event and big misrepresentations of flooded areas. Rasterisation cell sizes in HEC-RAS showed minimal effect to the inundation limits when used between 1 m and 5 m, but performance started to deteriorate at 10 m (Lantmäteriet) and 20 m (LiDAR). The 10 m mesh resolution used for LiDAR behaved poorer than the 20 m mesh, which performed well in the different 2D simulations. For HEC-RAS, =0.033 to 0.05 performed well when paired with =0.02 to 0.10. It was apparent, therefore, that the channel’s Manning’s n affected the performances of the floodplain’s . Furthermore, the study also showed that using heterogeneous roughness values corresponding to the different land use classes is not as effective as using single channel and floodplain’s Manning. The dependence of the floodplain’s roughness to the channel’s friction values had also been manifested by Telemac, even though it required lower values than the 1D simulator. = 0.007 to 0.019 and =0.01 to 0.04 gave good performance to the 2D system. In terms of the overall model performance, HEC-RAS 1D exhibited good results for Testeboån. Even when the average distances to the actual data were estimated, the breadths were shorter compared to the most optimal output of the two-dimensional simulator, which showed more overestimated areas, despite the fact that the overlap size with the 1977 actual event was better than HEC-RAS. It could be because the measures-of-fit took into consideration the areal sizes that were over- and under-predicted aside from the overlap sizes between the observed and modelled results. This could be the same reason with the mean distances produced, wherein higher values were computed for Telemac-2D due to its bigger gap from the actual flood as brought by the enlargement in the flood extents. But it was also made known in the study that such ambiguities in the model performance were further contributed by the characteristics of the floodplain’s topography of being flat. Testeboån’s inclination to the banks was averaged at 0.027 m/m, with the central portion at 0.002 m/m. The middle portion of the floodplain was illustrated to contain more uncertain regions, where water extents changed easily as the parameters were altered. Distances greater than 200 m were also mostly located within these inclination values or within 0.005 to 0.006 m/m. The response of distance to the floodplain’s gradient improved when the slope value became higher, and this had been particularly noticed between 0 to 50 m. 1D/2D flow models flood inundation study GIS GLUE HEC-RAS Manning’s coefficient Telemac
48	Topographic data and roughness parameterisation effects on 1D flood inundation models Lim, Nancy Joy January 2009 (has links) A big responsibility lies in the hand of local authorities to exercise measures in preventing fatalities and damages during flood occurrences. However, the problem is how flooding can be prevented if nobody knows when and where it will be occurring, and how much water is expected. Therefore, the utilisation of flood models in such studies can be helpful in simulating what is anticipated to occur. In this study, the HEC-RAS steady flow model was used in calibrating different flood events in Testeboån river, which is situated in the municipality of Gävle in Sweden. The purpose is to provide inundation maps that show the water surface profiles for the various flood events that can help authorities in planning within the area. Moreover, the study would try to address certain issues, which concern one-dimensional models like HEC-RAS in terms of the effects of topographic data and the parameters used for friction coefficient. Various flood maps were produced to visualise the extents of the floods. In Oppala and Norra Åbyggeby, the big water extents for both the 100-year and the highest probable floods were visible in the forested areas and grasslands, although a few houses were within the predicted flooded areas. In Södra Åbyggeby, Varva, Forsby, and in the northern parts of Strömsbro and Stigslund, the majority of the residential places were not inundated during the 100-year flood calibration, but became flooded during the maximum probable flood. The southern portions of Strömsbro and Stigslund had lesser flood extents and houses were situated within the boundaries of the highest flood. In Näringen, there were also some areas close to the estuary that were flooded for both events. With the other calibrations performed, two factors that greatly affect the flood extents in the floodplain, particularly in flatter areas were topographic data and the parameters used as friction coefficient. The use of high resolution topographic data was important in improving the performance of the software. Nevertheless, it must be emphasised that in areas characterised by gentler slopes that bounded the channel and the floodplain, data completeness became significant whereby both ground data and bathymetric points must be present to avoid overestimation of the inundation extent. The water extents also varied with the use of the various Manning’s n for the overbanks, with the bigger value showing greater water extents. Else, in areas with steeper slopes and where the water was confined to the banks, the effect was minimal. Despite these shortcomings of one-dimensional models, HEC-RAS provided good inundation extents that were comparable to the actual extent of the 1977 flooding. Modelling real floods has its own difficulties due to the unpredictability of real-life flood behaviours, and more especially, there are time dependent factors that are involved. Although calibrating a flood event will not exactly determine what is to arise as they might either under- or overestimate such flooding occurrences, still, they give a standpoint of what is more or less to anticipate, and from this, planning measures can be undertaken. flood GIS HEC-RAS inundation study one-dimensional flood model topographic data roughness coefficient
49	Observations of Flow Distributions and River Breakup in the Mackenzie Delta, NWT Morley, Janelle KA Unknown Date No description available. Mackenzie Delta Modelling Breakup Flow Distributions River Channels HEC-RAS Channel Geometry
50	Určení záplavového území a hydrotechnické posouzení objektů na vybraném úseku vodního toku Mastník na podkladě DMR 5. generace / Determination of floodplains and hydrotechnical assessment of Mastník water flow based on the DMR 5G data Čápová, Pavlína January 2016 (has links) This work engages in the watercourse called Mastník. It focuses on the determination of flooded areas for couple of series (Q5, Q10, Q50, Q100) and hydro-technical assessment of particular objects. The chosen section is situated on cadastral area of town Sedlčany in the Central Bohemia region. Its length is 1.973 kms and there is located 5 water management objects reaching to the flow profile of the watercourse. The data for this dissertation has been gained by the Czech State Administration of Land Surveying and Cadaster. It is about the digital relief of the 5th generation of aerial laser scanning. The laser rays are not capable of penetration the water surface, and thus describe the shape of the water-sources bed. So the tool called CroSolver was used to dig the water-sources bed. Then the hydrodynamic model has been created in program called HEC-RAS. From the results of hydrodynamic model then was evaluated the real water-technical state of the object. The outgoing data (dots defining the flood range to the surroundings) was after then inserted to the program ArcMap. Here the flood lines and from them the flood zones were created based on the particular series of the flows.

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