What to read after Handbook of Coastal and Ocean Engineering?

This handbook contains a comprehensive compilation of topics that are at the forefront of many of the technical advances in ocean waves, coastal, and ocean engineering. More than 70 internationally recognized authorities in the field of coastal and ocean engineering have contributed articles on their areas of expertise to this handbook. These international luminaries are from highly respected universities and renowned research and consulting organizations from all over the world. This handbook provides a comprehensive overview of shallow-water waves, water level fluctuations, coastal and offshore structures, port and harbors, coastal sediment processes, environmental problems, coastal hazards, physical modeling, and other issues in coastal and ocean engineering. It is an essential reference for professionals and researchers in the areas of coastal engineering, ocean engineering, oceanography, and meteorology, as well as an invaluable text for graduate students in these fields. Sample Chapter(s). Chapter 1: Wave Setup (2,255 KB). Chapter 2: Wavemaker Theories (607 KB). Contents: Shallow-Water Waves: Wave Setup (Robert G Dean and Todd L Walton ); Wavemaker Theories ( Robert T Hudspeth and Ronald B Guenther ); Analyses by the Melnikov Method of Damped Parametrically Excited Cross Waves (Ronald B Guenther and Robert T Hudspeth); Random Wave Breaking and Nonlinearity Evolution Across the Surf Zone (Yoshimi Goda); Aeration and Bubbles in the Surf Zone (Nobuhito Mori, Shohachi Kakuno and Daniel T Cox); Freak Wave (Nobuhito Mori); Short-Term Wave Statistics (Akira Kimura); Water-Level Fluctuations: Generation and Prediction of Seiches in Rotterdam Harbor Basins (Martijn P C de Jong and Jurjen A Battjes); Seiches and Harbor Oscillations (Alexander B Rabinovich); Finite Difference Model for Practical Simulation of Distant Tsunamis (Sung Bum Yoon); Coastal Structures: Tsunami-Induced Forces on Structures ( Ioan Nistor, Dan Palermo, Younes Nouri, Tad S Murty and Murat Saatcioglu); Nonconventional Wave Damping Structures (Hocine Oumeraci); Wave Interaction with Breakwaters Including Perforated Walls (Kyung-Duck Suh); Prediction of Overtopping (Jentsje van der Meer, Tim Pullen, William Allsop, Tom Bruce, Holger Schttrumpf and Andreas Kortenhaus); Wave Run-Up and Wave Overtopping at Armored Rubble Slopes and Mounds (Holger Schttrumpf, Jentsje van der Meer, Andreas Kortenhaus, Tom Bruce and Leopoldo Franco ); Wave Overtopping at Vertical and Steep Structures (Tom Bruce, Jentsje van der Meer, Tim Pullen and W Allsop); Surf Parameters for the Design of Coastal Structures (Dong Hoon Yoo); Development of Caisson Breakwater Design Based on Failure Experiences (Shigeo Takahashi); Design of Alternative Revetments ( Krystian W Pilarczyk ); Remarks on Coastal Stabilization and Alternative Solutions (Krystian Pilarczyk); Geotextile Sand Containers for Shore Protection (Hocine Oumeraci and Juan Recio); Low Crested Breakwaters (Alberto Lamberti and Barbara Zanuttigh ); Hydrodynamic Behavior of Net Cages in the Open Sea ( Yu-Cheng Li ); Offshore Structures: State of Offshore Structure Development and Design Challenges (Subrata Chakrabarti); Ports and Harbors: Computer Modeling for Harbor Planning and Design (Jiin-Jen Lee and Xiuying Xing); Prediction of Squat for Underkeel Clearance ( Michael J Briggs, Marc Vantorre, Klemens Uliczka and Pierre Debaillon); Coastal Sediment Processes: Wave-Induced Resuspension of Fine Sediment (Mamta Jain and Ashish J Mehta); Suspended Sand and Bedload Transport on Beaches (Nobuhisa Kobayashi, Andres Payo and Bradley D Johnson); Headland-Bay Beaches for Recreation and Shore Protection (John Rong-Chung Hsu, Melissa Meng-Jiuan Yu, Fang-Chun Lee and Richard Silvester); Beach Nourishment (Robert G Dean and Julie D Rosati); Engineering of Tidal Inlets and Morphologic Consequences (Nicholas C Kraus); Environmental Problems: Water and Nutrients Flow in the Enclosed Bays (Yukio Koibuchi & Masahiko Isobe ); Sustainable Coastal Development: Socioeconomic and Environmental Risk in Coastal and Ocean Engineering ( Miguel A Losada Rodr guez, Asuncion Baquerizo, Miquel Ortega-Sinchez, Juan M Santiago and Elena Sinchez-Badorrey); Utilization of the Coastal Area ( Hwung-Hweng Hwung ); Coastal Hazards: Ocean Wave Climates: Trends and Variations Due to Earth''s Changing Climate (Paul D Komar, Jonathan C Allan and Peter Ruggiero); Sea Level Rise: Major Implications to Coastal Engineering and Coastal Management (Lesley Ewing); Sea Level Rise and Coastal Erosion (Marcel J F Stive, Roshanka Ranasinghe and Peter J Cowell); Coastal Flooding: Analysis and Assessment of Risk (Panayotis Prinos and Panagiota Galiatsatou); Physical Modeling: Physical Modeling of Tsunami Waves (Michael J Briggs, Harry Yeh and Daniel T Cox); Laboratory Simulation of Waves (Etienne P D Mansard and Michael D Miles); Coastal Engineering Practice and Education: Perspective on Coastal Engineering Practice and Education ( J William Kamphuis ). Readership: Graduate students, researchers and professionals in coastal and ocean engineering, oceanography and meteorology."