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The current state-of-the-art allows seismologists to give statistical estimates of the probability of a large earthquake striking a given region, identifying the areas in which the seismic hazard is the highest. However, the usefulness of these estimates is limited, without information about local subsoil conditions and the vulnerability of buildings. Identifying the sites where a local ampli?cation of seismic shaking will occur, and identifying the buildings that will be the weakest under the seismic shaking is the only strategy that allows effective defence against earthquake damage at an affordable cost, by applying selective reinforcement only to the structures that need it. Unfortunately, too often the Earth’s surface acted as a divide between seism- ogists and engineers. Now it is becoming clear that the building behaviour largely depends on the seismic input and the buildings on their turn act as seismic sources, in an intricate interplay that non-linear phenomena make even more complex. These phenomena are often the cause of observed damage enhancement during past ear- quakes. While research may pursue complex models to fully understand soil dyn- ics under seismic loading, we need, at the same time, simple models valid on average, whose results can be easily transferred to end users without prohibitive expenditure. Very complex models require a large amount of data that can only be obtained at a very high cost or may be impossible to get at all.
From earth tectonics and meteorology to risk, responsibility, and the role of government, this comprehensive and detailed book reviews current practices in designing dams to withstand extreme hydrologic and seismic events. Recommendations for action and for further research to improve dam safety evaluations are presented.
Join Lily, Niko, and their classmates at Forest Childcare, as they practice for the Great ShakeOut and learn all about what earthquakes are and how to stay safe if they experience one. Includes discussion questions and activities.
This book contains the best contributions presented during the 6th National Conference on Earthquake Engineering and the 2nd National Conference on Earthquake Engineering and Seismology - 6CNIS & 2CNISS, that took place on June 14-17, 2017 in Bucharest - Romania, at the Romanian Academy and Technical University of Civil Engineering of Bucharest. The book offers an updated overview of seismic hazard and risk assessment activities, with an emphasis on recent developments in Romania, a very challenging case study because of its peculiar intermediate-depth seismicity and evolutive code-compliant building stock. Moreover, the book collects input of renowned scientists and professionals from Germany, Greece, Italy, Japan, Netherlands, Portugal, Romania, Spain, Turkey and United Kingdom.The content of the book focuses on seismicity of Romania, geotechnical earthquake engineering, structural analysis and seismic design regulations, innovative solutions for seismic protection of building structures, seismic risk evaluation, resilience-based assessment of structures and management of emergency situations. The sub-chapters consist of the best papers of 6CNIS & 2CNISS selected by the International Advisory and Scientific Committees. The book is targeted at researchers and experts in seismic hazard and risk, evaluation and rehabilitation of buildings and structures, insurers and re-insurers, and decision makers in the field of emergency situations and recovery activities.
This book is based upon work supported by the National Science Foundation under Grant Nos. CMS-9542154 and CMS-9316749. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect the views of the National Science Foundation. We wish to acknowledge the collaboration of Professor Shinobu Kitayama of Kyoto University in sharing in the design of the study. Kitayama developed the application of the concepts drawn from "cultural psychology" to the specific research topic of earthquake hazards response, conducted focus groups in Yaizu and Shimizu that resulted in the development of a cross-cultural questionnaire design, was in charge of the survey execution in Japan, and participated in every stage of the analysis of survey results. Professor Mayumi Karasawa of Shirayuri College in Tokyo coordinated the administration of the survey research in Japan. In Japan, an undergraduate, Takahiko Masuda of Kyoto University, managed the data analysis and coordination with the Oregon team. In Oregon, two graduate students in geography participated in the study design and execution: Tom Kochevar, and Daphne Minton.
The Rapid Visual Screening (RVS) handbook can be used by trained personnel to identify, inventory, and screen buildings that are potentially seismically vulnerable. The RVS procedure comprises a method and several forms that help users to quickly identify, inventory, and score buildings according to their risk of collapse if hit by major earthquakes. The RVS handbook describes how to identify the structural type and key weakness characteristics, how to complete the screening forms, and how to manage a successful RVS program.
This book is a comprehensive compilation of earthquake- and tsunami-related technologies and knowledge for the design and construction of nuclear facilities. As such, it covers a wide range of fields including civil engineering, architecture, geotechnical engineering, mechanical engineering, and nuclear engineering, for the development of new technologies providing greater resistance against earthquakes and tsunamis. It is crucial both for students of nuclear energy courses and for young engineers in nuclear power generation industries to understand the basics and principles of earthquake- and tsunami-resistant design of nuclear facilities. In Part I, "Seismic Design of Nuclear Power Plants", the design of nuclear power plants to withstand earthquakes and tsunamis is explained, focusing on buildings, equipment's, and civil engineering structures. In Part II, "Basics of Earthquake Engineering", fundamental knowledge of earthquakes and tsunamis as well as the dynamic response of structures and foundation ground are explained.
An earthquake is a natural disaster that causes damage world-wide. Not only earthquakes of high magnitude, but also those of small magnitude that strike unprepared regions can cause economic and social consequences, and many casualties. Unlike other natural disasters, the exact time of an earthquake cannot be estimated; scientists can only predict the timeline and magnitude based on the history of earthquakes in a region. Even though current technology cannot predict the precise time, location or magnitude, public awareness about the estimations allows both individuals and government to be ready for their devastating effects. This book begins by discussing how public awareness about the effects of earthquakes and how to prepare for a possible earthquake which can potentially save lives. The book then continues with topics that include seismic PRA; seismic safety assessments of existing buildings; psychiatric reactions of individuals to earthquakes; possible relation between an intense earthquake and the voltage signal generated by atmospheric ionic currents and/or sudden change of the electric field in the air; and others.
Methods for using seismic zonation and hazard mapping in land-use planning and regulation.