The Principles of Naval Architecture Series

The Principles of Naval Architecture Series Strength of Ships and Ocean Structures Alaa Mansour University of California, Berkeley Donald Liu American Bureau of Shipping J. Randolph Paulling, Editor 2008 Published by The Society of Naval Architects and Marine Engineers 601 Pavonia Avenue Jersey City, NJ Copyright 2008 by The Society of Naval Architects and Marine Engineers. It is understood and agreed that nothing expressed herein is intended or shall be construed to give any person, firm, or corporation any right, remedy, or claim against SNAME or any of its officers or members. Library of Congress Cataloging-in-Publication Data A catalog record from the Library of Congress has been applied for ISBN No. 0-939773-66-X Printed in the United States of America First Printing, 2008 A Word from the President The Society of Naval Architects and Marine Engineers is experiencing remarkable changes in the Maritime Industry as we enter our 115th year of service. Our mission, however, has not changed over the years...“an internationally recognized...technical society...serving the maritime industry, dedicated to advancing the art, science and practice of naval architecture, shipbuilding, ocean engineering, and marine engineering...encouraging the exchange and recordingofinformation,sponsoringappliedresearch...supportingeducationandenhancingtheprofessionalstatus and integrity of its membership.” In the spirit of being faithful to our mission, we have written and published significant treatises on the subject of naval architecture, marine engineering and shipbuilding. Our most well known publication is the “Principles of Naval Architecture”. First published in 1939, it has been revised and updated three times – in 1967, 1988 and now in 2008. During this time, remarkable changes in the industry have taken place, especially in technology, and these changes have accelerated. The result has had a dramatic impact on size, speed, capacity, safety, quality and environmental protection. The professions of naval architecture and marine engineering have realized great technical advances. They include structural design, hydrodynamics, resistance and propulsion, vibrations, materials, strength analysis using finite el-ement analysis, dynamic loading and fatigue analysis, computer-aided ship design, controllability, stability and the use of simulation, risk analysis and virtual reality. However, with this in view, nothing remains more important than a comprehensive knowledge of “first principles”. Using this knowledge, the Naval Architect is able to intelligently utilize the exceptional technology available to its fullest extent in today’s global maritime industry. It is with this in mind that this entirely new 2008 treatise was developed – “The Principles of Naval Architecture : The Series”. Recognizing the challenge of remaining relevant and current as technology changes, each major topical area will be published as a separate volume. This will facilitate timely revisions as technology continues to change and provide for more practical use by those who teach, learn or utilize the tools of our profession. It is noteworthy that it took a decade to prepare this monumental work of nine volumes by sixteen authors and by a distinguished steering committee that was brought together from several countries, universities, companies and laboratories. We are all especially indebted to the editor, Professor J. Randolph (Randy) Paulling for providing the leadership, knowledge, and organizational ability to manage this seminal work. His dedication to this arduous task embodies the very essence of our mission...“to serve the maritime industry”. It is with this introduction that we recognize and honor all of our colleagues who contributed to this work. Authors: Dr. John S. Letcher Dr. Colin S. Moore Robert D. Tagg Professor Alaa Mansour and Dr. Donald Liu Dr. Lars Larson and Dr. Hoyte Raven Professors Justin E. Kerwin and Jacques B. Hadler Professor William S. Vorus Prof. Robert S. Beck, Dr. John Dalzell (Deceased), Prof. Odd Faltinsen and Dr. Arthur M. Reed Professor W. C. Webster and Dr. Rod Barr Hull Geometry Intact Stability Subdivision and Damaged Stability Strength of Ships and Ocean Structures Resistance Propulsion Vibration and Noise Motions in Waves Controllability Control Committee Members are: Professor Bruce Johnson, Robert G. Keane, Jr., Justin H. McCarthy, David M. Maurer, Dr. William B. Morgan, Profes-sor J. Nicholas Newman and Dr. Owen H. Oakley, Jr. I would also like to recognize the support staff and members who helped bring this project to fruition, especially Susan Evans Grove, Publications Director, Phil Kimball, Executive Director and Dr. Roger Compton, Past President. In the new world’s global maritime industry, we must maintain leadership in our profession if we are to continue to be true to our mission. The “Principles of Naval Architecture: The Series”, is another example of the many ways our Society is meeting that challenge. ADMIRAL ROBERT E. KRAMEK, President Foreword Since it was first published 70 years ago, Principles of Naval Architecture (PNA) has served as a seminal text on naval architecture for both practicing professionals and students of naval architecture. This is a challenging task – to explain the fundamentals in terms understandable to the undergraduate student while providing sufficient rigor to satisfy the needs of the experienced engineer – but the initial publication and the ensuing revisions have stood the test of time. We believe that this third revision of PNA will carry on the tradition, and continue to serve as an invaluable reference to the marine community. In the Foreword to the second revision of PNA, the Chairman of its Control Committee, John Nachtsheim, lamented the state of the maritime industry, noting that there were “...too many ships chasing too little cargo,” and with the decline in shipping came a “...corresponding decrease in technological growth.” John ended on a somewhat optimistic note: “Let’s hope the current valley of worldwide maritime inactivity won’t last for too long. Let’s hope for better times, further technological growth, and the need once more, not too far away, for the next revision of Principles of Naval Architecture.” Fortunately,bettertimesbegansoonafterthesecondrevisionofPNAwasreleasedin1988.Spurredbytheexpand-ing global economy and a trend toward specialization of production amongst nations around the world, seaborne trade has tripled in the last twenty years. Perhaps more than ever before, the economic and societal well being of nations worldwide is dependent upon efficient, safe, and environmentally friendly deep sea shipping. Continuous improvement in the efficiency of transportation has been achieved over the last several decades, facilitating this growth in the global economy by enabling lower cost movement of goods. These improvements extend over the en-tire supply train, with waterborne transportation providing the critical link between distant nations. The ship design and shipbuilding communities have played key roles, as some of the most important advancements have been in the design and construction of ships. With the explosive growth in trade has come an unprecedented demand for tonnage extending over the full spectrum of ship types, including containerships, tankers, bulk carriers, and passenger vessels. Seeking increased throughput and efficiency, ship sizes and capacities have increased dramatically. Ships currently on order include 16,000 TEU containerships, 260,000 m3 LNG carriers, and 5,400 passenger cruise liners, dwarfing the prior generation of designs. The drive toward more efficient ship designs has led to increased sophistication in both the designs themselves and in the techniques and tools required to develop the designs. Concepts introduced in Revision 2 of PNA such as finite element analysis, computational fluid dynamics, and probabilistic techniques for evaluating a ship’s stability and structural reliability are now integral to the overall design process. The classification societies have released the common structural rules for tankers and bulk carriers, which rely heavily on first principles engineering, use of finite element analysis for strength and fatigue assessments, and more sophisticated approaches to analysis such as are used for ultimate strength assessment for the hull girder. The International Maritime Organization now relies on probabilistic approaches for evaluating intact and damage stability and oil outflow. Regulations are increasingly performance-based, allowing application of creative solutions and state-of-the-art tools. Risk assessment techniques have become essential tools of the practicing naval architect. The cyclical nature of shipbuilding is well established and all of us who have weathered the ups and downs of the marine industry recognize the current boom will not last forever. However, there are reasons to believe that the need for technological advancement in the maritime industries will remain strong in the coming years. For example, naval architects and marine engineers will continue to focus on improving the efficiency of marine transportation systems, spurred by rising fuel oil prices and public expectations for reducing greenhouse gas emissions. As a consequence of climate change, the melting Arctic ice cap will create new opportunities for exploration and production of oil and other natural resources, and may lead to new global trading patterns. SNAME has been challenged to provide technical updates to its texts on a timely basis, in part due to our reliance on volunteerism and in part due to the rapidly changing environment of the maritime industry. This revision of PNA emphasizes engineering fundamentals and first principles, recognizing that the methods and approaches for applying these fundamentals are subject to constant change. Under the leadership of President Bob Kramek, SNAME is reviewing all its publications and related processes. As the next SNAME President, one of my goals is to begin strategizing on the next revision of PNA just as this third revision comes off the presses. Comments and ideas you may have on how SNAME can improve its publications are encouraged and very much appreciated. FOREWORD PNA would not be possible without the contributions of SNAME members and other marine professionals world-wide, who have advanced the science and the art of naval architecture and then shared their experiences through technical papers and presentations. For these many contributions we are indebted to all of you. We are especially indebted to its editor, Dr. J. Randolph Paulling, the Control Committee, the authors, and the reviewers who have given so generously of their time and expertise. R. KEITH MICHEL President-elect vi ... - tailieumienphi.vn