Newly updated and translated into English for the first time, this standalone handbook perfectly combines background and theory with real-world experiments. An ideal companion for graduate students and researchers, as well as engineers involved in design of offshore systems.
Newly updated and translated into English for the first time, this standalone handbook perfectly combines background and theory with real-world experiments. An ideal companion for graduate students and researchers, as well as engineers involved in design of offshore systems.
Bernard Molin is Emeritus Professor at Ecole Centrale de Marseille. He has published over 150 research papers, and in 2018 received a Lifetime Achievement Award from the Ocean, Offshore and Arctic Engineering Division of ASME.
Inhaltsangabe
1. Introduction 2. Environmental conditions 3. Wave theories 4. Wave and current loads on slender bodies 5. Flow-induced instabilities 6. Large bodies. Linear theory 7. Large bodies. Second-order effects 8. Large bodies. Other nonlinear effects 9. Model testing Appendix A. Introduction to potential flow theory Appendix B. Hydrostatics Appendix C. Damped mass spring system Appendix D. The boundary integral equation method.
1. Introduction 2. Environmental conditions 3. Wave theories 4. Wave and current loads on slender bodies 5. Flow-induced instabilities 6. Large bodies. Linear theory 7. Large bodies. Second-order effects 8. Large bodies. Other nonlinear effects 9. Model testing Appendix A. Introduction to potential flow theory Appendix B. Hydrostatics Appendix C. Damped mass spring system Appendix D. The boundary integral equation method.
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