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Liquefied Natural Gas (LNG) is the only viable way to extract and transport natural gas from areas not serviceable by a pipeline, but it also poses safety risks. This book examines the safety concerns regarding LNG, and examines the debate between its advocates and its opponents.
Informationen zum Autor JOHN L. WOODWARD , PhD, is Senior Principal Consultant in the Process Safety Division of Baker Engineering and Risk Consultants, Inc. in San Antonio, Texas. He has been actively involved in consequence modeling for both the DNV PHAST and BakerRisk SafeSite codes for many years. He was invited by the GAO (Government Accountability Office) as part of a team of LNG experts to review LNG safety issues. ROBIN M. PITBLADO , PhD, is Director for SHE Risk Management for Det Norske Veritas and is based in Houston, Texas. He has been active in consequence modeling, risk assessment and major accident investigation for over thirty years and was also a member of the GAO Panel of LNG Experts. Klappentext The expert, all-inclusive guide on LNG risk based safetyLiquefied Natural Gas (LNG) is the condensed form of natural gas achieved by cryogenic chilling. This process reduces gas to a liquid 600 times smaller in volume than it is in its original state, making it suitable for economical global transportation. LNG has been traded internationally and used with a good safety record since the 1960s. However, with some accidents occurring with the storage and liquefaction of LNG, a good understanding of its mechanisms, and its potential ramifications to facilities and to the nearby public, is becoming critically important. With an unbiased eye, this book leans on the expertise of its authors and LNG professionals worldwide to examine these serious safety issues, while addressing many false assumptions surrounding this volatile energy source.LNG Risk Based Safety: Summarizes the findings of the Governmental Accountability Office's (GAO) survey of nineteen LNG experts from across North America and Europe Reviews the history of LNG technology developments Systematically reviews the various consequences from LNG releases-- discharge, evaporation, dispersion, fire, and other impacts, and identifies best current approaches to model possible consequence zones Includes discussion of case studies and LNG-related accidents over the past fifty yearsCovering every aspect of this controversial topic, LNG Risk Based Safety informs the reader with firm conclusions based on highly credible investigation, and offers practical recommendations that researchers and developers can apply to reduce hazards and extend LNG technology. Zusammenfassung Liquefied Natural Gas (LNG) is the only viable way to extract and transport natural gas from areas not serviceable by a pipeline, but it also poses safety risks. This book examines the safety concerns regarding LNG, and examines the debate between its advocates and its opponents. Inhaltsverzeichnis Preface.1 LNG Properties and Overview of Hazards.1.1 LNG Properties.1.2 Hazards of LNG with Respect to Public Risk.1.3 Risk Analysis Requires Adequate Modeling.1.4 Flammability.1.5 Regulations in Siting Onshore LNG Import Terminals.1.6 Regulation for Siting Offshore LNG Import Terminals.1.7 Controversial Claims of LNG Opponents.2 LNG Incidents and Marine History.2.1 LNG Ship Design History.2.2 Designs and Issues--First Commercial LNG Ships.2.3 LNG Trade History.2.4 LNG Accident History.2.5 Summary of LNG History and Relevant Technical Developments.3 Current LNG Carriers.3.1 Design Requirements.3.2 Membrane Tanks.3.3 Moss Spheres.4 Risk Analysis and Risk Reduction.4.1 Background.4.2 Risk Analysis Process.4.3 Frequency: Data Sources and Analysis.4.4 Frequency: Predictive Methods.4.5 Consequence Modeling.4.6 Ignition Probability.4.7 Risk Results.4.8 Special Issues--Terrorism.4.9 Risk Reduction and Mitigation Measures for LNG.5 LNG Discharge on Water.5.1 Type 1--Above Water Breaches at Sea.5.2 Type 2--At Waterline Breaches at Sea.5.3 Type 3--Below Waterline Breaches at Sea.5.4 Discharges from Ship's Pipework.5.5 Cascading Failures at Sea.5.6 Initial Discharge Rate.5.7 T...
Autorentext
JOHN L. WOODWARD, PhD, is Senior Principal Consultant in the Process Safety Division of Baker Engineering and Risk Consultants, Inc. in San Antonio, Texas. He has been actively involved in consequence modeling for both the DNV PHAST and BakerRisk SafeSite codes for many years. He was invited by the GAO (Government Accountability Office) as part of a team of LNG experts to review LNG safety issues. ROBIN M. PITBLADO, PhD, is Director for SHE Risk Management for Det Norske Veritas and is based in Houston, Texas. He has been active in consequence modeling, risk assessment and major accident investigation for over thirty years and was also a member of the GAO Panel of LNG Experts.
Klappentext
The expert, all-inclusive guide on LNG risk based safety Liquefied Natural Gas (LNG) is the condensed form of natural gas achieved by cryogenic chilling. This process reduces gas to a liquid 600 times smaller in volume than it is in its original state, making it suitable for economical global transportation. LNG has been traded internationally and used with a good safety record since the 1960s. However, with some accidents occurring with the storage and liquefaction of LNG, a good understanding of its mechanisms, and its potential ramifications to facilities and to the nearby public, is becoming critically important. With an unbiased eye, this book leans on the expertise of its authors and LNG professionals worldwide to examine these serious safety issues, while addressing many false assumptions surrounding this volatile energy source. LNG Risk Based Safety: Summarizes the findings of the Governmental Accountability Office's (GAO) survey of nineteen LNG experts from across North America and Europe Reviews the history of LNG technology developments Systematically reviews the various consequences from LNG releases-- discharge, evaporation, dispersion, fire, and other impacts, and identifies best current approaches to model possible consequence zones Includes discussion of case studies and LNG-related accidents over the past fifty years Covering every aspect of this controversial topic, LNG Risk Based Safety informs the reader with firm conclusions based on highly credible investigation, and offers practical recommendations that researchers and developers can apply to reduce hazards and extend LNG technology.
Inhalt
Preface. 1 LNG Properties and Overview of Hazards. 1.1 LNG Properties. 1.2 Hazards of LNG with Respect to Public Risk. 1.3 Risk Analysis Requires Adequate Modeling. 1.4 Flammability. 1.5 Regulations in Siting Onshore LNG Import Terminals. 1.6 Regulation for Siting Offshore LNG Import Terminals. 1.7 Controversial Claims of LNG Opponents. 2 LNG Incidents and Marine History. 2.1 LNG Ship Design History. 2.2 Designs and Issues--First Commercial LNG Ships. 2.3 LNG Trade History. 2.4 LNG Accident History. 2.5 Summary of LNG History and Relevant Technical Developments. 3 Current LNG Carriers. 3.1 Design Requirements. 3.2 Membrane Tanks. 3.3 Moss Spheres. 4 Risk Analysis and Risk Reduction. 4.1 Background. 4.2 Risk Analysis Process. 4.3 Frequency: Data Sources and Analysis. 4.4 Frequency: Predictive Methods. 4.5 Consequence Modeling. 4.6 Ignition Probability. 4.7 Risk Results. 4.8 Special Issues--Terrorism. 4.9 Risk Reduction and Mitigation Measures for LNG. 5 LNG Discharge on Water. 5.1 Type 1--Above Water Breaches at Sea. 5.2 Type 2--At Waterline Breaches at Sea. 5.3 Type 3--Below Waterline Breaches at Sea. 5.4 Discharges from Ship's Pipework. 5.5 Cascading Failures at Sea. 5.6 Initial Discharge Rate. 5.7 Time-Dependent Discharge (Blowdown). 5.8 Vacuum Breaking and Glug-Glug Effects. 6 Risk Analysis for Onshore Terminals and Transport. 6.1 Typical Basis for LNG Receiving Terminal. 6.2 Features of LNG Receiving Terminals. 6.3 Standards for…