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Watershed Environmental Hydrology (WEHY) Model Application on South Fork Eel River Watershed

Watershed Environmental Hydrology (WEHY) Model Application on South Fork Eel River Watershed
Author: Hong Chang
Publisher:
Total Pages:
Release: 2018
Genre:
ISBN: 9780438930742
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Water holds a fundamental part of human existence. Water resources, especially freshwater resources, are not only in storage around the world but also unevenly distributed. Because of human behavior, climate change, and economic and social developments, water withdrawals and supplies have been changing momentously within recent times. The three primary reasons causing an increase in water consumption are agricultural usage, industrial and power generation usage, and domestic usage. While the total water demand has been growing, water supplies have been strongly, and sometimes adversely, influenced by climate change and human activities. Under these circumstances, the necessity of developing a model capable of analyzing and predicting the water availability within basins of interest, while incorporating spatial elements and heterogeneities as well as atmospheric changes, is crucial. This research study focused on assessing the water supply conditions and water availability within the South Fork Eel River watershed in California by modeling the surface flows through employing the Watershed Environmental Hydrology (WEHY) model. Primarily, the WEHY model uses upscaled hydrologic conservation equations to represent the environmental and hydrologic processes on the temporal and spatial level. The physically based parameters of the WEHY model make possible the scheming of the impact of heterogeneity within natural watersheds. In this study, a geographic information system (GIS) database, formed by the digital elevation model (DEM) map, the land use map, the soil map, along with other spatial maps and land observation data, was first established based on the investigation performed. Then the hydrologic module of the WEHY model was selected for the hydrologic modeling of the South Fork Eel River watershed and was configured over the watershed. A system of model computational units (MCUs) and stream reaches served as the essential elements of the WEHY model. Applying the model control parameters and routing parameters, the WEHY model was then successfully calibrated and validated over the watershed by comparing the simulation results against historical data. The validated model was then used to reconstruct the historical flow discharges within the South Fork Eel River watershed, which allowed the assessment of the trends and the water availability within the basin during the past few decades. Moreover, with a good validation result, further projections of the South Fork Eel River watershed become possible using the calibrated and validated WEHY model.

A Calibration and Application of the Watershed Environmental Hydrology (WEHY) Model to the Calaveras Watershed

A Calibration and Application of the Watershed Environmental Hydrology (WEHY) Model to the Calaveras Watershed
Author: Emily Dean Snider
Publisher:
Total Pages:
Release: 2019
Genre:
ISBN: 9781392414989
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Physically-based watershed modeling is an important tool when making management decisions or trying to understand the underlying physics in a watershed. This will be especially true in the future as climate change begins to alter the atmospheric patterns and the land use and land cover conditions of the globe. Physically-based models are useful, as they are not calibrated based on historical data but rather based on a watershed's actual conditions and can therefore be used for flow discharge predictions based on climate projections or altered land use conditions. In this study, one atmospheric model, the Weather Research and Forecasting (WRF) Model, and one atmospheric data set, the Parameter-elevation Regressions on Independent Slopes Model (PRISM), were used as input data to the Watershed Environmental Hydrology (WEHY) Model, a physically-based, fully-coupled atmospheric-land model, to predict discharge flows in the Calaveras watershed. After calibration and validation procedures it was concluded that snow accumulation based on the atmospheric data was an important determinant in flow discharge accuracy. WEHY results using WRF inputs underpredicted high-peak flows, while simulating low-peak flows well, suggesting an under representation of snow accumulation. WEHY results using PRISM inputs, on the other hand, estimated high-peak flows well and significantly overestimated low-peak flow discharges, suggesting an overestimation of snow accumulation. With both WRF and PRISM inputs, however, monthly validation was successfully achieved in WEHY, with a Nash-Sutcliffe Efficiency Index (NSE) of greater than 0.8. The WEHY validation results at a daily interval, however, were not able to achieve a sufficient NSE and cannot be fully trusted when making predictions about future conditions. Monthly predictions may be sufficient when making management decisions, though. An estimated flow over the month during a drought year or a flood year can be helpful when planning reservoir operations or municipal water uses. These results are only applicable to the Calaveras watershed and further study will be required before determining if the results can be generalized. In addition to being useful in the near future, WEHY also has applications to long term flow simulations based on altered conditions.

Mathematical Models of Small Watershed Hydrology and Applications

Mathematical Models of Small Watershed Hydrology and Applications
Author: Vijay P. Singh
Publisher: Water Resources Publication
Total Pages: 984
Release: 2002
Genre: Science
ISBN: 9781887201353
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Comprehensive account of some of the most popular models of small watershed hydrology and application ~~ of interest to all hydrologic modelers and model users and a welcome and timely edition to any modeling library

Watershed Models

Watershed Models
Author: Vijay P. Singh
Publisher: CRC Press
Total Pages: 678
Release: 2010-09-28
Genre: Science
ISBN: 1420037439
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Watershed modeling is at the heart of modern hydrology, supplying rich information that is vital to addressing resource planning, environmental, and social problems. Even in light of this important role, many books relegate the subject to a single chapter while books devoted to modeling focus only on a specific area of application. Recognizing the

Modeling Yuba River Watershed Using WEHY Model and Dam Operation Rules

Modeling Yuba River Watershed Using WEHY Model and Dam Operation Rules
Author: Prince Pahwa
Publisher:
Total Pages:
Release: 2014
Genre:
ISBN: 9781321212617
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Water is an essential requirement for human existence. However, due to economic and social developments as well as climate change, both water withdrawals and water supplies are changing significantly. Water consumption has an increasing tendency in all the sectors mainly in agricultural use, industrial and power generation use, and domestic use. The total water demand of US is projected to increase by about 12.3 percent between 2000 and 2050. In the meantime, water supplies are being impacted by climate change and anthropogenic impacts. It has, thus, become a necessity to be able to model and predict the water flow based on integration of spatial elements and atmospheric/climatic changes.The purpose of this project is to model the surface run off in the Yuba River Watershed, California, given the geographic and geomorphologic complexities and the presence of dams that regulate the water discharge. The model used, the Watershed Environmental Hydrology Model, WEHY, utilizes upscaled hydrologic conservation equations to describe the evolution of the hydrologic processes and environmental processes within a watershed in time and space. It is capable of accounting for the effect of heterogeneity within natural watersheds. With the development of modern geographic information system (GIS) and remote sensing technologies, increasingly more watershed physical attributes are digitally available, such as topography, geology, soils, land/vegetation cover, and so on. Because the WEHY model parameters are related to the physical properties of the watershed, it is possible to estimate the geomorphologic parameters and the soil hydraulic parameters of the WEHY model by means of existing GIS data sets that describe the geomorphologic features and the soil conditions. So the geographic and geomorphologic complexities are addressed by WEHY and GIS. Presence of big dams makes it necessary to define operation rules taking care of all the constraints including downstream water demand, flood protection, recreation and fishery. The most important dam in Yuba River Watershed, New Bullards Bar dam, extends about 15 miles upstream, has an estimated usable storage capacity of 966,103 ac-ft, a surface area of 4,790 acres, a shoreline of about 71.9 miles, and a drainage area of 488.6 square miles. While calibrating the surface run off, the various operation rules for the working of New Bullards bar dam were realized and made to run along with WEHY model. The operation rules relate to flood protection, power generation and downstream water demand. In this thesis the above aspects were covered to make New Bullards Bar dam operation rules as per reservoir regulation for flood control laid out by Corps of Engineers Sacramento, California.

Mathematical Models of Large Watershed Hydrology

Mathematical Models of Large Watershed Hydrology
Author: Vijay P. Singh
Publisher: Water Resources Publication
Total Pages: 930
Release: 2002
Genre: Nature
ISBN: 9781887201346
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Comprehensive account of some of the most popular models of large watershed hydrology ~~ of interest to all hydrologic modelers and model users and a welcome and timely edition to any modeling library

Watershed Hydrology, Management and Modeling

Watershed Hydrology, Management and Modeling
Author: Abrar Yousuf
Publisher: CRC Press
Total Pages: 209
Release: 2019-10-31
Genre: Science
ISBN: 0429773560
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The book provides a comprehensive insight into watersheds and modeling of the hydrological processes in the watersheds. It covers the concepts of watershed hydrology and watershed management in depth. The basic types, of soil erosion and its measurement and estimation of runoff and soil loss from the small and large watersheds are discussed. Recent advances in the watershed management like the application of remote sensing and GIS and hydrological models are a part of the book. The book serve as a guide for professional and competitive examinations for undergraduate students of Agriculture and Agricultural Engineering and graduate students of Soil Science, Soil and Water Engineering, Agricultural Physics, Hydrology and Watershed Management.

Simulation Modeling for Watershed Management

Simulation Modeling for Watershed Management
Author: James Westervelt
Publisher: Springer Science & Business Media
Total Pages: 201
Release: 2012-12-06
Genre: Technology & Engineering
ISBN: 1461301971
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A discussion of the role of modeling in the management process, with an overview of state-of-the-art modeling applications. The first chapters provide a background on the benefits and costs of modeling and on the ecological basis of models, using historical applications as examples, while the second section describes the latest models from a wide selection of environmental disciplines. Since management frequently requires the integration of knowledge from many different areas, both single discipline and multidiscipline models are discussed in detail, and the author emphasizes the importance of understanding the issues and alternatives in choosing, applying, and evaluating models. Land and watershed managers as well as students of forestry, park management, regional planing and agriculture will find this a thorough and practical introduction to all aspects of modeling.