Methods in Chemical Process Safety, Volume Two, the latest release in a serial that publishes fully commissioned methods papers across the field of process safety, risk assessment, and management and loss prevention, aims to provide informative, visual and current content that appeals to both researchers and practitioners in process safety. This new release contains unique chapters on offshore safety, offshore platform safety, human factors in offshore operation, marine safety, safety during well drilling and operation, safety during processing (top side), safety during transportation of natural resources (offshore pipeline), and regulatory context
- Helps acquaint the reader/researcher with the fundamentals of process safety
- Provides the most recent advancements and contributions on the topic from a practical point-of-view
- Presents users with the views/opinions of experts in each topic
- Includes a selection of the author(s) of each chapter from among the leading researchers and/or practitioners for each given topic
| Contributors |
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ix | |
| Preface |
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xi | |
| Editors' Biography |
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xiii | |
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1 Overview of Marine and Offshore Safety |
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1 | (98) |
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1 Background and Historical Perspective of Marine Safety |
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1 | (7) |
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2 Background and Historical Perspective of Offshore Safety |
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8 | (11) |
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3 Past Major Accidents: Marine and Offshore |
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19 | (9) |
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4 Data Availability From Past Accidents |
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28 | (10) |
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5 Analysis of Past Accidents |
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38 | (19) |
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6 Lesson Learned From Past Accidents to Control Offshore Major Hazards |
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57 | (9) |
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7 HI in Marine and Offshore Operations |
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66 | (12) |
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8 Review of Techniques Available for Safety Analysis of Marine and Offshore Operations |
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78 | (9) |
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9 Purpose and Organization of This Volume |
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87 | (12) |
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88 | (11) |
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2 Safety in Offshore Platforms---Use of QRA in the Norwegian Offshore Industry |
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99 | (46) |
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100 | (1) |
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2 Brief Overview Over History of QRA in Norway |
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101 | (5) |
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106 | (4) |
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4 Release of Hydrocarbons From the Process Plant |
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110 | (11) |
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121 | (3) |
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6 Releases From Pipelines and Risers |
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124 | (1) |
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125 | (3) |
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128 | (5) |
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133 | (3) |
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10 Comparison of QRA Results Against Actual Risk Level |
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136 | (1) |
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11 Use of QRA for Decision Making |
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137 | (3) |
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140 | (2) |
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142 | (3) |
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143 | (2) |
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3 Human Factors in Marine and Offshore Systems |
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145 | (24) |
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145 | (1) |
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2 Success Likelihood Index Method |
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146 | (4) |
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3 Human Error Assessment and Reduction Technique |
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150 | (8) |
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158 | (8) |
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166 | (3) |
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166 | (3) |
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4 Safety During Oil and Gas Transfer and Transport |
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169 | (38) |
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Sankaramoorthy Narayanasamy |
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1 Safety During Marine Operations |
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170 | (5) |
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2 Different Risk Contributors and Their Impacts |
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175 | (13) |
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3 Formal Safety Assessment Techniques |
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188 | (12) |
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4 Safety Management Strategies |
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200 | (3) |
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203 | (4) |
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203 | (4) |
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5 Safety During Offshore Drilling Operation |
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207 | (62) |
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207 | (1) |
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2 Classification of Offshore Drilling Rigs |
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208 | (3) |
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3 General Procedures of Offshore Well-Drilling Operations |
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211 | (3) |
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4 A Hypothetical Scenario Simulates Real and Safe Offshore Drilling Operation |
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214 | (17) |
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5 Common HSE Risk Assessment and Management System Adopted in Offshore Drilling Operations |
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231 | (5) |
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236 | (20) |
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7 Quantitative Risk Assessment and Dynamic Accident Modeling Using SMART Approach |
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256 | (10) |
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266 | (3) |
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267 | (2) |
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6 Safety of Offshore Topside Processing Facilities: The Era of FPSOs and FLNGs |
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269 | (20) |
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269 | (1) |
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2 Offshore Topside Facilities |
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270 | (2) |
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3 Floating Production, Storage, and Offloading Vessels |
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272 | (13) |
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285 | (4) |
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285 | (4) |
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7 Offshore Pipelines---Elements of Managing Risk |
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289 | (38) |
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289 | (4) |
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2 Offshore Pipeline Assets: The Context for Managing Risk |
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293 | (10) |
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3 Elements of a Pipeline Risk Management Framework |
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303 | (10) |
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4 Improving Safety Culture |
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313 | (14) |
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316 | (8) |
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324 | (3) |
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327 | |
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1 The Development of International Conventions |
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329 | (4) |
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2 The Development of Coastal State Regulation |
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333 | (16) |
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349 | (4) |
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353 | (7) |
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360 | |
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362 | (2) |
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364 | |
Dr. Faisal Khan is a Mike OConnor Chair II and the Head of Texas A&M Universitys Artie McFerrin Department of Chemical Engineering. He is also the Director of the Mary Kay OConnor Process Safety Center and the Ocean Energy Safety Institute. He was a Tier I Canada Research Chair in Offshore Safety and Risk Engineering. He has over three decades of research experience in process safety, risk modeling, and green energy system resilience. His works have greatly benefited the petrochemical and offshore industries. He has made a significant contribution to hydrogen systems and battery technologies, as well. With over 800 peer-reviewed publications and multiple books authored and edited, Dr. Khan is widely recognized as the global leader in safety and risk engineering. He is Fellow of the Canadian Academy of Engineering; Engineering Institution of Canada; AIChE and CSChE.
Dr.Rouzbeh Abbassi is a Professor of Environmental Engineering in the School of Engineering at Macquarie University, Australia and serves within the Centre for Energy and Natural Resources Innovation and Transformation. With over 230 peerreviewed publications and multiple books authored and edited, Dr. Abbassi is recognized for his work in risk assessment, safety engineering, corrosion and failure analysis, Bayesian network modeling, and smart energy systems, including hydrogen, offshore wind, and wastewater-based energy recovery. He leads major national and international projects (e.g., BECRC for hydrogen safety), holds editorial roles in top safety and environmental engineering journals, and frequently advises industry partners on offshore infrastructure resilience.
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