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200 10$aCommunicating environmental risk in multiethnic communities$b[electronic resource] /$fMichael K. Lindell, Ronald W. Perry
210   $aThousand Oaks, Calif. ;$aLondon $cSAGE$dc2004
215   $a1 online resource (273 p.)
225 1 $aCommunicating effectively in multicultural contexts ;$v7
300   $aDescription based upon print version of record.
311   $a1-4522-2918-X 
311   $a0-7619-0651-7 
320   $aIncludes bibliographical references (p. 223-246) and index.
327   $aCover; Contents; Preface; 1 - Risk Communication, Culture, and Ethnicity; 2 - Theoretical Bases of Risk Communication; 3 - Disaster Warnings as Risk Communication; 4 - Hazard Awareness as Risk Communication; 5 - Approaches to Influencing Hazard Adjustment Adoption; References; Index
330 8 $aThe authors explore the nature of natural hazards (earthquakes, floods, etc.) and technological dangers (hazardous waste, nuclear power plants, etc.), develop a model for understanding people's reaction to risk messages (Do they evacuate when the weather dictates as much? Do they protest the impending construction of a nuclear power plant?), and demonstrate how effective strategies for disseminating risk messages can be devised.
410  0$aCommunicating effectively in multicultural contexts.
606   $aEnvironmental impact statements
606   $aPollution$xSocial aspects
606   $aEnvironmental policy
608   $aElectronic books.
615  0$aEnvironmental impact statements.
615  0$aPollution$xSocial aspects.
615  0$aEnvironmental policy.
676   $a363.1056
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701   $aPerry$b Ronald W$01057043
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200 10$aAdvanced numerical models for simulating tsunami waves and runup$b[electronic resource] /$feditors, Philip L.-F. Liu, Harry Yeh, Costas Synolakis
210   $aHackensack, N.J. ;$aLondon $cWorld Scientific$dc2008
215   $a1 online resource (344 p.)
225 1 $aAdvances in coastal and ocean engineering ;$vv. 10
300   $aDescription based upon print version of record.
311   $a981-270-012-9 
320   $aIncludes bibliographical references.
327   $gPart 1.$tReview papers.$gChapter 1.$tModeling runup with depth integrated equation models /$rG. Pedersen. --$gChapter 2.$tHigh-resolution finite volume methods for the shallow water equations with bathymetry and dry states /$rR. J. LeVeque and D. L. George. --$gChapter 3.$tSPH modeling of tsunami waves /$rB. D. Rogers and R. A. Dalrymple. --$gChapter 4.$tA Large eddy simulation model for tsunami and runup generated by landslides /$rT.-R. Wu and P. L.-F. Liu. --$gChapter 5.$tFree-surface lattice Boltzmann modeling in single phase flows /$rJ. B. Frandsen --$gPart 2.$tExtended abstracts. --$gChapter 6.$tBenchmark problems /$rP. L.-F. Liu, H. Yeh and C. E. Synolakis. --$gChapter 7.$tTsunami runup onto a plane beach /$rZ. Kowalik, J. Horrillo and E. Kornkven. --$gChapter 8.$tNonlinear evolution of long waves over a sloping beach /$rU. Kanoglu. --$gChapter 9.$tAmplitude evolution and runup of long waves; comparison of experimental and numerical data on a 3D complex topography /$rA. C. Yalciner, F. Imamura and C. E. Synolakis. --$gChapter 10.$tNumerical simulations of tsunami runup onto a three-dimensional beach with shallow water equations /$rX. Wang, P. L.-F. Liu and A. Orfila. --$gChapter 11.$t3D Numerical simulation of tsunami runup onto a complex bench /$rT. Kakinuma. --$gChapter 12.$tEvaluating wave propagation and inundation characteristics of the most tsunami model over a complex 3D beach /$rA. Chawla, J. Borrero and V. Titov. --$gChapter 13.$tTsunami generation and runup due to a 2D landslide /$rZ. Kowalik, J. Horrillo and E. Kornkven. --$gChapter 14. Boussines Q modeling of landslide-generated waves and tsunami runup /$rO. Nwogu. --$gChapter 15.$tNumerical simulation of tsunami runup onto a complex beach with a boundary-fitting cell system /$rH. Yasuda. --$gChapter 16.$tA 1-D lattice Boltzmann model applied to tsunami runup onto plane bench /$rJ. B. Frandsen. --$gChapter 17.$tA Lagrangian model applied to runup problems /$rG. Pedersen. -- Appendix. Phase-averaged towed PIV measurements for regular head waves in a model ship towing tank /$rJ. Longo ... [et al.].
330   $aThis review volume is divided into two parts. The first part includes five review papers on various numerical models. Pedersen provides a brief but thorough review of the theoretical background for depth-integrated wave equations, which are employed to simulate tsunami runup. LeVeque and George describe high-resolution finite volume methods for solving the nonlinear shallow water equations. The focus of their discussion is on the applications of these methods to tsunami runup.In recent years, several advanced 3D numerical models have been introduced to the field of coastal engineering to calcu
410  0$aAdvances in coastal and ocean engineering ;$vv. 10.
606   $aOcean waves$xMathematical models$vCongresses
606   $aTsunamis$xMathematical models$vCongresses
610 1 $aLong-wave runup models
615  0$aOcean waves$xMathematical models
615  0$aTsunamis$xMathematical models
676   $a551.4637015118
701   $aLiu$b Philip L. F$0496387
701   $aSynolakis$b Costas$01180812
701   $aYeh$b Harry Hsiu-jen$01502740
712 12$aInternational Workshop on Long-Wave Runup Models
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