Format:
1 Online-Ressource (XX, 278 p)
Edition:
1st ed. 2020
ISBN:
9783030194475
Series Statement:
Springer eBooks
Content:
Introduction -- Two Recent Catastrophic Tailing Dams Accidents -- Examples of Recent Catastrophic Hydro-Dam Accidents -- Historic Failures “Statistics” -- What the Public Wants; Public Reactions -- Justifying the Need for new Approaches -- Let’s start with some serious Don’ts! -- System Definition -- Hazard Identification -- Defining Probabilities of Events -- Dam Stability Failures -- Consequences -- Tolerance and Acceptability -- Risk Assessment for the Twenty-First Century -- Risk-Informed Decision Making
Content:
This book presents a comprehensive approach to address the need to improve the design of tailings dams, their management and the regulation of tailings management facilities to reduce, and eventually eliminate, the risk of such facilities failing. The scope of the challenge is well documented in the report by the United Nations Environment Program (UNEP) and GRID Arendal entitled “Mine Tailings Storage: Safety Is No Accident,” which was released in October 2017. The report recommends that “Regulators, industry and communities should adopt a shared, zero-failure objective to tailings storage facilities…” and identifies several areas where further improvements are required. In this context, the application of cutting-edge risk-assessment methodologies and risk-management practices can contribute to a significant reduction and eventual elimination of dam failures through Risk Informed Decision Making. As such, the book focuses on identifying and describing the risk-assessment approaches and risk-management practices that need to be implemented in order to develop a way forward to achieve socially acceptable levels of tailings dam risk
Additional Edition:
ISBN 9783030194468
Additional Edition:
Erscheint auch als Druck-Ausgabe ISBN 978-3-030-19446-8
Language:
English
Keywords:
Staudamm
;
Dammbruch
;
Geotechnik
;
Havarie
;
Versagen
;
Ursache
;
Mount Polley Mining Corporation
;
Samarco Mineração
;
Bergeteich
;
Dammbruch
;
Katastrophe
;
Ingenieurgeologie
;
Damm
;
Berge
;
Spülfeld
;
Katastrophe
;
Standsicherheit
;
Technische Überwachung
DOI:
10.1007/978-3-030-19447-5
