Advertisement
| water resources engineering linsley: Water Resources Engineering Ray K. Linsley, Joseph B. Franzini, David L. Freyberg, George Tchobanoglous, 1993 |
| water resources engineering linsley: Water Resources Engineering Ray K. Linsley, 1992 Groundwater, Dams, Hydroelectric power, Sewerage and wastewater treatment, Flood-damage mitigation. |
| water resources engineering linsley: Water-resources Engineering Ray K. Linsley, 1964 |
| water resources engineering linsley: Irrigation and Water Resources Engineering G. L. Asawa, 2006 The Book Irrigation And Water Resources Engineering Deals With The Fundamental And General Aspects Of Irrigation And Water Resources Engineering And Includes Recent Developments In Hydraulic Engineering Related To Irrigation And Water Resources Engineering. Significant Inclusions In The Book Are A Chapter On Management (Including Operation, Maintenance, And Evaluation) Of Canal Irrigation In India, Detailed Environmental Aspects For Water Resource Projects, A Note On Interlinking Of Rivers In India, And Design Problems Of Hydraulic Structures Such As Guide Bunds, Settling Basins Etc.The First Chapter Of The Book Introduces Irrigation And Deals With The Need, Development And Environmental Aspects Of Irrigation In India. The Second Chapter On Hydrology Deals With Different Aspects Of Surface Water Resource. Soil-Water Relationships Have Been Dealt With In Chapter 3. Aspects Related To Ground Water Resource Have Been Discussed In Chapter 4. Canal Irrigation And Its Management Aspects Form The Subject Matter Of Chapters 5 And 6. Behaviour Of Alluvial Channels And Design Of Stable Channels Have Been Included In Chapters 7 And 8, Respectively. Concepts Of Surface And Subsurface Flows, As Applicable To Hydraulic Structures, Have Been Introduced In Chapter 9. Different Types Of Canal Structures Have Been Discussed In Chapters 10, 11, And 13. Chapter 12 Has Been Devoted To Rivers And River Training Methods. After Introducing Planning Aspects Of Water Resource Projects In Chapter 14, Embankment Dams, Gravity Dams And Spillways Have Been Dealt With, Respectively, In Chapters 15, 16 And 17.The Students Would Find Solved Examples (Including Design Problems) In The Text, And Unsolved Exercises And The List Of References Given At The End Of Each Chapter Useful. |
| water resources engineering linsley: Water Resources Engineering Larry W. Mays, 2019-04-02 Modern water conveyance and storage techniques are the product of thousands of years of human innovation; today we rely on that same innovation to devise solutions to problems surrounding the rational use and conservation of water resources, with the same overarching goal: to supply humankind with adequate, clean, freshwater. Water Resources Engineering presents an in-depth introduction to hydrological and hydraulic processes, with rigorous coverage of both core principles and practical applications. The discussion focuses on the engineering aspects of water supply and water excess management, relating water use and the hydrological cycle to fundamental concepts of fluid mechanics, energy, and other physical concepts, while emphasizing the use of up-to-date analytical tools and methods. Now in its Third Edition, this straightforward text includes new links to additional resources that help students develop a deeper, more intuitive grasp of the material, while the depth and breadth of coverage retains a level of rigor suitable for use as a reference among practicing engineers. |
| water resources engineering linsley: Hydrology for Engineers, SI Metric Edition RK. Linsley, 1988 |
| water resources engineering linsley: Geographic Information Systems in Water Resources Engineering Lynn E. Johnson, 2016-04-19 State-of-the-art GIS spatial data management and analysis tools are revolutionizing the field of water resource engineering. Familiarity with these technologies is now a prerequisite for success in engineers' and planners' efforts to create a reliable infrastructure.GIS in Water Resource Engineering presents a review of the concepts and application |
| water resources engineering linsley: Water Resources Shimon C. Anisfeld, 2011-01-03 In this concise introduction to water resources, Shimon Anisfeld explores the fundamental interactions between humans and water, including drinking, sanitation, irrigation, and power production. The book familiarizes students with the current water crisis and with approaches for managing this essential resource more effectively in a time of rapid environmental and social change. Anisfeld addresses both human and ecological problems, including scarcity, pollution, disease, flooding, conflicts over water, and degradation of aquatic ecosystems. In addition to providing the background necessary to understand each of these problems, the book discusses ways to move towards better management and addresses the key current debates in the water policy field. In the past, water development has often proceeded in a single-sector fashion, with each group of users implementing its own plans without coordination with other groups, resulting in both conflict and inefficiency. Now, Anisfeld writes, the challenge of water management is figuring out how to balance all the different demands for water, from sanitation to energy generation to ecosystem protection. For inquiring students of any level, Water Resources provides a comprehensive one-volume guide to a complex but vital field of study. |
| water resources engineering linsley: Water Resources Systems Analysis Mohammad Karamouz, Ferenc Szidarovszky, Banafsheh Zahraie, 2003-06-27 Focusing on conflict resolution, Water Resources Systems Analysis discusses systematic approaches to the mathematical modeling of various water resources issues, which helps decision-makers allocate water effectively and efficiently. Readers will gain an understanding of simulation, optimization, multi-criterion-decision-making, as well as engineer |
| water resources engineering linsley: Water Resources and Integrated Management of the United Arab Emirates Abdulrahman S. Alsharhan, Zeinelabidin E. Rizk, 2020-03-17 This book provides an inventory of water resources, describes water challenges, and suggests methodologies and technologies for integrated water resources management in the UAE. It also summarizes efforts of water conservation and management, and modern approaches for improvement of water resources management and decision-making related to this valuable resource. The authors are specialized in geology and hydrogeology and have been teaching and conducting scientific research on water resources in the UAE for the last three decades. This book represents the main reference on water resources in the UAE for academia, researchers, professionals, students and the general public. |
| water resources engineering linsley: The Water Resource in Tropical Africa and Its Exploitation K. A. Edwards, 1983-01-01 This report gives an insight, for non-specialists in the field, into the wide range of problems concerning water development in tropical Africa. It deals with the mechanics of the hydrological cycle, the origins of the wide variations in rainfall, the potential for water resources development in pastoral areas and low-cost methods of exploiting these resources. Problems of water quality are also covered in outline. The final chapter makes recommendations, principally covering planning and operation and maintenance. Reference is made to recent advances in the field of water resources with examples taken mainly from anglophone countries in Africa. |
| water resources engineering linsley: Use of Models for Water Resources Management, Planning, and Policy United States. Congress. Office of Technology Assessment, 1982 |
| water resources engineering linsley: Solutions Manual to Accompany Water-resources Engineering Ray K. Linsley, Joseph B. Franzini, 1979 |
| water resources engineering linsley: Elements of Water Resources Engineering K. N. Duggal, 1996 The Book Conforms To The Modern Concept Of Treating The Diversified Problems Of Water Resources Engineering Through A Multi-Disciplinary And Integrated Approach And Incorporating It In The Educational Curriculum For Effective And Comprehensive Teaching. It Specifically Deals With The Principal Segments Of Water Resources Engineering Which Include Hydrology, Ground Water, Water Management For Irrigation And Power, Flood Control, Engineering Economy In Water Resources Projects For Flood Control, Project Planning In Water Resources, Concrete And Earth Dams.Because Of The Multi-Disciplinary Nature Of Water Resources Engineering Problems, It Is Seldom Possible To Do Full Justice To The Subjects Unless The Teaching Imparts Background Knowledge Of The Allied Disciplines, Viz., Probability And Statistics, Engineering Economics And Systems Engineering. The Book Represents An Attempt To Fulfill This Primal Need.The Book Would Primarily Benefit Students Doing Graduation In Civil Engineering And Those Appearing In Section-B Examination Of The Institution Of Engineers (India). Besides, Some Of The Topics Covered In The Book Would Also Be Of Much Use By Post-Graduate Students In Water Resources Engineering. |
| water resources engineering linsley: Water Resources of Sedgwick County, Kansas Hugh E. Bevans, 1989 |
| water resources engineering linsley: Benefits of Water Quality Enhancement Syracuse University. Civil Engineering Department, Nelson L. Nemerow, 1971 |
| water resources engineering linsley: Water Resources Engineering Ralph Allen Wurbs, Wesley P. James, 2002 For a basic course in water resources engineering. Also appropriate for more advanced undergraduate and graduate courses and as a reference for practicing engineers. Designed to provide a broad coverage of pertinent topics concerning water resource engineering, this text focuses on fundamental topics of hydraulics, hydrology, and water management. Water resources engineering concepts and methods are addressed from the perspective of practical applications in water management and associated environmental and infrastructure management. The focus is on mathematical modeling and analysis using state-of-the-art computational techniques and computer software. The text is written to easily adapt to the spectrum of ways that individual courses and sequences of undergraduate and graduate courses are organized at various universities, providing flexibility for the instructor. |
| water resources engineering linsley: Watershed Models Vijay P. Singh, Donald K. Frevert, 2010-09-28 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 |
| water resources engineering linsley: GIS and Remote Sensing in Hydrology, Water Resources and Environment Yangbo Chen, International Association of Hydrological Sciences, 2004 |
| water resources engineering linsley: Hydrosystems Engineering and Management Larry W. Mays, Yeou-Koung Tung, 1922 |
| water resources engineering linsley: Hydrology Wilfried Brutsaert, 2005-08-11 Water in its different forms has always been a source of wonder, curiosity and practical concern for humans everywhere. Hydrology: An Introduction presents a coherent introduction to the fundamental principles of hydrology, based on the course that Wilfried Brutsaert has taught at Cornell University for the last thirty years. Hydrologic phenomena are dealt with at spatial and temporal scales at which they occur in nature. The physics and mathematics necessary to describe these phenomena are introduced and developed, and readers will require a working knowledge of calculus and basic fluid mechanics. The book will be invaluable as a textbook for entry-level courses in hydrology directed at advanced seniors and graduate students in physical science and engineering. In addition, the book will be more broadly of interest to professional scientists and engineers in hydrology, environmental science, meteorology, agronomy, geology, climatology, oceanology, glaciology and other earth sciences. |
| water resources engineering linsley: Hydrology H. M. Raghunath, 2006 An attempt is made to place before students (degree and post-degree) and professionals in the fields of Civil and Agricultural Engineering, Geology and Earth Sciences, this important branch of Hydroscience, i.e., Hydrology. It deals with all phases of the Hydrologic cycle and related opics in a lucid style and in metric system. There is a departure from empiricism, with emphasis on collection of hydrological data, processing and analysis of data, and hydrological design on sound principles and matured judgement. Large number of hydrological design problems are worked out at the end of each article, to illustrate the principles involved and the design procedure. Problems for assignment are given at the end of each chapter, along with objective type and intelligence questions. |
| water resources engineering linsley: Water-resources Engineering [by] Ray K. Linsley [and] Joseph B. Franzini Ray K. Linsley, 1964 |
| water resources engineering linsley: Artificial Recharge of Groundwater Takashi Asano, 2016-01-22 Artificial Recharge of Groundwater focuses on artificial recharge of groundwater basins as a means to increase the natural supply of groundwater, along with the technical issues involved. Special emphasis is placed on the use of reclaimed municipal wastewater as a source for artificial recharge of groundwater. This book is comprised of 26 chapters organized into five sections. After reviewing the state of the art of artificial recharge of groundwater, the discussion turns to the fundamental aspects of groundwater recharge, including the role of artificial recharge in groundwater basin management, recharge methods, hydraulics, monitoring, and modeling. The next section considers pretreatment processes for wastewater and renovation of wastewater with rapid-infiltration land treatment systems and describes the health effects of wastewater reuse in groundwater recharge. A number of artificial recharge operations using reclaimed wastewater are then highlighted, focusing on cases in various countries including Israel, Germany, Poland, Japan, the Netherlands, and the United States. The remaining chapters look at the extent of contaminant removal by the soil system and the fate of micropollutants during groundwater recharge as well as the legal and economic aspects of groundwater recharge. Research needs for groundwater quality management are also explored. This monograph is written for civil and sanitary engineers, agricultural engineers, hydrologists, environmental scientists, and research scientists as well as public works officials, consulting engineers, agriculturalists, industrialists, and students at colleges and universities. |
| water resources engineering linsley: Automation and Systems Issues in Air Traffic Control John A. Wise, V. David Hopkin, Marvin L. Smith, 2012-12-06 In recent years, increases in the amount and changes in the distribution of air traffic have been very dramatic and are continuing. The need for changes in the current air traffic systems is equally clear. While automation is generally accepted as a method of improving system safety and performance, high levels of automation in complex human-machine systems can have a negative effect on total system performance and have been identified as contributing factors in many accidents and failures. Those responsible for designing the advanced air traffic control systems to be implemented throughout the alliance during the next decade need to be aware of recent progress concerning the most effective application of automation and artificial intelligence in human-computer systems. This volume gives the proceedings of the NATO Advanced Study Institute held in Maratea, Italy, June 18-29, 1990, at which these issues were discussed. |
| water resources engineering linsley: Applied Hydrology Ven Te Chow, David R. Maidment, Larry W. Mays, 1988 Hidrologic analysis., Hidrologic design., Design storms., Design flows. |
| water resources engineering linsley: Applied Hydrology Ray K. Linsley, Max Adam Kohler, Joseph L. H. Paulhus, 1975 |
| water resources engineering linsley: Problem Solving in Engineering Hydrology Faris Faris, Prof Isam Mohammed Abdel-Magid Ahmed, Mohammed Isam Mohammed Abdel-Magid, 2015-08-13 Objectives of the book are meant to fulfill the main learning outcomes for students registered in named courses, which covered the following: - Solving problems in hydrology and making decisions about hydrologic issues that involve uncertainty in data, scant/incomplete data, and the variability of natural materials. - Designing a field experiment to address a hydrologic question. - Evaluating data collection practices in terms of ethics. - Interpret basic hydrological processes such as groundwater flow, water quality issues, water balance and budget at a specific site at local and regional scales based on available geological maps and data sets. - Conceptualizing hydrogeology of a particular area in three dimensions and be able to predict the effects on a system when changes are imposed on it. Learning outcomes are expected to include the following: - Overview of essential concepts encountered in hydrological systems. - Developing a sound understanding of concepts as well as a strong foundation for their application to real-world, in-the-field problem solving. - Acquisition of knowledge by learning new concepts, and properties and characteristics of water. - Cognitive skills through thinking, problem solving and use of experimental work and inferences - Numerical skills through application of knowledge in basic mathematics and supply issues. - Student becomes responsible for their own learning through solution of assignments, laboratory exercises and report writing. Problem solving in engineering hydrology is primarily proposed as an addition and a supplementary guide to fundamentals of engineering hydrology. Nevertheless, it can be sourced as a standalone problem solving text in engineering hydrology. The book targets university students and candidates taking first degree courses in any relevant engineering field or related area. The document is valued to have esteemed benefits to postgraduate students and professional engineers and hydrologists. Likewise, it is expected that the book will stimulate problem solving learning and quicken self-teaching. By writing such a script it is hoped that the included worked examples and problems will guarantee that the booklet is a precious asset to student-centered learning. To achieve such objectives immense care was paid to offer solutions to selected problems in a well-defined, clear and discrete layout exercising step-by-step procedure and clarification of the related solution employing vital procedures, methods, approaches, equations, data, figures and calculations. The new edition of the book hosted the incorporation of computer model programs for the different hydrological scenarios and encountered problems presented throughout the book. Developed programs were coded with Microsoft Visual Basic.NET 10 programming language, using Microsoft Visual Studio 2010 Professional Edition. Most of the examples herein have an equivalent code listed alongside through the text. To avoid repetition though, some example programs were omitted whenever there was resemblance to another example elsewhere, to which the reader is kindly requested to refer to. |
| water resources engineering linsley: Geographical Information Systems in Hydrology V.P. Singh, M. Fiorentino, 2013-03-09 The last few years have witnessed an enormous interest in application of GIS in hydrology and water resources. This is partly evidenced by organization of sev eral national and international symposia or conferences under the sponsorship of various professional organizations. This increased interest is, in a large measure, in response to growing public sensitivity to environmental quality and management. The GIS technology has the ability to capture, store, manipulate, analyze, and visualize the diverse sets of geo-referenced data. On the other hand, hydrology is inherently spatial and distributed hydrologic models have large data requirements. The integration of hydrology and GIS is therefore quite natural. The integration involves three major components: (1) spatial data construction, (2) integration of spatial model layers, and (3) GIS and model interface. GIS can assist in design, calibration, modification and comparison of models. This integration is spreading worldwide and is expected to accelerate in the foreseeable future. Substantial op portunities exist in integration of GIS and hydrology. We believe there are enough challenges in use of GIS for conceptualizing and modeling complex hydrologic processes and for globalization of hydrology. The motivation for this book grew out of the desire to provide under one cover a range of applications of GIS tech nology in hydrology. It is hoped that the book will stimulate others to write more comprehensive texts on this subject of growing importance. |
| water resources engineering linsley: Reservoir Sedimentation Kumkum Bhattacharyya, Vijay P. Singh, 2019-01-03 Reservoir Sedimentation: Assessment and Environmental Controls appraises the issues of sedimentation in reservoirs and discusses measures that can be employed for the effective management of sediment to prolong the operational life of reservoirs. It provides information for professional consultants and policymakers to enable them to manage dams in the best possible way, in order to ensure their sustainability as well as the sustainability of water resources in general. It examines the effects of anthropogenic intervention and management of sediment in dams and reservoirs, as water resources become more sensitive and the demand for clean water continues to increase. Features: Examines the issue of sedimentation in dams and reservoirs and presents water management strategies to alleviate environmental issues Presents methods to help ensure the environmental sustainability of dams and reservoirs, as well as the sustainability of water resources- with consideration of climate change and increased demand Illustrates the spatial distribution of sedimentation characteristics for several dams using geographic information systems (GIS) Explains the relationships between loss in capacity and catchment characteristics Examines regional variation in sediment yield, defines geomorphic regions on the basis of similar hydrometeorology, physiography, geology, and vegetation affecting reservoirs |
| water resources engineering linsley: Water-resources Engineering David A. Chin, 2014 For a senior- or graduate-level first course in water-resources engineering offered in civil and environmental engineering degree programs. A prerequisite course in fluid mechanics and calculus up to differential equations is assumed. Water-Resources Engineering provides comprehensive coverage of hydraulics, hydrology, and water-resources planning and management. Presented from first principles, the material is rigorous, relevant to the practice of water resources engineering, and reinforced by detailed presentations of design applications. |
| water resources engineering linsley: Unsaturated Flow in Hydrologic Modeling H.J. Morel-Seytoux, 2012-12-06 This volume certainly is a Conference Proceedings, the Proceedings of the NATO Advanced Research Workshop (ARW) on Unsaturated Flow in Hydrologic Modeling held at Les Villages du Soleil near ArIes, France from June 13 to 17, 1988. Let me therefore acknowledge properly, at the very beginning, the gratitude of all the participants to the NATO Science Committee for its generous support and worthwhile goal of bringing together scientists of many countries to communicate and share their experiences. Particular thanks are extended to the director of the program, Dr. Luis Vega da Cunha for his interest and understanding. On the other hand this volume is also, and probably more so, a Textbook that fills a gap in the field of unsaturated flow. Many treatises on the subject present the theory in its different aspects. Hardly any explain in details how the different pieces can be put together to address realistic problems at the basin scale. The various invited contributions to the ARW were structured in a subject progression much as chapters are organized in a book. The intent of the ARW was to assess the current state of knowledge in Unsaturated Flow and its use in Hydrologic Modeling Practice. In a sense the interest in fundamentals of unsaturated flow in this ARW was not just for the sake of knowledge but also and primarily for the sake of action. Can such fundamental knowledge be utilized for better management of the water resource? was the basic question. |
| water resources engineering linsley: Urban Ecology, Water Quality and Climate Change Arup K. Sarma, Vijay P. Singh, Rajib K. Bhattacharjya, Suresh A. Kartha, 2018-03-14 This unique book brings together high-quality research contributions on ecological aspects of urbanization, water quality concerns in an urban environment, and climate change issues with a strong Indian focus under one umbrella. It includes several case studies that discuss urban water management, particularly highlighting the quality aspects. Urbanization is an ecological disturbance that the modern world accepts as essential in the absence of a better alternative that could provide an equal level of comfort. The prohibitive costs of eco-friendly production technologies are forcing the developing world to generate industrial waste that is detrimental to the environment. At the same time, the availability of adequate fresh water is another challenge for our climate-change impacted world. The scientific community is, therefore, searching for ways towards ecologically sustainable urban development. Discussing all these issues, this book offers a useful guide for academicians, researchers, practicing engineers, and managers dealing with diverse water-related problems in urban areas. |
| water resources engineering linsley: Urban Hydrology, Hydraulics, and Stormwater Quality A. Osman Akan, Robert J. Houghtalen, 2003-08-22 A practical introduction on today's challenge of controlling and managing the water resources used by and affected by cities and urbanized communities. The book offers an integrated engineering approach, covering the spectrum of urban watershed management, urban hydraulic systems, and overall stormwater management. Each chapter concludes with helpful problems. Solutions Manual available to qualified professors and instructors upon request. Introduces the reader to two popular, non-proprietary computer-modeling pro-grams: HEC-HMS (U.S. Army Corps of Engineers) and SWMM (U.S EPA). |
| water resources engineering linsley: Water-resources Engineering Ray K. Linsley, Joseph B. Franzini, 1979 |
| water resources engineering linsley: Applied Hydrogeology Charles Willard Fetter, 1988 This best selling book, Applied Hydrogeology gives readers a balanced examination of all facets of hydrogeology. It text stresses the application of mathematics to problem solving rather than derivation of theory. It provides a balance between physical and chemical hydrogeology. Numerous case studies cultivate reader understanding of the occurrence and movement of ground water in a variety of geologic settings. This valuable reference includes five new case histories: The Dakota Aquifer, Fractures Sedimentary Rocks—Newark basin, Faults as Aquifer Boundaries, Desert Hydrology—Azraq basin, Jordan. Uses the Internet to obtain hydrogeologic data and information. Includes well-developed case studies in most of the chapters. Contains tables covering various functions, unit conversions, and additional data for solving well hydraulics, water chemistry, and contaminant transport problems. For readers interested in advanced hydrology, groundwater hydrology, hydrogeology, and civil engineering. |
| water resources engineering linsley: Digital Simulation in Hydrology Norman H. Crawford, 1973 |
| water resources engineering linsley: Introduction to Environmental Engineering with Unit Conversion Booklet Mackenzie L. Davis, David A. Cornwell, 1998 This comprehensive new edition tackles the multiple aspects of environmental engineering, from solid waste disposal to air and noise pollution. It places a much-needed emphasis on fundamental concepts, definitions, and problem-solving while providing updated problems and discussion questions in each chapter. Introduction to Environmental Engineering also includes a discussion of environmental legislation along with environmental ethics case studies and problems to present the legal framework that governs environmental engineering design. |
| water resources engineering linsley: Water and Wastewater Calculations Manual, 2nd Ed. Shun Lin, C. Lee, 2007-06-26 Quick Access to the Latest Calculations and Examples for Solving All Types of Water and Wastewater Problems! The Second Edition of Water and Wastewater Calculations Manual provides step-by-step calculations for solving a myriad of water and wastewater problems. Designed for quick-and-easy access to information, this revised and updated Second Edition contains over 110 detailed illustrations and new material throughout. Written by the internationally renowned Shun Dar Lin, this expert resource offers techniques and examples in all sectors of water and wastewater treatment. Using both SI and US customary units, the Second Edition of Water and Wastewater Calculations Manual features: Coverage of stream sanitation, lake and impoundment management, and groundwater Conversion factors, water flow calculations, hydraulics in pipes, weirs, orifices, and open channels, distribution, outlets, and quality issues In-depth emphasis on drinking water treatment and water pollution control technologies Calculations specifically keyed to regulation requirements New to this edition: regulation updates, pellet softening, membrane filtration, disinfection by-products, health risks, wetlands, new and revised examples using field data Inside this Updated Environmental Reference Tool • Streams and Rivers • Lakes and Reservoirs • Groundwater • Fundamental and Treatment Plant Hydraulics • Public Water Supply • Wastewater Engineering • Appendices: Macro invertebrate Tolerance List • Well Function for Confined Aquifers • Solubility Product Constants for Solution at or near Room Temperature • Freundlich Adsorption Isotherm Constants for Toxic Organic Compounds • Conversion Factors |
Gaps in Water Quality Modeling of Hydrologic Systems - MDPI
Apr 16, 2025 · This review assesses gaps in water quality modeling, emphasizing opportunities to improve next-generation models that are essential for managing water quality and are integral …
Water | 2024 - Browse Issues - MDPI
Feature papers represent the most advanced research with significant potential for high impact in the field. A Feature Paper should be a substantial original Article that involves several …
Water Resources in Jordan: A Review of Current Challenges and …
Oct 25, 2023 · Jordan is facing significant challenges related to water scarcity, including overexploitation of groundwater, increasing demand, and wasteful practices. Despite efforts to …
Contaminants in the Water Environment: Significance from the ...
Apr 23, 2025 · Water contamination is a global crisis with severe consequences for biodiversity, food security, and public health on an unprecedented scale. Contaminants disrupt aquatic …
Water | An Open Access Journal from MDPI
Water is a peer-reviewed, open access journal on water science and technology, including the ecology and management of water resources, and is published semimonthly online by …
Technical Problem Identification for the Failures of the Liberty Ships
Nov 8, 2016 · The U.S. Liberty Ship Building Program in World War II set a record—a total of 2700 Liberty Ships were built in 6 years, in order to support the battle against Nazi-Germany. …
A Review of Water Stress and Water Footprint Accounting - MDPI
Jan 15, 2021 · Production and consumption activities deplete freshwater, generate water pollution and may further lead to water stress. The accurate measurement of water stress is a …
Challenges and Solutions for Global Water Scarcity - MDPI
Jun 20, 2023 · Climate change, global population growth, and rising standards of living have put immense strain on natural resources, resulting in the unsecured availability of water as an …
Water Security in a Changing Environment: Concept, Challenges
Feb 14, 2021 · Water is of vital and critical importance to ecosystems and human societies. The effects of human activities on land and water are now large and extensive. These reflect …
Water Content of Plant Tissues: So Simple That Almost Forgotten?
Mar 9, 2023 · The aim of the present review was to reconsider basic information about various functional aspects related to plant water content and provide evidence that the usefulness of …
Gaps in Water Quality Modeling of Hydrologic Systems - MDPI
Apr 16, 2025 · This review assesses gaps in water quality modeling, emphasizing opportunities to improve next-generation models that are essential for managing water quality and are integral …
Water | 2024 - Browse Issues - MDPI
Feature papers represent the most advanced research with significant potential for high impact in the field. A Feature Paper should be a substantial original Article that involves several …
Water Resources in Jordan: A Review of Current Challenges and …
Oct 25, 2023 · Jordan is facing significant challenges related to water scarcity, including overexploitation of groundwater, increasing demand, and wasteful practices. Despite efforts to …
Contaminants in the Water Environment: Significance from the ...
Apr 23, 2025 · Water contamination is a global crisis with severe consequences for biodiversity, food security, and public health on an unprecedented scale. Contaminants disrupt aquatic …
Water | An Open Access Journal from MDPI
Water is a peer-reviewed, open access journal on water science and technology, including the ecology and management of water resources, and is published semimonthly online by …
Technical Problem Identification for the Failures of the Liberty Ships
Nov 8, 2016 · The U.S. Liberty Ship Building Program in World War II set a record—a total of 2700 Liberty Ships were built in 6 years, in order to support the battle against Nazi-Germany. …
A Review of Water Stress and Water Footprint Accounting - MDPI
Jan 15, 2021 · Production and consumption activities deplete freshwater, generate water pollution and may further lead to water stress. The accurate measurement of water stress is a …
Challenges and Solutions for Global Water Scarcity - MDPI
Jun 20, 2023 · Climate change, global population growth, and rising standards of living have put immense strain on natural resources, resulting in the unsecured availability of water as an …
Water Security in a Changing Environment: Concept, Challenges
Feb 14, 2021 · Water is of vital and critical importance to ecosystems and human societies. The effects of human activities on land and water are now large and extensive. These reflect …
Water Content of Plant Tissues: So Simple That Almost Forgotten?
Mar 9, 2023 · The aim of the present review was to reconsider basic information about various functional aspects related to plant water content and provide evidence that the usefulness of …
