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Advanced numerical models for simula...
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Clark Conference ((2005 :)
Advanced numerical models for simulating tsunami waves and runup[electronic resource] /
紀錄類型:
書目-語言資料,印刷品 : Monograph/item
杜威分類號:
551.4637015118
書名/作者:
Advanced numerical models for simulating tsunami waves and runup/ editors, Philip L.-F. Liu, Harry Yeh, Costas Synolakis.
其他作者:
Liu, Philip L. F.
團體作者:
Clark Conference
出版者:
Singapore ; : World Scientific Pub. Co.,, c2008.
面頁冊數:
1 online resource.
標題:
Tsunamis - Congresses. - Mathematical models
標題:
Ocean waves - Congresses. - Mathematical models
ISBN:
9789812790910 (electronic bk.)
ISBN:
9812790918 (electronic bk.)
書目註:
Includes bibliographical references.
摘要、提要註:
This review volume is divided into two parts. The first part includes five review papers on various numerical models. Pedersen provides a brief but thorough review of the theoretical background for depth-integrated wave equations, which are employed to simulate tsunami runup. LeVeque and George describe high-resolution finite volume methods for solving the nonlinear shallow water equations. The focus of their discussion is on the applications of these methods to tsunami runup. In recent years, several advanced 3D numerical models have been introduced to the field of coastal engineering to calculate breaking waves and wave structure interactions. These models are still under development and are at different stages of maturity. Rogers and Dalrymple discuss the Smooth Particles Hydrodynamics (SPH) method, which is a meshless method. Wu and Liu present their Large Eddy Simulation (LES) model for simulating the landslide-generated waves. Finally, Frandsen introduces the lattice Boltzmann method with the consideration of a free surface. The second part of the review volume contains the descriptions of the benchmark problems with eleven extended abstracts submitted by the workshop participants. All these papers are compared with their numerical results with benchmark solutions.
電子資源:
http://www.worldscientific.com/worldscibooks/10.1142/6226#t=toc
Advanced numerical models for simulating tsunami waves and runup[electronic resource] /
Advanced numerical models for simulating tsunami waves and runup
[electronic resource] /editors, Philip L.-F. Liu, Harry Yeh, Costas Synolakis. - Singapore ;World Scientific Pub. Co.,c2008. - 1 online resource. - Advances in coastal and ocean engineering ;v. 10. - Advances in coastal and ocean engineering ;v. 10..
Includes bibliographical references.
This review volume is divided into two parts. The first part includes five review papers on various numerical models. Pedersen provides a brief but thorough review of the theoretical background for depth-integrated wave equations, which are employed to simulate tsunami runup. LeVeque and George describe high-resolution finite volume methods for solving the nonlinear shallow water equations. The focus of their discussion is on the applications of these methods to tsunami runup. In recent years, several advanced 3D numerical models have been introduced to the field of coastal engineering to calculate breaking waves and wave structure interactions. These models are still under development and are at different stages of maturity. Rogers and Dalrymple discuss the Smooth Particles Hydrodynamics (SPH) method, which is a meshless method. Wu and Liu present their Large Eddy Simulation (LES) model for simulating the landslide-generated waves. Finally, Frandsen introduces the lattice Boltzmann method with the consideration of a free surface. The second part of the review volume contains the descriptions of the benchmark problems with eleven extended abstracts submitted by the workshop participants. All these papers are compared with their numerical results with benchmark solutions.
ISBN: 9789812790910 (electronic bk.)Subjects--Topical Terms:
556469
Tsunamis
--Mathematical models--Congresses.
LC Class. No.: GC211.2 .I58 2008
Dewey Class. No.: 551.4637015118
Advanced numerical models for simulating tsunami waves and runup[electronic resource] /
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http://www.worldscientific.com/worldscibooks/10.1142/6226#t=toc
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