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Text on coastal engineering and oceanography covering theory and applications intended to mitigate shoreline erosion.
This collection contains 109 papers presented at the Fourth Conference on Coastal Dynamics, held in Lund, Sweden, June 11-15, 2001.
Introduces beach processes within an approach that balances an engineering perspective against a purely geological one. Provides an up-to-date review of the current understanding of beach processes as well as applications to solve coastal problems (erosion, management issues, etc.). Discusses issues related to beach erosion and other processes. The second edition of Beach Processes and Sedimentation has been updated to include information gathered from two decades of science and engineering in the field, reflecting the vast increase in knowledge since the first edition. Discusses the rise of coastal zone management as well as patterns of wave transformations and dissipation within the surf zone, and how these water motions produce cross-shore movements of sediment resulting in beach-profile variations. An essential reference book for many readers: from beach front property owners to politicians contending with beachfront erosion to engineers addressing beachfront reclamation projects.
Sandy beaches represent some of the most dynamic environments on Earth and examining their morphodynamic behaviour over different temporal and spatial scales is challenging, relying on multidisciplinary approaches and techniques. Sandy Beach Morphodynamics brings together the latest research on beach systems and their morphodynamics and the ways in which they are studied in 29 chapters that review the full spectrum of beach morphodynamics. The chapters are written by leading experts in the field and provide introductory level understanding of physical processes and resulting landforms, along with more advanced discussions. Includes chapters that are written by the world's leading experts, including the latest up-to-date thinking on a variety of subject areas Covers state-of-the-art techniques, bringing the reader the latest technologies/methods being used to understand beach systems Presents a clear-and-concise description of processes and techniques that enables a clear understanding of coastal processes
The coastal zone is the host to many human activities, which have significantly increased in the last decades. However, sea level rise and more frequent storm events severely affect beaches and coastal structures, with negative consequences and dramatic impacts on coastal communities. These aspects add to typical coastal problems, like flooding and beach erosion, which already leading to large economic losses and human fatalities. Modeling is thus fundamental for an exhaustive understanding of the nearshore region in the present and future environment. Innovative tools and technologies may help to better understand coastal processes in terms of hydrodynamics, sediment transport, bed morphology, and their interaction with coastal structures. This book collects several contributions focusing on nearshore dynamics, and span among several time and spatial scales using both physical and numerical approaches. The aim is to describe the most recent advances in coastal dynamics.
Features concepts in coastal engineering and their application to coastal processes and disaster prevention works. This title describes basic concepts of coastal engineering, dealing mainly with wave-induced physical problems. It consists of the author's results of 30 years' scientific research on the progress of coastal sediment transport study.
Following on the success of the first conference, the Wessex Institute of Technology is convening the Second International Conference on Physical Coastal Processes, Management and Engineering. This book contains papers to be presented at that Conference. Coastal zone dynamics involve distinctive features that stem from both near shore hydrodynamics, and the complex local behaviour of the atmosphere that is affected by the irregularity of the coastal topography and variations in land sea surface roughness and thermal properties. Complex interactions occur between the atmosphere, ocean and land, leading to large temporal and spatial differences in air-sea exchange processes and wind strength and direction. Recreational and tourism demand on coastal areas activities makes increased shore and beach protection necessary. Coastlines are often subjected to direct impact of wind, swell and storm wave activity. Many other physical phenomena, such as tides and associated currents, long waves and storm surges, also affect the dynamic behaviour of the coastal zone. With the increase in extreme events due to climate change, the role of extreme events in changing coastal zones needs to be considered. The International Conference will consider also of these and will cover such topics as: Wave modelling; Wave transformation hydrodynamics; Extreme events and sea level rise; Sea defences; Interaction between coastal defences and processes; Energy recovery; Hydrodynamic forces; Sediment transport and erosion; Pollution and dispersion; Planning and beach design; Coastal geomorphology; Coastal processes and navigation; Coastal processes and GIS; Bio-physical coastal processes; and Great Lakes problems. The book will be of interest to engineers and government officials involved with coastal zone management and development
Along much of the shoreline of the world, tidal inlets play an important role in nearshore processes, providing links between the coastal oceans and protected embayments. Their study is of particular importance not only for the understanding of fundamental processes in coastal oceanography but also for engineering and the proper management of the delicate equilibrium of our shorelines. This volume, based on the International Symposium on Hydrodynamics and Sediment Dynamics of Tidal Inlets held at Woods Hole, MA, presents the reader with an overview of contemporary research on these important features. The coverage includes: - mathematical modelling, including a review of inlet hydrodynamics, - observations on hydrodynamics, - sedimentology and morphology, - tidal deltas, - processes and policies pertaining to sedimentation, and the - impacts of shore protection and dredging in beaches.