Canyon

Analytical Techniques in the Oil and Gas Industry for Environmental Monitoring b

Description: Analytical Techniques in the Oil and Gas Industry for Environmental Monitoring by Melissa N. Dunkle, William L. Winniford A thorough introduction to environmental monitoring in the oil and gas industry Analytical Techniques in the Oil and Gas Industry for Environmental Monitoring examines the analytical side of the oil and gas industry as it also provides an overall introduction to the industry. Youll discover how oil and natural gas are sourced, refined, and processed. You can learn about whats produced from oil and natural gas, and why evaluating these sourced resources is important. The book discusses the conventional analyses for oil and natural gas feeds, along with their limitations. It offers detailed descriptions of advanced analytical techniques that are commercially available, plus explanations of gas and oil industry equipment and instrumentation. Youll find technique descriptions supplemented with a list of references as well as with real-life application examples. With this book as a reference, you can prepare to apply specific analytical methods in your organizations lab environment. Analytical Techniques can also serve as your comprehensive resource on key techniques in the characterization of oil and gas samples, within both refinery and environmental contexts. Understand of the scope of oil and gas industry techniques availableConsider the benefits and limitations of each available processPrepare for applying analytical techniques in your labSee real examples and a list of references for each techniqueRead descriptions of off-line analytics, as well as on-line and process applications As a chemist, engineer, instructor, or student, this book will also expand your awareness of the role these techniques have in environmental monitoring and environmental impact assessments. FORMAT Hardcover LANGUAGE English CONDITION Brand New Back Cover A thorough introduction to environmental monitoring in the oil and gas industry Analytical Techniques in the Oil and Gas Industry for Environmental Monitoring examines the analytical side of the oil and gas industry as it also provides an overall introduction to the industry. Youll discover how oil and natural gas are sourced, refined, and processed.??You can learn about whats produced from oil and natural gas, and why evaluating these sourced resources is important. The book discusses the conventional analyses for oil and natural gas feeds, along with their limitations. It offers detailed descriptions of advanced analytical techniques that are commercially available, plus explanations of gas and oil industry equipment and instrumentation. Youll find technique descriptions supplemented with a list of references as well as with real-life application examples. With this book as a reference, you can prepare to apply specific analytical methods in your organizations lab environment. Analytical Techniques can also serve as your comprehensive resource on key techniques in the characterization of oil and gas samples, within both refinery and environmental contexts. Understand of the scope of oil and gas industry techniques available Consider the benefits and limitations of each available process Prepare for applying analytical techniques in your lab See real examples and a list of references for each technique Read descriptions of off-line analytics, as well as on-line and process applications As a chemist, engineer, instructor, or student, this book will also expand your awareness of the role these techniques have in environmental monitoring and environmental impact assessments. Flap A thorough introduction to environmental monitoring in the oil and gas industry Analytical Techniques in the Oil and Gas Industry for Environmental Monitoring examines the analytical side of the oil and gas industry as it also provides an overall introduction to the industry. Youll discover how oil and natural gas are sourced, refined, and processed.??You can learn about whats produced from oil and natural gas, and why evaluating these sourced resources is important. The book discusses the conventional analyses for oil and natural gas feeds, along with their limitations. It offers detailed descriptions of advanced analytical techniques that are commercially available, plus explanations of gas and oil industry equipment and instrumentation. Youll find technique descriptions supplemented with a list of references as well as with real-life application examples. With this book as a reference, you can prepare to apply specific analytical methods in your organizations lab environment. Analytical Techniques can also serve as your comprehensive resource on key techniques in the characterization of oil and gas samples, within both refinery and environmental contexts. Understand of the scope of oil and gas industry techniques available Consider the benefits and limitations of each available process Prepare for applying analytical techniques in your lab See real examples and a list of references for each technique Read descriptions of off-line analytics, as well as on-line and process applications As a chemist, engineer, instructor, or student, this book will also expand your awareness of the role these techniques have in environmental monitoring and environmental impact assessments. Author Biography MELISSA N. DUNKLE, PHD, is currently an Associate Research Scientist at Dow Benelux in The Netherlands. She focuses on R&D projects to advance analytical capabilities and improve the evaluation of natural gas feedstocks. WILLIAM L. WINNIFORD, PHD, is currently a Fellow at The Dow Chemical Company in Freeport, Texas. His primary field of research is analytical separations, currently focused on comprehensive two-dimensional chromatography. Table of Contents Part I Scope 1 1 Introduction 3Melissa N. Dunkle and William L. Winniford 1.1 Introduction 3 1.1.1 Petroleum Cycle 3 1.1.2 Well-Known Cases of Environmental Contamination 4 1.1.2.1 Oil-Drilling Rig Deepwater Horizon 4 1.1.2.2 Sanchi Oil Tanker Collision 6 1.1.3 Summary 6 1.2 Petroleum 7 1.3 Analytics 9 1.4 Reservoir Tracers 12 1.5 Emissions from the Petroleum Industry 12 1.6 Environmental Analysis and Monitoring 14 1.7 Conclusions 17 References 17 Part II Introduction to the Petroleum Industry 21 2 Petroleum: From Wells to Wheels 23Clifford C. Walters, Steven W. Levine, and Frank C. Wang 2.1 Introduction 23 2.2 Petroleum in the Ancient World 23 2.3 The Petroleum System 28 2.3.1 Source Rocks 28 2.3.2 Generation of Petroleum 34 2.3.3 Migration and Accumulation 35 2.4 The Upstream 37 2.4.1 Exploration 37 2.4.1.1 Play and Prospect Evaluation 38 2.4.1.2 Predicting Petroleum Quantity and Quality 43 2.4.2 Drilling 45 2.4.2.1 Development of Drilling Technology 46 2.4.2.2 Modern Drilling Practices 49 2.4.2.3 Well Logging 52 2.4.2.4 Development 57 2.4.3 Production 58 2.4.3.1 Primary, Secondary, and Tertiary Production 58 2.4.3.2 Surface Oil Sands 61 2.4.3.3 Unconventional Resources 61 2.4.3.4 Plug and Abandonment 66 2.5 Mid-Stream 67 2.5.1 Transportation 67 2.5.2 Storage 70 2.6 Downstream 72 2.6.1 Evolution of Modern Refining 72 2.6.2 Modern Refinery Processes 73 2.6.2.1 Crude Oil Pretreatment 75 2.6.2.2 Separation 75 2.6.2.3 Conversion 81 2.6.2.4 Purification 95 2.6.2.5 Sweetening and Treating 100 2.6.3 Fuel Products 102 2.6.3.1 Mogas (Motor Gasoline) 103 2.6.3.2 Diesel 104 2.6.3.3 Jet Fuels/Kerosene 106 2.6.3.4 Fuel Oil 106 2.6.3.5 Liquefied Petroleum Gas (LPG) 107 2.7 Petrochemicals 107 2.7.1 Olefins: Prime and Higher Olefins 107 2.7.2 Aromatics 109 2.7.3 Lubes 109 2.7.4 Other Products 110 2.8 The Future of Petroleum 110 References 112 Part III Analytical Techniques Utilized in the Petroleum Industry 121 3 Petroleum Analysis Through Conventional Analytical Techniques 123Melissa N. Dunkle and William L. Winniford 3.1 Introduction to Petroleum Analysis 123 3.2 Brief History on Petroleum Analysis 123 3.2.1 How Petroleum Analysis Influenced Developments in Gas Chromatography 124 3.2.1.1 Detector Technology 125 3.2.1.2 Column Technology 132 3.3 Conventional Analysis of Petroleum 135 3.3.1 Distillation 136 3.3.2 PIONA Analyzer 137 3.3.3 Detailed Hydrocarbon Analysis 138 3.3.4 GC-MS Analysis for Unknown and Biomarker Identification 139 3.3.4.1 Diamondoids 140 3.3.4.2 Naphthenic Acids 141 3.3.4.3 Biomarkers 142 3.3.5 Total Petroleum Hydrocarbon (TPH) and Polycyclic Aromatic Hydrocarbon (PAH) and Their Environmental Impact 145 3.3.6 Tar Analysis 146 3.3.7 Analysis of Heteroatoms and Heavy Metals 149 3.3.7.1 Heteroatoms 149 3.3.7.2 Heavy Metals 150 3.3.8 Additional Analytical Applications for Petroleum 150 References 150 4 Advanced Analytics for the Evaluation of Oil, Natural Gas, and Shale Oil/Gas 161Emmie Dumont, Pat Sandra, Kyra A. Murrell, Frank L. Dorman, Allegra Leghissa, and Kevin A. Schug 4.1 IRMS in the Oil and Gas Industry 161 4.1.1 IRMS: General 161 4.1.1.1 Introduction 161 4.1.1.2 Isotopic Fingerprint 162 4.1.2 IRMS: The Technique 164 4.1.2.1 Introduction 164 4.1.2.2 Ionization 164 4.1.2.3 Mass Analyzer 164 4.1.2.4 Detection 165 4.1.2.5 Referencing 165 4.1.2.6 Bulk Analysis 165 4.1.3 Compound Specific IRMS 166 4.1.3.1 Introduction 166 4.1.3.2 GC-IRMS 166 4.1.3.3 LC-IRMS 167 4.1.3.4 Two-Dimensional GC-IRMS 168 4.1.4 IRMS Applications in the Oil and Gas Industry 169 4.1.4.1 Introduction 169 4.1.4.2 Oil Fingerprinting 171 4.1.4.3 Air Pollution 172 4.1.4.4 Differentiating Oil Derived Products 174 4.1.4.5 Inherent Tracers for Carbon Capture and Storage (CCS) 174 4.1.5 Conclusions Over Utilization of IRMS in the Oil and Gas Industry 176 4.2 Advanced Analytics for the Evaluation of Oil, Natural Gas, and Shale Oil/Gas: Comprehensive GC (GC × GC) 176 4.2.1 Background 176 4.2.2 Basic Principles of GC× GC: Instrumentation 178 4.2.3 Basic Principles of GC× GC: Columns 180 4.2.4 Basic Principles of GC× GC: Modulators 184 4.2.5 Basic Principles of GC× GC: Detectors 186 4.2.6 Basic Principles of GC× GC: Data Processing 187 4.2.7 Petrochemical Applications: Group-Type Analysis 190 4.2.8 Petrochemical Applications: Contaminated Soil and Sediments 193 4.2.9 Petrochemical Applications: Marine Oil Spills 196 4.2.10 Petrochemical Applications: Hydraulic Fracturing 199 4.2.11 Conclusions of Utilizing GC×GC in the Oil and Gas Industry 201 4.3 Petroleum and Hydrocarbon Analysis by Gas Chromatography: Vacuum Ultraviolet Spectroscopy 202 4.3.1 Introduction to GC-VUV 202 4.3.2 GC-VUV Data Processing 204 4.3.2.1 Time Interval Deconvolution (TID) Algorithm 206 4.3.2.2 Pseudo-absolute Quantitation 208 4.3.3 GC-VUV Applications 210 4.3.4 GC-VUV Conclusions 214 References 215 5 Liquid Chromatography: Applications for the Oil and Gas Industry 225Denice van Herwerden, Bob W. J. Pirok, and Peter J. Schoenmakers 5.1 Introduction 225 5.1.1 Petroleum Industry 225 5.1.2 Introduction to Liquid Chromatography 226 5.2 Group-Type Separations 228 5.2.1 Group-Type Separations of Heavy Distillates 228 5.2.2 Other Group-Type Separations 232 5.3 Molecular-Weight Distribution 233 5.4 Target Analysis 236 5.4.1 Polyaromatic Hydrocarbons 236 5.4.2 Naphthenic Acids 240 5.4.3 Phenols 244 5.5 LC as a Pre-separation Technique for GC Analysis 245 5.6 Conclusions 247 References 248 6 Supercritical Fluids in Chromatography: Applications to the Oil and Gas Industry 259Didier Thiébaut and Robert M. Campbell 6.1 Introduction 259 6.2 Basics of SFC 260 6.2.1 Packed Column SFC 262 6.2.1.1 Implementation 262 6.2.1.2 Applications of Packed Column SFC 264 6.2.2 Capillary SFC 265 6.3 Simulated Distillation (SIMDIST) 266 6.3.1 Experimental 267 6.3.2 Results 267 6.4 Group-Type and Related Separations 270 6.4.1 Heavy Samples 271 6.4.2 Additives 272 6.5 Detailed Separations 273 6.5.1 Surfactant and Alkoxylate Polymer Analysis by SFC 273 6.5.1.1 Open Tubular Columns 273 6.5.1.2 Packed Capillary Column SFC of Surfactants 274 6.5.2 Packed Column SFC of Surfactants 275 6.5.2.1 Surfactants by Sub-2 μm Particle Packed Column SFC 276 6.5.2.2 Surfactant Characterization by SFC/MS: Software-Assisted Deconvolution of Co-polymers 280 6.5.2.3 CO2 Cloud Point Pressures of Non-ionic Surfactants by Capillary and Packed Column SFC 280 6.5.2.4 CO2/Water Partition Coefficients by SFC 280 6.5.2.5 SFC of Ionic Surfactants 281 6.5.3 Capillary SFC of Surfactants 281 6.5.3.1 Large Volume Injection in Capillary SFC 281 6.5.3.2 Splitless Injection in Capillary SFC 282 6.5.4 Separations of Polyaromatic Hydrocarbons (PAHs) 283 6.5.5 SFC in Multidimensional Separations 285 6.5.5.1 LC× SFC 285 6.5.5.2 Feasibility of SFC× SFC 287 References 288 7 Online and In Situ Measurements for Environmental Applications in Oil and Gas 299Eric Schmidt, J.D. Tate, William L. Winniford, and Melissa N. Dunkle 7.1 Introduction 299 7.2 Characteristics of On-line Analyzers 300 7.2.1 Zone Classification 300 7.2.2 Sampling Systems 301 7.2.3 Detection 302 7.3 Water Analysis 302 7.3.1 General Water Analysis 302 7.3.2 Application: Benzene in Drinking Water 303 7.4 Air Quality and Emissions Monitoring 304 7.4.1 Regulations 305 7.4.1.1 US Air Monitoring 305 7.4.1.2 European Union Air Monitoring 305 7.4.2 Proton Transfer Reaction Mass Spectrometry for Emission Monitoring 307 7.5 Sample Conditioning 309 7.6 Well Drilling and Production 309 7.6.1 Well Logging 310 7.6.2 Emissions 312 7.7 Texas Commission on Environmental Quality 312 7.8 Fenceline Monitoring 313 7.9 Pipeline and Fugitive Emission Monitoring with Drones 317 7.10 Types of Continuous Emission Monitors 317 7.10.1 Nondispersive IR (NDIR) 317 7.10.2 UV and Dispersive IR 319 7.10.3 Chemiluminescent NOx/SOx Analyzers 319 7.10.4 TDL Analyzers 320 7.10.5 QCL Analyzers 321 7.11 Portable GCs 321 References 324 Part IV Special Cases and Examples Related to the Petroleum Industry 329 8 Tracers for Oil and Gas Reservoirs 331William L. Winniford and Melissa N. Dunkle 8.1 Introduction 331 8.2 Types of Tracers 334 8.2.1 Radioactive Water Tracers 334 8.2.2 Radioactive Gas Tracers 336 8.2.3 Radioactive Measurement Techniques 336 8.2.4 Example Studies of Radioactive Tracers 338 8.2.5 Chemical Water Tracers 338 8.2.6 Chemical Gas Tracers 339 8.2.7 Naturally Occurring Tracers 340 8.2.7.1 Isotopes 340 8.2.7.2 Biomarkers 341 8.3 Regulations 341 References 343 9 Environmental Impact of Emissions Originating from the Petroleum Industry 347Melissa N. Dunkle and William L. Winniford 9.1 Global Warming 347 9.1.1 Causes of Global Warming 347 9.1.2 Combatting Global Warming 349 9.2 Environmental Impact of Diesel Emissions 350 9.2.1 Diesel Engine 350 9.2.2 Diesel Exhaust 350 9.2.3 Diesel Engine Modifications 351 9.2.4 Diesel Fuel Modifications 354 9.2.4.1 Low Sulfur Diesel 355 9.2.4.2 Ultra-Low Sulfur Diesel 355 9.2.4.3 Biodiesel 355 9.2.4.4 Modification of Diesel and Biodiesel with Oxygenates 357 9.2.5 Sulfur Monitoring of Diesel Fuels 358 9.2.6 Monitoring Air Pollution/Haze 359 9.3 Environmental Impact of Fossil Fuel Sourcing and Energy Conversion on Global Warming 360 9.3.1 Coal Mining, Natural Gas Wells, and Methane Release 360 9.3.1.1 Coal Mine Methane 362 9.3.1.2 Natural Gas Methane 363 9.3.2 Fossil Fuel Power Stations 363 9.3.2.1 Coal-Fired Power Station 363 9.3.2.2 Gas-Fired Power Station 364 9.3.3 Emissions from Fossil Fuel Power Stations 364 9.3.3.1 Carbon Dioxide 365 9.3.3.2 Sulfur Dioxide 366 9.3.3.3 Nitrogen Oxides 367 9.3.3.4 Particulate Matter (PM) 367 9.3.3.5 Coal Ash and Heavy Metals 368 9.3.4 Wastewater from Fossil Fuel Power Stations 369 9.3.5 Analysis of Ground Water 371 References 371 Part V Environmental Analysis 379 10 Environmental Analysis of Soil, Water, and Air 381Paige Teehan, Kyra A. Murrell, Romano Jaramillo, A. Paige Wicker, Robert Parette, Kevin A. Schug, and Frank L. Dorman 10.1 Water and Soil Monitoring 381 10.2 Total Petroleum Hydrocarbons in Soil 382 10.2.1 Introduction 382 10.2.2 Soil as a Matrix 383 10.2.3 Sample Preparation 383 10.2.3.1 Collection and Preservation 384 10.2.3.2 Extraction 384 10.2.3.3 Concentration 384 10.2.3.4 Cleanup 384 10.2.4 Sample Analysis 386 10.3 Volatile Organic Compound Analysis 389 10.3.1 Introduction 389 10.3.2 Methane Monitoring 389 10.3.2.1 Cavity Ring-Down Laser Spectrometry Techniques 390 10.3.2.2 Mobile Platforms for Bottom-Up Analyses 391 10.3.2.3 Aircraft-Based Top-Down Analysis 392 10.3.3 Non-Methane VOC Monitoring 392 10.3.3.1 Air Sampling 392 10.3.3.2 Analysis of Air Samples 393 10.4 Water Analysis 393 10.4.1 Introduction 393 10.4.2 Sample Preparation 395 10.4.3 Sample Analysis 397 10.5 Portable GCs for Field Monitoring 402 10.5.1 Introduction 402 10.5.2 Analyzing Field Samples 403 10.6 Fingerprinting in the Oil and Gas Industry 404 10.6.1 Introduction 404 10.6.2 Hydrocarbon Fingerprinting 405 10.6.3 Additional Texts on Fingerprinting Oil Spills and Petroleum Products 405 References 406 Part VI Future Trends in the Petroleum Industry 417 11 Future Trends 419William L. Winniford and Melissa N. Dunkle 11.1 Introduction 419 11.2 Climate Change 421 11.3 Likely Scenarios 422 11.3.1 Gas Emissions 422 11.3.2 Water Emissions 425 11.3.3 Oil Sands 427 11.3.4 Food Contact – MOSH/MOAH 428 11.3.5 Industry 4.0 and the 4thWave of Environmentalism 428 11.4 Summary 430 References 430 Index 433 Details ISBN1119523303 Year 2020 ISBN-10 1119523303 ISBN-13 9781119523307 Format Hardcover Language English Pages 464 Publication Date 2020-10-02 UK Release Date 2020-10-02 Country of Publication United States Imprint John Wiley & Sons Inc Place of Publication New York AU Release Date 1900-01-01 NZ Release Date 1900-01-01 Publisher John Wiley & Sons Inc Author William L. Winniford Edited by William L. Winniford DEWEY 665.5 Audience Professional & Vocational US Release Date 2020-10-02 We've got this At The Nile, if you're looking for it, we've got it. With fast shipping, low prices, friendly service and well over a million items - you're bound to find what you want, at a price you'll love! TheNile_Item_ID:129407552;

Price: 363.12 AUD

Location: Melbourne

End Time: 2024-11-22T03:15:47.000Z

Shipping Cost: 0 AUD

Product Images

Analytical Techniques in the Oil and Gas Industry for Environmental Monitoring b

Item Specifics

Restocking fee: No

Return shipping will be paid by: Buyer

Returns Accepted: Returns Accepted

Item must be returned within: 30 Days

ISBN-13: 9781119523307

Book Title: Analytical Techniques in the Oil and Gas Industry for Environment

Number of Pages: 464 Pages

Language: English

Publication Name: Analytical Techniques in the Oil and Gas Industry for Environmental Monitoring

Publisher: John Wiley and Sons Ltd

Publication Year: 2020

Subject: Engineering & Technology, Chemistry

Item Height: 234 mm

Item Weight: 752 g

Type: Textbook

Author: William L. Winniford, Melissa N. Dunkle

Subject Area: Industrial Chemistry, Microbiology

Item Width: 164 mm

Format: Hardcover

Recommended

Fundamentals of Analytical Chemistry 2nd Edition (1969, HC) by Skoog & West
Fundamentals of Analytical Chemistry 2nd Edition (1969, HC) by Skoog & West

$12.59

View Details
1986 Motorola Tutorial 2 Communication Modulation,Coding,Analytical Techniques
1986 Motorola Tutorial 2 Communication Modulation,Coding,Analytical Techniques

$49.99

View Details
Descartes: An Analytical and Historical Introduction - Paperback - GOOD
Descartes: An Analytical and Historical Introduction - Paperback - GOOD

$16.63

View Details
Modern Geometries: The Analytic Approach - Hardcover - VERY GOOD
Modern Geometries: The Analytic Approach - Hardcover - VERY GOOD

$11.76

View Details
Analytical Techniques In Biotechnology
Analytical Techniques In Biotechnology

$113.83

View Details
Laboratory Techniques in Organic Chemistry by Christina Hammond Paperback
Laboratory Techniques in Organic Chemistry by Christina Hammond Paperback

$49.75

View Details
Analytical Techniques (Biochemistry and Molecular Biology of Fishes V3) Elsevier
Analytical Techniques (Biochemistry and Molecular Biology of Fishes V3) Elsevier

$99.00

View Details
Analytical Techniques For Foods And Agricultural Products
Analytical Techniques For Foods And Agricultural Products

$384.43

View Details
Analytical Techniques For Financial Management J S Osteryoung, D E McCarty PB
Analytical Techniques For Financial Management J S Osteryoung, D E McCarty PB

$3.41

View Details
Environmental Sensing: Analytical Techniques For Earth Observation
Environmental Sensing: Analytical Techniques For Earth Observation

$59.58

View Details