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El. knyga: Long-wave Runup Models - Proceedings Of The International Workshop

Edited by (Cornell University, Usa), Edited by (Univ Of Southern California, Usa), Edited by (Oregon State Univ, Usa)
  • Formatas: 420 pages
  • Išleidimo metai: 05-May-1997
  • Leidėjas: World Scientific Publishing Co Pte Ltd
  • Kalba: eng
  • ISBN-13: 9789814546966
Kitos knygos pagal šią temą:
Long-wave Runup Models - Proceedings Of The International WorkshopDidesnis paveikslėlis
  • Formatas: 420 pages
  • Išleidimo metai: 05-May-1997
  • Leidėjas: World Scientific Publishing Co Pte Ltd
  • Kalba: eng
  • ISBN-13: 9789814546966
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Since September 1992, there has been an unprecedented number of major tsunami events. Chronologically, the ten sites were: Nicaragua, in September 1992; Flores, Indonesia, in December 1992; Okushiri, Japan, in July 1993; East Java, Indonesia, in June 1994; Shikotan, Russia, in October 1994; Mindoro, Philippines, in November 1994; Skagway, Alaska, in November 1994; East Timor, Indonesia, in May 1995; Irian Jaya, Indonesia, in February 1996; Chimbote, Peru, in February 1996. These tsunamis caused substantial damage and many casualties. Now is the time to review this extraordinary phenomenon so as to prepare for forthcoming tsunami events.The purpose of this book is to review and update our knowledge of long-wave runups and our recent experience in field surveys of tsunami runups. Comparisons of numerical, analytical, and physical prediction models are made using existing laboratory and field data. Also presented are state-of-the-art tsunami prediction models and detailed discussions on tsunami runup phenomena.
Preface v(5) Participants and Contributors x Review Articles 3(204) A. On the Interaction of Water Waves with Islands. 3(22) R. E. Meyer B. Review of Tsunami Simulation with a Finite Difference Method. 25(18) Fumihiko Imamura C. Review of Finite Element Methods for Tsunami Simulations. 43(45) Roy Walters Toshimitsu Takagi D. Numerical Prediction of Solitary Wave Runup on Vertical Walls by Finite-Amplitude Shallow-Water Wave Model. 88(28) Nobuhisa Kobayashi Yukiko Tega E. Fully Nonlinear Potential Flow Models used for Long Wave Runup Prediction. 116(65) S. Grilli F. Modeling Tsunamis with Marker and Cell Methods. 181(26) Peter Raad Contributed Discussion Papers 207(142) A. Physical Model Test of Hokkaido Nansei-Oki Earthquake Tsunami Around Cape Aonae. 207(7) Kenji Noguchi Shinji Sato Shigenobu Tanaka B. Analytic Solutions of Solitary Wave Runup on the Conical Island and on the Revere Beach. 214(7) Utku. Kanoglu Costas Synolakis C. Application of Linear Theory to the Computation of Runup of Solitary Wave on a Conical Island. 221(10) Koji Fujima D. Simulation of Wave-Packet Propagation Along Sloping Beach by TUNAMI-Code. 231(11) Fumihiko Imamura E. Numerical Modeling of 3-D Long Wave Runup Using VTCS-3. 242(7) Vasily Titov Costas Synolakis F. Tsunami Runup on Okushiri Island. 249(9) Yuichiro Tanioka Kenji Satake G. Finite Element Analysis in Bench Mark Problems 2 and
3. 258(7) Toshimitsu Takagi H. WET2: An Eularian-Lagrangian Shallow Water FEM Model. 265(7) B. C. Beck A. M. Baptista I. Finite Element Solutions of the Hokkaido Nansei-Oki Benchmark. 272(9) E. P. Myers A. M. Baptista J. Application of a Finite Element, Wave Equation Model to the Benchmark Problems : 1 and 3 281(10) Roy Walters K. Numerical Modelling of Solitary Wave Propagation and Breaking on a Beach and Runup on a Vertical Wall. 291(7) G. Watson T. C. D. Barnes D. H. Peregrine L. Runup of Solitary Waves on a Vertical Wall. 298(8) Sigurdur Gardarsson M. Calculation of Runup Using a Local Polynomial Approximation Model: Discussion for Benchmark Problem
3. 306(7) Andrew Kennedy N. Numerical Simulations of Solitary Wave Generation and Runup on a Canal Compared with Experiment. 313(8) A. F. Teles de Silva J. T. Aquije Chacaltana D. H. Peregrine O. Three-Dimensional Analysis of Long Wave Runup on a Conical Island by Using the MAC Method. 321(11) Kenji Masamura Koji Fujima P. Tsunami Runup in a Sloping Channel. 332(8) E. Pelinovsky O. Kozyrev E. Troshina Q. Long Wave Run-up Modelling in 2D Using Finite Difference Grid With Surface Roller and Moving Boundaries. 340(9) G. S. Prasetya B. Ontowirjo D. Subandono Commentary 349(8) Appendices -- Benchmark Problems A. Problem 1: Wave-Packet Propagation Along a Uniformly Sloping Beach. 357(6) Harry Yeh Kuo-Tung Chang B. Problem 2: Runup of Solitary Waves on a Circular Island. 363(12) Michael Briggs Costas Synolakis Gordon Harkins Debra Green C. Problem 3: Runup of Solitary Waves on a Vertical Wall. 375(9) Michael Briggs Costas Synolakis Utku Kanoglu Debra Green D. Problem 4: The 1993 Okushiri Tsunami: Data, Conditions and Phenomena. 384 Tomoyuki Takahashi
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