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PAPERBACK price:$203.25 add to cart Rights & Permissions Free Resources Display this book on your site! Related Titles The Proceedings:Fifth International Conference on Numerical Ship Hydrodynamics Twenty-First Symposium on Naval Hydrodynamics Other Related Titles Eighteenth Symposium on Naval Hydrodynamics (1991) Commission on Physical Sciences, Mathematics, and Applications (CPSMA) Citation Manager Export the bibliographic data for this book in your chosen format Web Search Builder Use this book's key terms to search within this book, across our collection, or across the Web. Skim This Chapter Skim this chapter and use this chapter's key terms to search within this book. Reference Finder Paste in your own text to find books that relate to your topic. Citation Manager . "Symposium Attendees." Eighteenth Symposium on Naval Hydrodynamics. Washington, DC: The National Academies Press, 1991. Please select a format: Page 829   E-mail Share on facebook Facebook Share on delicious Delicious Share on stumbleupon Stumble Share on twitter Twitter More Sharing ServicesMore Page 829 Front Matter (R1-R6) Contents (R7-R12) Opening Remarks (1-2) Session I - Ship Motions (3-4) Prediction of Radiation Forces on a Catamaran at High Froude Number (5-20) Ship Motions by a Three-Dimensional Rankine Panel Method (21-40) Numerical Solutions for Large-Amplitude Ship Motions in the Time Domain (41-66) A Coupled Time and Frequency Approach for Nonlinear Wave Radiation (67-84) Nonlinear and Linear Motions of a Rectangular Barge in a Perfect Fluid (85-100) Session II - Ship Motions (101-102) A Numerical Research of Nonlinear Body-Wave Interactions (103-118) The Influence of a Slowly Oscillating Movement on the Velocity Potential (119-132) Rolling of Biased Ships in Quartering Seas (133-140) A Stochastic Analysis of Nonlinear Roling in a Narrow Band Sea (141-148) Effect of Viscous Damping on the Response of Floating Bodies (149-156) Nonlinear Motions and Whipping Loads of High-Speed Crafts in Head Sea (157-170) Session III - Ship Hydrodynamics (171-172) Nonlinear Free Surface Waves Due to a Ship Moving Near the Critical Speed in a Shallow Water (173-190) Numerical Simulation of Ship Waves and Some Discussions on Bow Wave Breaking & Viscous Interactions of Stern Wave (191-206) Analysis of Transom Stern flows (207-220) A Boundary Integral Approach in Primitive Variables For Free Surface Flows (221-238) Numerical Appraisal of the New Slender Ship Formulation in Steady Motion (239-258) Numerical Solution of the 'Dawson' Free-Surface Problem Using Havelock Singularities (259-272) Free-Surface Effects on a Yawed Surface-Piercing Plate (273-284) Session IV - Experimental Techniques (285-286) Wave Devouring Propulsion Sea Trial (287-296) Numerical and Experimental Anlysis of Propeller Wake by Using a Surface Panel Method and a 3-Component LDV (297-318) Cavity Thickness on Rotating Propeller Blades - Measurements by Two Laser Beams (319-330) The Dynamics and Acoustics of Travelling Bubble Cavitation (331-348) Nonintrusive, Multiple-Point Measurements of Water Surface Slope, Elevation and Velocity (349-360) Turbulence Measurements in a Submerged Jet Near a Free Surface (361-372) Session V - Free Surface Aspects (373-374) Adequacy of Free Surface Conditions for the Wave Resistance Problem (375-396) The Dispersion of Large-Amplitude Gravity Waves in Deep Water (397-416) Three-Dimensional, Unsteady Computations of Nonlinear Waves Caused by Underwater Disturbances (417-426) A Numerical Solution Method for Three-Dimensional Nonlinear Free Surface Problems (427-438) Nonlinear Ship Waves (439-452) A Model for the Generation and Evolution of an Inner-Angle Soliton in a Kelvin Wake (453-464) Near-Field Nonlinearities and Short Far-Field Ship Waves (465-476) Session VI - Wave/Wake Dynamics (477-478) Vortex Ring Interaction with a Free Surface (479-490) Submerged Vortex Pair Influence on Ambient Free Surace Waves (491-502) Scarred and Striated Signature of a Vortex Pair on the Free Surface (503-520) Measurement and Computations of Vortex Pair Interaction with a Clean or Contaminated Free Surface (521-532) Hydrodynamics of Ship Wake Surfactant Films (533-552) Three-Dimensional Instability Modes of the Wake Far Behind a Ship (553-566) Ship Internal Waves in a Shallow Thermocline: The Supersonic Case (567-582) Session VII - Propeller/Hull/Appendage Interactions (583-584) On the Optimization, Including Viscosity Effects, of Ship Screw Propellers with Optional End Plates (585-606) Steady and Unsteady Characteristics of a Propeller Operating in a Non-Uniform Wake: Comparisons Between Theory and Experiments (607-632) Navier-Stokes Analysis of Turbulent Boundry Layer and Wake for Two-Dimensional Lifting Bodies (633-644) A Three-Dimensional Theory for the Design Problem of Propeller Ducts in a Shear Flow (645-666) A Potential Based Panel Method for the Unsteady Flow Around Open and Ducted Propellers (667-686) A Navier-Stokes Solution of Hull-Ring Wing-Thruster Interaction (687-696) Session VIII - Viscous Effects (697-698) An Interactive Approach for Calculating Ship Boundary Layers and Wakes for Nonzero Froude Number (699-720) Viscous Flow Past a Ship in a Cross Current (721-726) A Numerical study of Three-Dimensional Viscous Interactions of Vortices with a Free Surface (727-788) On the Numerical Solution of the Total Ship Resistance Problem under a Predetermined Free Surface (789-800) The Calculations of Fluid Actions on Arbitrary Shaped Submerged Bodies Using Viscous Boundary Elements (801-814) The Flow Past a Wing-Body Junction - An Experimental Evaluation of Turbulence (815-828) Symposium Attendees (829-833)

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SYMPOSIUM ATTENDEES Belgium V. Ferdinande Canada State University of Ghent S. Calisal University of British Columbia J. Chuang Technical University of Nova Scotia D. Murdey Institute for Marine Dynamics China Forng-Chen Chiu National Taiwan University Shean-Kwang Chou National Taiwan University Shi-Tang Dong China Ship Scientific Research Center Ya-Jung Lee National Taiwan University Sheng-Shen Yu China Ship Scientific Research Center Zhen-Quan Zhou China Ship Scientific Research Center Denmark J. Petersen The Technical University of Denmark France R. Baubeau Bassin d'Essais des Carenes Cariou Chantiers de L'Atlantique R. Cointe Bassin d'Essais des Carenes J.C. Dern Bassin d'Essais des Carenes M. Dupont ONERA P. Ferrant Sirehna S.N P. Genoux Bassin d'Essais des Cartnes B. King Bassin d'Essais des Carenes J.P. LeGoff Sirehna S.N C. Monod ONERA M.P. Tramoni Institut Frangais du Petrole Germany V. Bertram Univer~it.y of Hamburg W. Faller Solzer-Escher Wyss GmbH Ravensburg B. Remmers Kempf & Remmers GmbH S. Sharma University Duisburg H.D. Stinzing Versuchsanststalt fur Wasserbau und Schiffbau Greece D. Garofallidis National Technical University of Athens L. Accardo Italian Navy Ship Design Committee G. Bailo Italian Navy Ship Design Committee Cardo University of Trieste C.M. Casciola INSEAN P. Cassella Universita di Napoli Francescutto University of Trieste R. Piva Universita di Roma Scamardella Universita di Napoli Japan Fujii Mitsui Engineering & Shipbuilding Co., Ltd. T. Hoshino Mitsubishi Heavy Industries, Ltd. Seung-Hyun Kwag Hiroshima University Kazu-hiro Mori Hiroshima University K Nakatake Kyushu Unviersity M. Ohkusu Kyushu University S. Takezawa Yokohama National University M. Takki Hiroshima University T. Terao Society of Naval Architects Y. Toda Osaka University 829

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Korea Kwang June Bat Gun it Choi Seoul National University Seoul National University Hang Shoon Choi Seoul National University Jong Heal Hwang Seoul National University Chang-Gu Kang Korea Research Institute of Ships & Ocean Engineering Do Young Kim Seoul National University Jang Whan Kim Seoul National University Choung Mook Lee Pohang Institute of Science and Technology The Netherlands K de Jong University of Groningen J. de Vries University of Groningen J. Falcao de Campos Maritime Research Institute Netherlands M. Oosterveld H. Raven Maritime Research Institute Netherlands Maritime Research Institute Netherlands J. Sparenberg University of Groningen E.F.G. van Daalen Maritime Research Institute Netherlands C. Van Der Stoep Technical University Delft G. Van Oortmerssen Maritime Research Institute Netherlands Norway J. Brembo Veritas Sesam Systems A S. O. Faltinsen T. Vinje Spain J. Alaez Canal de Experiencias Hidrodinamicas A. Baquero Canal de Experiencias Hidrodinamicas Nonvegian Institute of Technology Norwegian Contractors Sweden P. Andersson Royal Institute of Technology N.A. Petersson Royal Institute of Technology O. Rutgersson SSPA Maritime Consulting AB W. Van Berlekom SSPA Maritime Consulting AB United Kingdom M. Downie The University of Newcastle-upon-Tyne J.M.R. Graham Imperial College W.G. Price Brunel Un~versity Mingyi Tan Brunel University P. Wilson University of Southampton G.X. Wu University College London United States J. Abdollahi-Alibeik The University of Michigan P. Ananthakrishnan University of California, Berkeley D. Anthony The University of Michigan F. Ashcroft The University of Michigan Yeong Soo Bae The University of Michigan R. Beck The University of Michigan L. Bernal The University of Michigan R. Black The University of Iowa C. Brennen California Institute of Technology Yusong Cao The University of Michigan S. Ceccio The University of Michigan P. Chang, III David Taylor Research Center Liyong Chen The University of Michigan Jung-Eun Choi The University of Iowa Jin-Sug Chung The University of Michigan Kyung-Nam Chung The University of Iowa S. Cole Rensselaer Polytechnic Institute W. Coney Bolt Beranek and Newman, Inc. R. Couch The University of Michigan D. Cusanelli David Taylor Research Center D. Delisi Northwest Research Associates, Inc. W. Devenport Virginia Polytechnic Institute and State University D. Dommermuth Science Applications International Corporation J. Falzarano The University of Michigan J. Fein Office of Naval Research Jinzhang Feng Pennsylvania State University S. Fish David Taylor Research Center 830

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United States G. Fridsma General Dynamics/Electric Boat Division Shiyuan Gou The University of Michigan O. Griffin Naval Research Laboratory R. Hall Science Applications International Corporation Soon Hung Han The University of Michigan A. Hirsa Rensselaer Polytechnic Institute Ching-Yeh Hsin Massachusetts Institute of Technology Ching-Jer Huang The University of Iowa T. Huang Naval Civil Engineering Laboratory Jin Huh The University of Michigan L. Hunt National Research Council T. Johnson The University of Iowa V. Johnson The University of Michigan Sang Joo Northwestern University N. Kachman The University of Michigan Byungsik Kang The University of Michigan P. Kaplan Hydromechanics, Inc. K Kelly The University of Michigan G. Keramidas Naval Research Laboratory Hung Tao Kim The University of Iowa Nan-Chui Kim The University of Michigan Sung-Eun Kim The University of Iowa Yoon Ho Kim David Taylor Research Center S. Kinnas Massachusetts Institute of Technology J. Kuhn Science Applications International Corporation Han-Hsiung Kuo General Dynamics/Electric Boat Division C. Lai The University of Michigan K Lawrenson The University of Michigan Jae-Moon Lew The University of Iowa S. Liapis Virginia Polytechnic Institute and State University Woei-Min Lin Science Applications International Corporation T. Lucas University of North Carolina, Charlotte Magee The University of Michigan D. Marcus Lawrence Livermore National Laboratory H. Marno University of California, Santa Barbara United States B. Maskew Analytical Methods, Inc. J. McCarthy David Taylor Research Center W. McCreight David Taylor Research Center J. McHugh University of New Hampshire G. Meadows The University of Michigan L. Miller The University of Michigan W. Miller U.S. Navy W. Morgan David Taylor Research Center D. Nakos Massachusetts Institute of Technology Nayfeh Virginia Polytechnic Institute and State University J.N. Newman Massachusetts Institute of Technology Phuc Nguyen David Taylor Research Center F. Noblesse David Taylor Research Center J. O'Dea U.S. Naval Academy T.F. Ogilvie Massachusetts Institute of Technology Jong-Hwan Park The University of Michigan M. Parsons The University of Michigan R. Peltzer Naval Research Laboratory M. Perlin The University of Michigan L.P. Purtell David Taylor Research Center A. Reed David Taylor Research Center E. Rood Office of Naval Research I. Sahin Western Michigan University T. Sarpkaya Naval Postgraduate School D. Savitsky Stevens Institute of Technology J. Scherer The University of Michigan W. Schultz The University of Michigan P. Sclavounos Massachusetts Institute of Technology C. Scragg Science Applications International Corporation A. Sirviente The University of Iowa R. Skop University of Miami T. Smith David Taylor Research Center W. Smith Atlantic Research Corporation M. Song The University of Michigan F. Stern The University of Iowa 831

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United States Y. Tahara The University of Iowa J. Telste David Taylor Research Center K Thiagarajan The University of Michigan G. Triantafyllou The Benjamin Levich Institute Troesch The University of Michigan M. Tulin University of California, Santa Barbara Suak-Ho Van The University of Iowa J.M. Vandenbroeck The University of Wisconsin D. Walker The University of Michigan W. Webster University of California, Berkeley J. Wehausen University of California, Berkeley J. White U.S. Coast Guard K Williams University of California, Santa Barbara W. Willmarth The University of Michigan E. Wright The University of Michigan T. Wu California Institute of Technology Hongbo Xu Massachusetts Institute of Technology C.I. Yang David Taylor Research Center G. Yates California Institute of Technology R. Yeung University of California, Berkeley Joon-Yong Yoon The University of Iowa D. Yue Massachusetts Institute of Technology 832

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