05589nam 2200793 450 991013642150332120230927072354.01-119-22143-91-119-22142-0(CKB)3710000000610842(EBL)4432248(SSID)ssj0001628439(PQKBManifestationID)16371923(PQKBTitleCode)TC0001628439(PQKBWorkID)14857573(PQKB)11226366(PQKBManifestationID)16249546(PQKBWorkID)14857636(PQKB)23875608(MiAaPQ)EBC4432248(DLC) 2015049980(Au-PeEL)EBL4432248(CaPaEBR)ebr11169566(CaONFJC)MIL902572(OCoLC)945135473(EXLCZ)99371000000061084220151202d2016 uy| 0engur|||||||||||txtccrHealth, safety and environmental management in offshore and petroleum engineering /Srinivasan ChandrasekaranFirst edition.Chichester, West Sussex, United Kingdom :Wiley,2016.1 online resource (255 p.)THEi Wiley ebooksDescription based upon print version of record.1-119-22144-7 1-119-22184-6 Includes bibliographical references and index.Title Page; Copyright Page; Contents; Preface; About the Author; Chapter 1 Safety Assurance and Assessment; Introduction to Safety, Health, and Environment Management; 1.1 Importance of Safety; 1.2 Basic Terminologies in HSE; 1.2.1 What Is Safety?; 1.2.2 Why Is Safety Important?; 1.3 Importance of Safety in Offshore and PetroleumIndustries; 1.4 Objectives of HSE; 1.5 Scope of HSE Guidelines; 1.6 Need for Safety; 1.7 Organizing Safety; 1.7.1 Ekofisk B Blowout; 1.7.2 Enchova Blowout; 1.7.3 West Vanguard Gas Blowout; 1.7.4 Ekofisk A Riser Rupture; 1.7.5 Piper A Explosion and Fire; 1.8 Risk1.9 Safety Assurance and Assessment 1.10 Frank and Morgan Logical Risk Analysis; 1.11 Defeating Accident Process; 1.12 Acceptable Risk; 1.13 Risk Assessment; 1.13.1 Hazard Identification; 1.13.2 Dose-Response Assessment; 1.13.3 Exposure Assessment; 1.13.4 Risk Characterization; 1.14 Application Issues of Risk Assessment; 1.15 Hazard Classification and Assessment; 1.15.1 Hazard Identification; 1.15.2 Hazard Identification Methods; 1.16 Hazard Identification During Operation (HAZOP); 1.16.1 HAZOP Objectives; 1.16.2 Common Application Areas of HAZOP; 1.16.3 Advantages of HAZOP1.17 Steps in HAZOP 1.18 Backbone of HAZOP; 1.19 HAZOP Flowchart; 1.20 Full Recording Versus Recording by Exception; 1.21 Pseudo Secondary Words; 1.22 When to Do HAZOP?; 1.22.1 Types of HAZOP; 1.23 Case Study of HAZOP: Example Problem of Group Gathering Station; 1.24 Accidents in Offshore Platforms; 1.24.1 Sleipner A Platform; 1.24.2 Thunder Horse Platform; 1.24.3 Timor Sea Oil Rig; 1.24.4 Bombay High North in Offshore Mumbai; 1.25 Hazard Evaluation and Control; 1.25.1 Hazard Evaluation; 1.25.2 Hazard Classification; 1.25.3 Hazard Control; 1.25.4 Monitoring; Exercises 1; Model PaperChapter 2 Environmental Issues and Management 2.1 Primary Environmental Issues; 2.1.1 Visible Consequences; 2.1.2 Trends in Oil and Gas Resources; 2.1.3 World's Energy Resources; 2.1.4 Anthropogenic Impact of Hydrosphere; 2.1.5 Marine Pollution; 2.1.6 Marine Pollutants; 2.1.7 Consequence of Marine Pollutants; 2.2 Impact of Oil and Gas Industries on Marine Environment; 2.2.1 Drilling Operations and Consequences; 2.2.2 Main Constituents of Oil-Based Drilling Fluid; 2.2.3 Pollution Due to Produced Waters During Drilling; 2.3 Drilling Accidents; 2.3.1 Underwater Storage Reservoirs; 2.4 Pipelines2.5 Impact on Marine Pollution 2.6 Oil Hydrocarbons: Composition and Consequences; 2.6.1 Crude Oil; 2.7 Detection of Oil Content in Marine Pollution; 2.8 Oil Spill: Physical Review; 2.8.1 Environmental Impact of Oil Spill; 2.9 Oil: A Multicomponent Toxicant; 2.9.1 Oil Spill; 2.10 Chemicals and Wastes from Offshore Oil Industry; 2.10.1 Drilling Discharges; 2.11 Control of Oil Spill; 2.12 Environmental Management Issues; 2.12.1 Environmental Protection: Principles Applied to Oil and Gas Activities; 2.12.2 Environmental Management: Standards and Requirements; 2.13 Ecological Monitoring2.13.1 Ecological Monitoring StagesTHEi Wiley ebooks.Offshore structuresSafety measuresOffshore structuresRisk assessmentPetroleum engineeringSafety measuresPetroleum engineeringRisk assessmentPetroleum in submerged landsEnvironmental aspectsNatural gas in submerged landsEnvironmental aspectsOffshore structuresSafety measures.Offshore structuresRisk assessment.Petroleum engineeringSafety measures.Petroleum engineeringRisk assessment.Petroleum in submerged landsEnvironmental aspects.Natural gas in submerged landsEnvironmental aspects.622/.8Chandrasekaran Srinivasan720695MiAaPQMiAaPQMiAaPQBOOK9910136421503321Health, safety and environmental management in offshore and petroleum engineering2203202UNINA03186oam 2200517 450 991079097480332120190911112729.0981-4460-35-4(OCoLC)869281774(MiFhGG)GVRL8RAJ(EXLCZ)99255000000119148320131028h20142014 uy 0engurun|---uuuuatxtccrStrong light-matter coupling from atoms to solid-state systems /editors, Alexia Auffeves, Institut Neel-CNRS, France, Dario Gerace, Universita di Pavia, Italy, Maxime Richard, Institut Neel-CNRS, France, Stefano Portolan, Institut Neel-CNRS, France, Marcelo Franca Santos, Universidade Federal de Minas Gerais, Brazil, Leong Chuan Kwek, National University of Singapore and Nanyang Technological University, Singapore, Christian Miniatura, INLN-CNRS, University of Nice Sophia, France, CQT, National University of Singapore, SingaporeNew Jersey :World Scientific,[2014]�20141 online resource (ix, 292 pages) illustrationsGale eBooksDescription based upon print version of record.981-4460-34-6 1-306-39655-7 Includes bibliographical references.Cavity QED in atomic physics / Serge Haroche and Jean-Michel Raimond -- Exciton-polaritons in bulk semiconductors and in confined electron and photon systems / Lucio Claudio Andreani -- Experimental circuit QED / Patrice Bertet -- Quantum open systems / H.J. Carmichael -- Basic concepts in quantum information / Steven M. Girvin -- Cavity polaritons : crossroad between non-linear optics and atomic condensates / Alberto Amo and Jacqueline Bloch -- Quantum plasmonics / Darrick Chang -- Quantum polaritonics / S. Portolan, O. Di Stefano and S. Savasta -- Optical signal processing with enhanced nonlinearity in photonic crystals / A. De Rossi and S. Combrí.The physics of strong light-matter coupling has been addressed in different scientific communities over the last three decades. Since the early eighties, atoms coupled to optical and microwave cavities have led to pioneering demonstrations of cavity quantum electrodynamics, Gedanken experiments, and building blocks for quantum information processing, for which the Nobel Prize in Physics was awarded in 2012. In the framework of semiconducting devices, strong coupling has allowed investigations into the physics of Bose gases in solid-state environments, and the latter holds promise for exploitinQuantum opticsQuantum electrodynamicsQuantum optics.Quantum electrodynamics.535/.15Auffeves AlexiaGerace DarioRichard Maxime1977-Portolan StefanoSantos Marcelo FrancaKwek Leong ChuanMiniatura C(Christian),MiFhGGMiFhGGBOOK9910790974803321Strong light-matter coupling3859320UNINA