Seismic Risk Analysis of a Water System
| Author | : Debra Bresko |
| Publisher | : |
| Total Pages | : 276 |
| Release | : 1980 |
| Genre | : Carnegie-Mellon University |
| ISBN | : |
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Handbook of Seismic Risk Analysis and Management of Civil Infrastructure Systems
| Author | : S Tesfamariam |
| Publisher | : Elsevier |
| Total Pages | : 920 |
| Release | : 2013-04-30 |
| Genre | : Science |
| ISBN | : 0857098985 |
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Earthquakes represent a major risk to buildings, bridges and other civil infrastructure systems, causing catastrophic loss to modern society. Handbook of seismic risk analysis and management of civil infrastructure systems reviews the state of the art in the seismic risk analysis and management of civil infrastructure systems. Part one reviews research in the quantification of uncertainties in ground motion and seismic hazard assessment. Part twi discusses methodologies in seismic risk analysis and management, whilst parts three and four cover the application of seismic risk assessment to buildings, bridges, pipelines and other civil infrastructure systems. Part five also discusses methods for quantifying dependency between different infrastructure systems. The final part of the book considers ways of assessing financial and other losses from earthquake damage as well as setting insurance rates. Handbook of seismic risk analysis and management of civil infrastructure systems is an invaluable guide for professionals requiring understanding of the impact of earthquakes on buildings and lifelines, and the seismic risk assessment and management of buildings, bridges and transportation. It also provides a comprehensive overview of seismic risk analysis for researchers and engineers within these fields. This important handbook reviews the wealth of recent research in the area of seismic hazard analysis in modern earthquake design code provisions and practices Examines research into the analysis of ground motion and seismic hazard assessment, seismic risk hazard methodologies Addresses the assessment of seismic risks to buildings, bridges, water supply systems and other aspects of civil infrastructure
Seismic Loss Estimates for a Hypothetical Water System
| Author | : Craig E. Taylor |
| Publisher | : |
| Total Pages | : 192 |
| Release | : 1991 |
| Genre | : Business & Economics |
| ISBN | : |
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Topics in this volume include calculating seismic risk, replacement cost estimation procedures, methods for developing component loss algorithms and applications of loss algorithm methods to demonstration water system components.
Seismic Risk Assessment of Public Culinary Water Supply Systems in Utah and Recommendations for Risk Reduction
| Author | : Craig E. Taylor |
| Publisher | : |
| Total Pages | : 182 |
| Release | : 1981 |
| Genre | : Emergency management |
| ISBN | : |
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SYNER-G: Systemic Seismic Vulnerability and Risk Assessment of Complex Urban, Utility, Lifeline Systems and Critical Facilities
| Author | : K. Pitilakis |
| Publisher | : Springer |
| Total Pages | : 408 |
| Release | : 2014-06-19 |
| Genre | : Science |
| ISBN | : 9401788359 |
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SYNER-G, a multidisciplinary effort funded by the European Union, allowed the development of an innovative methodological framework for the assessment of physical as well as socio-economic seismic vulnerability and risk at urban and regional level. The results of SYNER-G are presented in two books both published by Springer, the present and a second one, entitled “SYNER-G: Typology Definition and Fragility Functions for Physical Elements at Seismic Risk: Buildings, Lifelines, Transportation Networks and Critical Facilities”(*), which provides a comprehensive state-of-the-art of the fragility curves, an alternative way to express physical vulnerability of elements at risk. In this second volume of SYNER-G, the focus has been on presenting a unified holistic methodology for assessing vulnerability at systems level considering interactions between elements at risk (physical and non-physical) and between different systems. The proposed methodology and tool encompasses in an integrated fashion all aspects in the chain, from hazard to the vulnerability assessment of components and systems and to the socio-economic impacts of an earthquake, accounting for most relevant uncertainties within an efficient quantitative simulation scheme. It systematically integrates the most advanced fragility functions to assess the vulnerability of physical assets for buildings, utility systems, transportation networks and complex infrastructures such as harbours and hospitals. The increasing impact due to interactions between different components and systems is treated in a comprehensive way, providing specifications for each network and infrastructure. The proposed socio-economic model integrates social vulnerability into the physical systems modelling approaches providing to decision makers with a dynamic platform to capture post disaster emergency issues like shelter demand and health impact decisions. Application examples at city and regional scale have provided the necessary validation of the methodology and are also included in the book. The present volume, with its companion volume on fragility functions, represent a significant step forward in the seismic vulnerability and risk assessment of complex interacting urban and regional systems and infrastructures. These volumes are not only of interest to scientists and engineers but also to the insurance industry, decision makers and practitioners in the sector of civil protection and seismic risk management. (*) Pitilakis K, Crowley E, Kaynia A (eds) (2014) SYNER-G: Typology definition and fragility functions for physical elements at seismic risk, Series: Geotechnical, Geological and Earthquake Engineering 27, ISBN 978-94-007-7872-6, Springer Science+Business Media, Dordrecht.
Seismic Risk and Resilience Modeling of Water Distribution Systems
| Author | : Agam Tomar |
| Publisher | : |
| Total Pages | : 146 |
| Release | : 2020 |
| Genre | : |
| ISBN | : |
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Water distribution systems are vital to the well-being of communities because they contribute to the functionality of all other infrastructure and lifeline systems. Earthquakes and other natural hazards can cause damage to the components of a water distribution system, causing far-reaching socioeconomic consequences. This research begins with the development of an end-to-end simulation framework to model post-earthquake functional loss and restoration of a water system, which encompasses seismic hazard characterization, component damage assessment, hydraulic performance evaluation, and network restoration modeling. The modeling framework is validated using data from the 2014 South Napa Earthquake and extended to a hypothetical scenario. The end-to-end simulation framework is then extended to consider stochastic event set assessments of the water network using the UCERF2 (Uniform California Earthquake Rupture Forecast, Version 2) earthquake rupture forecast model. Given that the end-to-end performance evaluation of distributed infrastructure for a large set of events is computationally expensive, a framework that uses Active learning to select a subset of ground motion maps and associated occurrence rates that reasonably estimates the water network risk is also developed. To deal with the temporal complexities that are embedded in the post-earthquake restoration process, a dynamic updating methodology is developed to reduce uncertainties in the outcomes of post-event recovery forecasts using Bayesian Inferencing, by exploiting real-time data. The specific example of updating predictions (post-earthquake functional recovery forecasts including total recovery time and complete recovery trajectory) is presented and validated on a real pipe network (Napa water system) and event (2014 earthquake and recovery). Ultimately, the frameworks and models developed as part of this work can inform risk-based decision making and resilience planning of water networks and other lifeline systems.
Seismic Risk Analysis for California State Water Project
| Author | : Stanford University. Department of Civil Engineering. Blume Earthquake Engineering Center |
| Publisher | : |
| Total Pages | : 126 |
| Release | : 1976 |
| Genre | : Risk assessment |
| ISBN | : |
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Seismic Risk Analysis of Latham Water District, Albany, New York
| Author | : Michael J. O'Rourke |
| Publisher | : |
| Total Pages | : 118 |
| Release | : 1977 |
| Genre | : Seismology |
| ISBN | : |
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SYNER-G: Typology Definition and Fragility Functions for Physical Elements at Seismic Risk
| Author | : K. Pitilakis |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 432 |
| Release | : 2014-01-20 |
| Genre | : Science |
| ISBN | : 9400778724 |
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Fragility functions constitute an emerging tool for the probabilistic seismic risk assessment of buildings, infrastructures and lifeline systems. The work presented in this book is a partial product of a European Union funded research project SYNER-G (FP7 Theme 6: Environment) where existing knowledge has been reviewed in order to extract the most appropriate fragility functions for the vulnerability analysis and loss estimation of the majority of structures and civil works exposed to earthquake hazard. Results of other relevant European projects and international initiatives are also incorporated in the book. In several cases new fragility and vulnerability functions have been developed in order to better represent the specific characteristics of European elements at risk. Several European and non-European institutes and Universities collaborated efficiently to capitalize upon existing knowledge. State-of-the-art methods are described, existing fragility curves are reviewed and, where necessary, new ones are proposed for buildings, lifelines, transportation infrastructures as well as for utilities and critical facilities. Taxonomy and typology definitions are synthesized and the treatment of related uncertainties is discussed. A fragility function manager tool and fragility functions in electronic form are provided on extras.springer.com. Audience The book aims to be a standard reference on the fragility functions to be used for the seismic vulnerability and probabilistic risk assessment of the most important elements at risk. It is of particular interest to earthquake engineers, scientists and researchers working in the field of earthquake risk assessment, as well as the insurance industry, civil protection and emergency management agencies.
Optimization of Water Resource Systems Incorporating Earthquake Risk
| Author | : John A. Dracup |
| Publisher | : |
| Total Pages | : 54 |
| Release | : 1976 |
| Genre | : Earthquakes |
| ISBN | : |
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