Catchment Hydrological Modelling


Book Description

Catchment Hydrological Modelling: The Science and Art covers various methods (and equations) for modeling all components of a CHM. Readers are presented with multiple methods and approaches to modeling the same component, allowing them to distinguish the differences between methods. The books also provides a clear understanding of what makes some commonly used hydrological models similar or different and what their strengths and weaknesses may be. This comprehensive guide contains questions and answers in each chapter, along with concepts and detailed equations that are fundamental to understanding CHM. This book is useful to students and professionals in the fields of catchment and hydrology, as well as environmental and civil engineers. - Includes practical advice on developing and/or applying CHM models, empowering readers to do so themselves - Presents practical aspects of catchment modeling, from model structure design to model operation - Presents hydrological catchment modeling in a clear and coherent way while also describing different approaches for the same processes




Hydrology of Disasters


Book Description

This timely book reviews the hydrological aspects of different types of disaster and considers measures required to protect people and property against such events as well as disaster prediction, forecasting and monitoring. Its publications coincide with the start of the United Nations Decade for Natural Disaster Reduction. It comprises twenty-seven papers by experts from a wide range of countries and organizations presented at the Technical Conference convened by the World Meteorological Organization in Geneva in November 1988. The contributions are grouped into five sections covering hydrological problems of extreme floods and droughts, consequences of accidental water pollution, hydrological problems of dam and levee rupture, hydrological consequences of volcanic eruptions and hydrological consequences of earthquakes, landslides and avalanches. By drawing together work on a wide range of hydrological problems, this book is a valuable reference source for all scientist, engineers and policy- makers whose work touches on this diverse field.







Parameterization Schemes


Book Description

Numerical weather prediction models play an increasingly important role in meteorology, both in short- and medium-range forecasting and global climate change studies. The most important components of any numerical weather prediction model are the subgrid-scale parameterization schemes, and the analysis and understanding of these schemes is a key aspect of numerical weather prediction. This book provides in-depth explorations of the most commonly used types of parameterization schemes that influence both short-range weather forecasts and global climate models. Several parameterizations are summarised and compared, followed by a discussion of their limitations. Review questions at the end of each chapter enable readers to monitor their understanding of the topics covered, and solutions are available to instructors at www.cambridge.org/9780521865401. This will be an essential reference for academic researchers, meteorologists, weather forecasters, and graduate students interested in numerical weather prediction and its use in weather forecasting.










Geographic Information Systems in Water Resources Engineering


Book Description

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




Coastal Hydrology and Processes


Book Description




Urban Drainage


Book Description

This new edition of a well-established textbook covers the environmental and engineering aspects of the management of rainwater and wastewater in areas of human development. Urban Drainage deals comprehensively not only with the design of new systems, but also the analysis and upgrading of existing infrastructure. Keeping its balance of principles, practice and research, this new edition has significant new material on modelling, resilience, smart systems, and the global and local context. The two new authors bring further research and practice-based experience. This is an essential text for undergraduate and graduate students, lecturers and researchers in water engineering, environmental engineering, public health engineering, engineering hydrology, and related non-engineering disciplines. It also serves as a dependable reference for drainage engineers in water service providers, local authorities, and for consulting engineers. Extensive examples are used to support and demonstrate the key issues throughout the text.