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HANDBOOK OF COASTAL ANDOCEAN ENGINEERING

edited by

Young C Kim(California State University, Los Angeles, USA)

Pr e f er r ed Pu b l i sh er o f Lead in g Th in k er s

C o n n e c t i n g G r e a t M i n d s

Key Features

Provides the most up-to-date technical

advances and latest research findings oncoastal and ocean engineering

Will be of immediate, practical use to

coastal, ocean, civil, geotechnical, and

structural engineers, and coastal planners

and managers as well as marine biologists

and oceanographers

Will also be an excellent resource for

educational and teaching purposes, and

a good reference book for any technical

library

1300pp (approx.) Sept 2009

978-981-281-929-1 US$198 107

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 coastaland 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.

Contents:Shallow-Water Waves: Wave Setup (R G Dean & T L Walton) ; Wavemaker Theories

(R T Hudspeth & R B Guenther); Random Wave Breaking and Nonlinearity Evolution Across the Surf

Zone (Y Goda); Water-Level Fluctuations:Generation and Prediction of Seiches in Rotterdam HarborBasins (M P C de Jong & J A Battjes);Coastal Structures:Non-Conventional Wave Damping Structures

(H Oumeraci); Prediction of Overtopping (J van der Meer et al.); Development of Caisson Breakwater

Design Based on Failure Experiences (S Takahashi); Design of Alternative Revetments (K W Pilarczyk);

Low-Crested Breakwaters (A Lamberti & B Zanuttigh); Offshore Structures: State of Offshore Structure

Development and Design Challenges (S Chakrabarti); Ports and Harbors;Coastal Sediment Processes:

Beach Nourishment (R G Dean & J D Rosati); Environmental Problems: Water and Nutrient Flow in

the Enclosed Bays (Y Koibuchi & M Isobe);Sustainable Coastal Development: Socioeconomic and

Environmental Risk in Coastal and Harbor Engineering (M A Losada et al.); Coastal Hazards:Ocean

Wave Climates: Trends and Variations Due to Earths Changing Climate (P D Komar et al.); Sea-Level

Rise and Coastal Erosion (M J F Stive et al.);Physical Modeling:Laboratory Simulation of Waves

(E P D Mansard & M D Miles); Coastal Engineering Practice and Education; and other papers.

Readership:Graduate students, researchers and professionals in coastal and ocean engineering,

oceanography and meteorology.

OutNow!

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CONTENTS

23. Hydrodynamic Behavior of Net Cages in the Open SeaYu-cheng Li

Section 4: Offshore Structures

24. State of Offshore Structure Development and Design Challenges

Subrata Chakrabarti

Section 5: Ports and Harbors

25. Computer Modeling for Harbor Planning and Design

Jiin-Jen Lee and Xiuying Xing

26. Prediction of Squat for Underkeel Clearance

Michael J. Briggs, Marc Vantorre, Klemens Uliczka, and Pierre

Debaillon

Section 6: Coastal Sediment Processes

27. Wave-Induced Resuspension of Fine Sediment

Mamta Jain and Ashish J. Metha

28. Suspended Sand and Bedload Transport on Beaches

Nobuhisa Kobayashi, Andres Payo, and Bradley D. Johnson

29. Headland-bay Beaches for Recreation and Shore Protection

John R-C. Hsu, Melissa M-J. Yu, F-C. Lee, and Richard Silvester

30. Beach Nourishment

Robert G. Dean and Julie D. Rosati

31. Engineering of Tidal Inlets and Morphologic Consequences

Nicholas C. Kraus

Section 7: Environmental Problems

32. Water and Nutrients Flow in the Enclosed Bays

Yukio Koibuchi and Masahiko Isobe

Section 8: Sustainable Coastal Development

33. Socioeconomic and Environmental Risk in Coastal and Harbor

Engineering

Miguel A. Losada, Asuncion Baquerizo, Elena Sanchez Badorrey,

Miguel Ortega-Sanchez, and Juan M. Santiago34. Utilization of the Coastal Area

Hwung-Hweng Hwung

Section 9: Coastal Hazards

35. Ocean Wave Climates: Trends and Variations due to Earths Changing

Climate

Paul D. Komar, Jonathan C. Allan, and Peter Ruggiero

36. Sea Level Rise: Major Implications to Coastal Engineering and

Coastal Management

Lesley Ewing

37. Sea Level Rise and Coastal Erosion

Marcel J. F. Stive, Roshanka Ranasinghe and Peter J. Cowell

38. Coastal Flooding: Analysis and Assessment of Risk

Panagiotis Prinos and Panagiota Galiatsatou

Section 10: Physical Modeling

39. Physical Modeling of Tsunami WavesMichael J. Briggs, Harry Yeh, and Daniel T. Cox

40. Laboratory Simulation of Waves

Etienne P. D. Mansard and Michael D. Miles

Section 11: Coastal Engineering Practice and Education

41. Perspective on Coastal Engineering Practice and Education

J. William Kamphuis

Section 1: Shallow-Water Waves1. Wave Setup

Robert G. Dean and Todd L. Walton

2. Wavemaker Theories

Robert T. Hudspeth and Ronald B. Guenther

3. Analyses by the Melnikov Method of Damped Parametrically Excited

Cross Waves

Ronald B. Guenther and Robert T. Hudspeth

4. Random Wave breaking and Nonlinearity Evolution across the Surf Zone

Yoshimi Goda5. Aeration and Bubbles in the Surf Zone

Nobuhito Mori, Shohachi Kakuno, and Daniel T. Cox

6. Freak Wave

Nobuhito Mori

7. Short-Term Wave Statistics

Akira Kimura

Section 2: Water Level Fluctuations

8. Generation and Prediction of Seiches in Rotterdam Harbour Basins

Martijn P.C. de Jong and Jurjen A. Battjes

9. Seiches and Harbour Oscillations

Alexander B. Rabinovich

10. Finite Difference Model for Practical Simulation of Distant Tsunamis

Sung Bum Yoon

Section 3: Coastal Structures

11. Tsunami-Induced Forces on Structures

Ioan Nistor, Dan Palermo, Younes Nouri, Tad Murty, and Murat

Saatcioglu

12. Non-Conventional Wave Damping Structures

Hocine Oumeraci

13. Wave Interaction with Breakwaters including Perforated Walls

Kyung-Duck Suh

14. Prediction of Overtopping

Jentsje van der Meer, Tim Pullen, William Allsop, Tom Bruce, Holger

Schuttrumpf,

and Andreas Kortenhaus

15. Wave Run-up and Wave Overtopping at Armoured Rubble Slopes

and Mounds

Holger Schuttrumpf, Jentsje van der Meer, Andreas Kortenhaus, Tom

Bruce, and Leopoldo Franco

16. Wave Overtopping at Vertical and Steep Seawalls

Tom Bruce, Jentsje van der Meer, Tim Pullen, and William Allsop

17. Surf Parameters for the Design of Coastal Structures

Dong Hoon Yoo

18. Development of Caisson Breakwater Design based on Failure Experiences

Shigeo Takahashi

19. Design of Alternative Revetments

Krystian W. Pilarczyk

20. Remarks on Coastal Stabilization and Alternative Solutions

Krystian W. Pilarczyk

21. Geotextile Sand Containers for Shore Protection

Hocine Oumeraci and Juan Recio

22. Low Crested Breakwaters

Alberto Lamberti and Barbara Zanuttigh

Young C. Kim, Ph.D., is currently a Professor of Civil Engineering, Emeritus at California State University, LosAngeles. Other academic positions held include a Visiting Scholar of Coastal Engineering at the University of California,

Berkeley (1971) and a NATO Senior Fellow in Science at the Delft University of Technology in the Netherlands (1975.For more than a decade, he ser ved as Chair of the Department of Civil Engineering and recently he was Associate Dean

of the College of Engineering. For his dedicated teaching and outstanding professional activities, he was awarded the

university-wide Outstanding Professor Award in 1994.

He is the past Chair of the Executive Committee of the Waterway, Port, Coastal and Ocean Division of the American Society of Civil Engineers

(ASCE). Recently, he served as Chair of the Nominating Committee of the International Association of Hydraulic Engineering and Research (IAHR).

Since 1998, he served on the International Board of Directors of the Pacific Congress on Marine Science and Technology (PACON). He currently

serves as the President of PACON. Dr. Kim has been involved in organizing 10 national and international conferences, has authored three books,

and has published 52 technical papers in various engineering journals.

About The Author

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Advanced Series on Ocean Engineering

JAPANS BEACH EROSION

Reality and Future MeasuresbyTakaaki Uda

(Public Works Research Center, Japan)

Beaches in Japan have been eroding since the 1970s as a result of the

artificial land alterations. Approximately 3000 fishing ports and 1000

commercial ports have been built nationwide, as well as 2532 large dams

being constructed in the upstream basins of large rivers. Due to the port

and dam developments, fluvial sand supply has significantly reduced

resulting in shoreline recession around the river mouths. Continuous

sand supply along the coastline has also been obstructed by the port

breakwaters. The formation of wave shelter zone by the por t breakwaters

induce longshore sand transport, thereby leading to an accretion of large

amount of sand in the wave shelter zone and erosion in the surrounding

area. Thus, almost all causes of the beach erosion in Japan are dueto anthropogenic factors. The exact situation of the beach erosion has

never been clear in literatures that are written in Japanese, or in English.

Coastal engineers can and should learn from these results, otherwise the

same situation and problems, which were induced by excessive coastal

development without protection measures and due attention given to nearby

coasts, will recur throughout the world.

Contents: What is Beach Erosion?; Beach Erosion Current Reality;

Practical Models for Predicting Beach Changes; Beach Erosion as Structural

Problem.

Key Features

Contains many practical examples

Offers clear explanation and illustration with many photographs and

figures

Readership:Coastal engineers and general readers interested in beach

erosion.

550pp (approx.) Winter 2009

978-981-4277-12-9 US$98 74

Advanced Series on Ocean Engineering

RANDOM SEAS AND DESIGN OF MARITIME

STRUCTURES(3rd Edition)byYoshimi Goda (Yokohama National University, Japan)

Random waves are the most important constituent of the sea environment,

as they make the design of maritime structures quite different from that

of structures on land. In this book, the concept of random waves for the

design of breakwaters, seawalls, and harbor structures is fully explored

for easy comprehension by practicing engineers. Theoretical aspects are

also discussed in detail for further studies by graduate students and

researchers.

Contents: Evolution of Design Method Against Random Waves; Statistical

Properties and Spectral of Sea Waves; Transformation and Deformation of

Random Sea Waves; Design of Breakwaters; Design of Coastal Dikes andSeawalls; Probabilistic Design of Harbor Facilities; Harbor Tranquility and

Vessel Mooring; Hydraulic Model Tests with Random Waves; Theoretical

Description of Random Sea Waves; Statistical Theory of Irregular

Waves; Techniques of Random Wave Analysis; 2D Computation of Wave

Transformation with Random Breaking and Nearshore Currents; Statistical

Analysis of Extreme Waves; Prediction and Control of Beach Deformation

Processes.

Readership: Advanced undergraduate and graduate students, and

practitioners in coastal and harbor engineering.

600pp (approx.) Spring 2010

978-981-4282-39-0 US$92 69

978-981-4282-40-6(pbk) US$52 39

Advanced Series on Ocean Engineering

COASTAL DYNAMICSbyWillem T Bakker (Delft Hydraulics, Netherlands)

Our world is constantly changing, governed by continuity, dynamicinteractions and boundary conditions. For many coasts, the common

denominators contributing to these changes are sand, waves, tides,

salt gradients, and human interaction, all themes that are treated in this

valuable textbook. Confining itself to essentials, the coverage reflects

centuries of theoretical and practical knowledge of Dutch coastal engineers.

Focussing, where applicable, on linear theory, the book shows how the

essentials of local coastal behavior can be reproduced and predicted.

Contents:The Dutch Coast: A Coastal Engineering View; Line Theories in

Coastal Dynamics Determination of Coastal Constants; Line Theories

in Coastal Dynamics Verification in Experiment and Nature; Coastal

Dynamics as a Diffusion Problem; Data Assimilation with Kalman Filtering;

Interaction Outer Deltas and Tidal Basins Views of a Scientific Forum;

Comments.

Readership: Graduate students and researchers in ocean and coastal

engineering and management.

450pp (approx.) Summer 2009

978-981-270-373-6 US$99 56

Advanced Series on Ocean Engineering

TSUNAMITo Survive from TsunamibySusumu Murata (Coastal Development Institute of Technology, Japan),

Fumihiko Imamura (Tohoku University, Japan), Kazumasa Katoh (Musashi

Institute of Technology, Japan), Yoshiaki Kawata(Kyoto University,

Japan), Shigeo Tahashi (Port and Airport Research Institute, Japan) &

Tomotsuka Takayama (Kyoto University, Japan)

This book provides comprehensive scientific information and knowledge

survival tips on how to survive a tsunami. It is especially useful to those

living (or about to live) in tsunami-prone areas, and to travelers who mayvisit such areas. The book is composed of two par ts; The first consisting

of three chapters on how to survive a tsunami by i) describing precious

lessons obtained from actual tsunami disasters, ii) impar ting fundamental

knowledge of tsunami science for survival, and iii) listing measures for

tsunami disaster mitigation. The second part provides more detailed

scientific knowledge on tsunamis and consists two chapters: one describes

tsunami occurrence mechanism and near-shore behavior; the other

mentions numerical simulation and tsunami forecasting.

Contents: Tsunamis and Their Disasters; Knowledge for Tsunami

Survival; Prevention and Mitigation of Tsunami Disasters; Occurrence

and Amplification of Tsunamis; Tsunami Simulations and Forecasting

Systems.

Readership: Undergraduates and graduates interested in tsunamis,

tsunami mitigation planners, oceanographers and physicists, especially

residents in tsunami prone areas.

300pp (approx.) Winter 2009

978-981-4277-47-1 US$68 51

978-981-4277-48-8(pbk) US$38 29

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ORDER FORM

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Alternatively, you can send your order directly to your regular book supplier

INTRODUCTION TO COASTALENGINEERING AND MANAGEMENT(2nd Edition)byJ William Kamphuis (Queens University, Canada)

This book is based on the authors 34 years of experience as

a teacher/researcher of coastal engineering and management

and on recent reflections on contemporary issues, such as

consequences of failure, impacts of rising sea levels, aging

infrastructure, real estate development and contemporary

decision making, design and education.

This textbook for undergraduate students, postgraduate

students and practicing engineers covers waves, structures,

sediment movement, coastal management, and contemporary coastal design and decision

making, presenting both basic principles and engineering solutions. It discusses the

traditional methods of analysis and synthesis (design), but also contemporar y design taking

into account environmental impacts, consequences of failure, and current concerns such as

global warming, aging infrastructure, working with stakeholder groups, regulators, etc.

This second edition expands greatly on current topics of failure and resilience that surfaced

as a result of recent disasters from hurricane surges and tsunamis. It also updates the

discussion of design and decision making in the 21st century, with many new examples

presented.

Readership: Undergraduate and graduate students, researchers and academics in coastal

engineering and management.

Key Features

Focuses on design

Looks at the whole spectrum of coastal engineering waves, structures and

sediment

Much of it is at a basic, introductory level, but leads into sophisticated contemporary

design concepts

600pp (approx.) Summer 2009

978-981-283-484-3 US$98 53

978-981-283-485-0(pbk) US$55 30

STATISTICAL ANALYSIS OFOCEAN WAVES AND OTHERENVIRONMENTAL DATAby Leon E Borgman (University of Wyoming), John

Niedzwecki (Texas A&M University), Norman W Scheffner

(USAE Waterways Experiment Station, Missowi), John W

Kern (Western Ecosystems Technology, Inc., Wyoming) &

Mihail Petrakos (Space Applications Institute of the Joint

Research Center, Ispra, Italy)

In this book, the statistics of ocean wave phenomena is

developed from the viewpoints of individual wave properties,

such as height, period, and direction; climatological

properties at a given time, such as significant height and

directional spectra; and long term statistics of the wave

climatology. Random functions, correlated in space and

time, are formulated for both environmental and ocean

data. Techniques, with an appropriate software library

(FORTRAN and MATLAB), are provided for the analysis of

data, geostatistical kriging, and the simulation of realistic

artificial data. This includes a detailed development of

conditional simulation (with particular emphasis on thevery fast frequency domain methods), and of distribution-

free empirical simulation techniques.

The book can be used for a variety of university courses

and seminars. It does not present a broad survey, but

rather an in-depth treatment of a large number of important

application techniques.

Readership: Ocean engineers and scientists, coastal

engineers, civil engineers, geostatisticians, applied

statisticians and mathematicians.

450pp (approx.) Winter 2009

978-981-02-4201-5 US$172 105

978-981-02-4202-2(pbk) US$95 57