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OverviewPopulation growth, increasing living standards, and rapidly changing climate have resulted in an increasing demand for freshwater, accelerating the water degradation challenges. There is a compelling need to minimize water consumption and develop approaches to effectively manage existing water resources. On a positive note, water resource management strategies discussed in this book present innovative ways to conserve both quality and quantity. Chapter 1 discusses decentralized water management approaches for intervening the urban water cycle to minimize the environmental and socioeconomic impacts. This chapter concludes with a need to use a suite of tools based on decision support systems for managing urban water resources. Chapter 2 discusses the need for assessing suitability of various types of models for a specific scenario based on the required level of complexity. This chapter discusses in detail the underlying criteria behind model selection, validation, and uncertainty analysis. Urban watersheds can be more challenging compared to natural watersheds. The urban watersheds include parking lots, roads, and developed structures, all of which contribute to a myriad of anthropogenic pollutants through stormwater runoff. Computer-based models can be used to study water quality issues and to develop a plan to manage watershed level resources. Chapter 3 compares pros and cons of the state-of-the-art watershed models used for managing water resources. Numerical simulations can be performed to compare the current and future water quality scenarios of a given watershed and to estimate the impact of potential water resource management strategies. Chapter 4 presents a case study of an urban region in Hanoi, Vietnam. Water evaluation and planning simulation tool was used to predict the trends and drivers of wastewater generation. Considering rapidly changing climate and associated weather impacts, it is critical to secure water resources in addition to dealing with the water quality issues. Chapter 5 suggests that climate change models and watershed and precipitation models should be jointly used in order to capture uncertainties in ecological functions, energy and food production and water supply sources. Chapter 6 presents a water use estimation and management tool that examines the effect of climate change and drought conditions on water supplies to ensure adequate buffalo forage. Sustaining both buffalo forage and water supplies during drought conditions requires preparedness and adaptation in response to unfavorable conditions. Finally, water reuse can alleviate the stress on available water resources. For example, effluents from wastewater treatment plants and desalination plants can be treated and reused for managing water crisis. Chapter 7 emphasizes that it is critical to optimize both economical and sustainability parameters during treatment of wastewater effluents and desalination concentrate. In certain cases, valuable metals can be recovered from the concentrate. Full Product DetailsAuthor: Veera Gnaneswar Gude, Ph.D. , Kandiah Ramanitharan, PhD , Venkataramana Gadhamshetty, Ph.D.Publisher: Nova Science Publishers Inc Imprint: Nova Science Publishers Inc Weight: 0.500kg ISBN: 9781536173352ISBN 10: 1536173355 Pages: 267 Publication Date: 01 May 2020 Audience: Professional and scholarly , Professional & Vocational Format: Hardback Publisher's Status: Active Availability: Available To Order ![]() We have confirmation that this item is in stock with the supplier. It will be ordered in for you and dispatched immediately. Table of ContentsPreface; Integrated Approaches toward Sustainable Urban Water Resources Management; Water Resources Modeling: Model Selection, Validation and Uncertainty Analysis; Computer Tools for Urban Hydrology and Water Quality Management; Numerical Simulation to Quantify Present Status and Future Prediction of Water Quality of To-Lich River, Hanoi, Vietnam; Uncertainties in Water Supplies Due to Changing Climate and Extreme Weather Events; Buffalo Forage and Water Estimation: Management Decisions and Assisting Climate Change Vulnerability Assessments and Drought Management Adaptation; Resource Recovery from Reverse Osmosis Concentrate as a Solution to Water Crisis: A Technological Assessment; Index.ReviewsAuthor InformationVeera Gnaneswar Gude, Ph.D., Associate Professor, Civil and Environmental Engineering Department, Mississippi State University, Mississippi State, MS, US. Tab Content 6Author Website:Countries AvailableAll regions |