Description: Best Practices in Physics-based Fault Rupture Models for Seismic Hazard Assessment of Nuclear Installations by Luis A. Dalguer, Yoshimitsu Fukushima, Kojiro Irikura, Changjiang Wu, Philippe Renault This book collects several articles from the 2nd workshop BestPSHANI 2018 organized by the IAEA as well as several new contributions. The issue covers topics ranging from the seismological aspects of earthquake source studies, ground motion and fault displacement modeling to the engineering application of simulated ground motion for the analysis of soil structure interaction, structural response and fragility curve analysis for the quantification of seismic vulnerability of structures and their seismic performance. Collectively, the seismological papers discuss several current issues of source characterization and ground motion prediction for SHA, highlighting the usefulness of physics-based models for future applications in practice. The engineering papers describe methodologies to develop integral models from source-to-structures that consider the developments of synthetic seismograms as input for structural response and fragility curves estimation for seismic vulnerability assessment. The book is a valuable resource for scientists, engineers, students and practitioners involved in all aspects of SHA, FDHA and vulnerability analysis of engineering structures for seismic risk. FORMAT Paperback LANGUAGE English CONDITION Brand New Back Cover This book collects several articles from the 2nd workshop BestPSHANI 2018 organized by the IAEA as well as several new contributions. The issue covers topics ranging from the seismological aspects of earthquake source studies, ground motion and fault displacement modeling to the engineering application of simulated ground motion for the analysis of soil structure interaction, structural response and fragility curve analysis for the quantification of seismic vulnerability of structures and their seismic performance. Collectively, the seismological papers discuss several current issues of source characterization and ground motion prediction for SHA, highlighting the usefulness of physics-based models for future applications in practice. The engineering papers describe methodologies to develop integral models from source-to-structures that consider the developments of synthetic seismograms as input for structural response and fragility curves estimation for seismic vulnerability assessment. The book is a valuable resource for scientists, engineers, students and practitioners involved in all aspects of SHA, FDHA and vulnerability analysis of engineering structures for seismic risk. Table of Contents Introduction.- Computational Tools for Relaxing the Fault Segmentation in Probabilistic Seismic Hazard Modelling in Complex Fault Systems.- Testing Fault Models in Intraplate Settings: A Potential for Challenging the Seismic Hazard Assessment Inputs and Hypothesis.- Gutenberg–Richters b Value and Earthquake Asperity Models.- Eigenoscillations and Stability of Rocking Stones: The Case Study of The Hus Pulpit in The Central Bohemian Pluton.- Scaling Relationships of Source Parameters of Inland Crustal Earthquakes in Tectonically Active Regions.- Imaging of Seismogenic Asperities of the 2016 ML 6.0 Amatrice, Central Italy, Earthquake Through Dynamic Rupture Simulations.- Sensitivity of High-Frequency Ground Motion to Kinematic Source Parameters.- Large Stress Release During Normal-Faulting Earthquakes in Western Turkey Supported by Broadband Ground Motion Simulations.- Development of Dynamic Asperity Models to Predict Surface Fault Displacement Caused by Earthquakes.- Probabilistic Evaluation of Off-Fault Displacements of the 2016 Kumamoto Earthquake.- Extension of Characterized Source Model for Long-Period Ground Motions in Near-Fault Area.- Are the Standard VS-Kappa Host-to-Target Adjustments the Only Way to Get Consistent Hard-Rock Ground Motion Prediction?- The Interface Between Empirical and Simulation-Based Ground-Motion Models.- Ground Motion Characterization for Vertical Ground Motions in Turkey—Part 1: V/H Ratio Ground Motion Models.- Ground Motion Characterization for Vertical Ground Motions in Turkey—Part 2: Vertical Ground Motion Models and the Final Logic Tree.- Numerical Simulation of M9 Megathrust Earthquakes in the Cascadia Subduction Zone.- Dynamic Source Model for the 2011 Tohoku Earthquake in a Wide Period Range Combining Slip Reactivation with the Short-Period Ground Motion Generation Process.- Earthquake Cycle Modelling of Multi-segmented Faults: DynamicRupture and Ground Motion Simulation of the 1992 Mw 7.3 Landers Earthquake.- Hybrid Broadband Seismograms for Seismic Shaking Scenarios: An Application to the Po Plain Sedimentary Basin (Northern Italy).- Kinematic Rupture Modeling of Ground Motion from the M7 Kumamoto, Japan Earthquake.- Near-Source Strong Pulses During Two Large MJMA 6.5 and MJMA 7.3 Events in the 2016 Kumamoto, Japan, Earthquakes.- Estimation of Strong Motion Generation Area for the 2004 Parkfield Earthquake Using Empirical Greens Function Method.- Optimization of a Simulation Code Coupling Extended Source (k-2 ) and Empirical Greens Functions: Application to the Case of the Middle Durance Fault.- Empirical Greens Function Simulations Toward Site-Specific Ground Motion Prediction in Vietnam.- ain Achievements of the Multidisciplinary SINAPS@ Research Project: Towards an Integrated Approach to Perform Seismic Safety Analysis of Nuclear Facilities.- Broadband Ground Motion Simulation Within the City of Duzce (Turkey) and Building Response Simulation.- Seismic Fragility Curve Assessment Based on Synthetic Ground Motions with Conditional Spectra.- Influence of Input Motions Control Point Location in Nonlinear SSI Analysis of Equipment Seismic Fragilities: Case Study on the Kashiwazaki-Kariwa NPP.- Should We Go Ahead with the Response Spectrum? Feature Covers topics ranging from the seismological aspects of earthquake source studies, ground motion and fault displacement modeling Provides source characterization and ground motion prediction for SHA Highlights usefulness of physics-based models for future applications in practice Contains methodologies to develop integral models from source-to-structures Details ISBN3030655121 Short Title Best Practices in Physics-Based Fault Rupture Models for Seismic Hazard Assessment of Nuclear Installations Series Pageoph Topical Volumes Language English Year 2021 ISBN-10 3030655121 ISBN-13 9783030655129 Subtitle Issues and Challenges Towards Full Seismic Risk Analysis DOI 10.1007/978-3-030-65513-6 Format Paperback Pages 586 Publication Date 2021-01-22 Publisher Springer Nature Switzerland AG Edition 1st Imprint Springer Nature Switzerland AG Place of Publication Cham Country of Publication Switzerland UK Release Date 2021-01-22 Author Philippe Renault Edited by Philippe Renault Edition Description 1st ed. 2021 DEWEY 621.4835 Illustrations 1 Illustrations, black and white; VII, 586 p. 1 illus. 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ISBN-13: 9783030655129
Book Title: Best Practices in Physics-based Fault Rupture Models for Seismic
Number of Pages: 586 Pages
Language: English
Publication Name: Best Practices in Physics-based Fault Rupture Models for Seismic Hazard Assessment of Nuclear Installations: Issues and Challenges Towards Full Seismic Risk Analysis
Publisher: Springer Nature Switzerland Ag
Publication Year: 2021
Subject: Geology, Mathematics, Physics
Item Height: 260 mm
Item Weight: 1242 g
Type: Textbook
Author: Kojiro Irikura, Yoshimitsu Fukushima, Philippe Renault, Changjiang Wu, Luis A. Dalguer
Item Width: 193 mm
Format: Paperback
