This book is a product of investigations conducted within the Global Utility Research Unit (Guru) of Agici Corporate Finance (Milan, Italy). More specifically, it is the result of a project developed by the Observatory on Alliances and Strategies in the Pan-European Utility Market set-up seven years ago with the contribution of Accenture. The project, entitled "Pan-European Gas Industry Scenario - Truth and Lies," was presented at the 2008 Milan annual international conference (www. agici. it). I would therefore like to thank Luca Cesari, Claudio Arcudi and Massimo Pagella from Accenture for their continued support. The scope of this book is to shed some light on a market, that of natural gas, which is highly complex and at the same time of fundamental importance for Europe for at least the next 20 years. We do not intend to build a theory but only to develop a better understanding of the key factors. We fully recognise that the each of the issues we cover deserves further investigation and we are also well aware that we may have omitted a number of important considerations and topics. These shortcomings are - at least in part - justified by the desire to keep the book to a r- sonable size for editorial reasons.

This completely revised and enlarged second edition provides an up-to-date overview of all major topics in sedimentary geology. It is unique in its quantitative approach to denudation-accumulation systems and basin fillings, including dynamic aspects. The relationship between tectonism and basin evolution as well as the concepts of sequence cycle and event stratigraphy in various depositional environments are extensively discussed. Numerous, often composite figures, a well-structured text, brief summaries in boxes, and several examples from all continents make the book an invaluable source of information for students, researchers and professors in academia as well as for professionals in the oil industry.

It is with great satisfaction and personal delight that I can write the foreword for this book Fundamentals of Basin and Petroleum Systems Modeling by Thomas Hantschel and Armin Ingo Kauerauf. It is a privilege for us geosci- tists that two outstanding physicists, with scienti?c backgrounds in numerical methods of continuum-mechanics and in statistical physics respectively could be won to deeply dive into the numerical simulation of complex geoprocesses. ThekeeninterestinthegeosciencesofThomasHantschelandArminI.Kau- auf and their patience with more descriptive oriented geologists, geochemists, sedimentologists and structural geologists made it possible to write this book, a profound and quantitative treatment of the mathematical and physical - pects of very complex geoprocesses. In addition to their investigative int- est during their patient dialogue with afore mentioned geological specialists Thomas Hantschel and Armin I. Kauerauf gained a great wealth of practical experience by cooperating closely with the international upstream petroleum industry during their years with the service company IES, Integrated Exp- ration Systems. Their book will be a milestone in the advancement of modern geosciences. Thescienti?candthepracticalvalueofmoderngeosciencesreststoalarge degree upon the recognition of the complex interrelationship of individual processes, such as compaction, heat-, ?uid- and mass-?ow, reaction kinetics etc. and upon the sequential quanti?cation of the entire process chain. The intelligent usage of modern high speed computers made all this possible.

We both found ourselves working on water-soluble polymers for oil recovery in the early 1980' s. Our previ ous backgrounds i nvo 1 ved the synthesi sand characteri zati on of hydrocarbon polymers for everythi ng from elastomers to plastics. As such, we were largely unprepared for the special difficulties associated with water soluble polymers in genera 1, and thei ruse in enhanced oi 1 recovery (EOR) , in parti cul ar. Oil patch applications have a jargon and technical heritage quite apart from that usually experienced by traditional polymer scientists. At that time, no books were available to help us "get up to speed" in the polymers for oil recovery field. Since then, there have been a number of symposia on this topic, but still few books, especially from the polymer (rather than the field-applications) perspective. Synthetic water soluble/swellable polymers have commercial importance in such application as water treatment, cosmetics, and foods. Yet, these polymers have not received the scientific/technological attention they deserve. The application of water soluble polymers to oil recovery has, in fact, highlighted the need for new water based materials, and a fundamental understanding of their structure and use. Interest has been spurred not only for the potenti a 1 economi c credi ts from enhanced oi 1 recovery and an augmented polymers business, but also by the challenge of designing water soluble polymers for harsh environments.

Gas turbines play an important role in power generation and aeroengines. An extended survey of methods associated with the control and systems identification in these engines, Dynamic Modelling of Gas Turbines reviews current methods and presents a number of new perspectives.

Describes a total modelling and identification program for various classes of aeroengine, allowing you to deal with the engine s behaviour over its complete life cycle.

Shows how the above regime can be applied to a real engine balancing the theory with practical use.

Follows a comparative approach to the study of existing and newly derived techniques thus offering an informed choice of controllers and models from the tried-and trusted to the most up-to-date evolutionary optimisation models.

Presents entirely novel work in modelling, optimal control and systems identification to help you get the most from your engine designs.

Dynamic Modelling of Gas Turbines represents the latest research of three groups of internationally recognised experts in gas turbine studies. It will be of interest to academics working in aeroengine control and to industrial practitioners in companies concerned with their design. The work presented here is easily extendible to be relevant in other areas in which gas turbines play a role such as power engineering.

The supply of petroleum continues to dwindle at an alarming rate, yet it is the source of a range of products - from gasoline and diesel to plastic, rubber, and synthetic fiber. Critical to the future of this commodity is that we learn to use it more judiciously and efficiently. Fundamentals of Petroleum and Petrochemical Engineering provides a holistic understanding of petroleum and petrochemical products manufacturing, presented in a step-by-step sequence of the entire supply chain. Filled with crucial information relevant to a range of applications, the book covers topics such as: The essential preliminaries for the exploration and production of crude petroleum oil and gas Analysis of crude oil and its petroleum products The processing of petroleum in refineries The fundamentals of lubricating oil and grease Petrochemicals - their raw materials and end products, and manufacturing principles of industrially important products Theories and problems of unit operations and the processes involved in refineries and petrochemical plants Automatic operations in plants Start up, shutdown, maintenance, fire, and safety operations Commercial and managerial activities necessary for the ultimate success of a refining or manufacturing business Due to the advancement of technology, new petrochemicals are being invented and will continue to be relevant to the petroleum industry in the near future. Those entering the industry need a firm grasp of the basics as the field continues to open up new avenues of possibility, while at the same time being cognizant of the challenges that exist through the heightened focus on sustainable energy.

Refiners' efforts to conform to increasingly stringent laws and a preference for fuels derived from renewable sources have mandated changes in fluid cracking catalyst technology. Advances in Fluid Catalytic Cracking: Testing, Characterization, and Environmental Regulations explores recent advances and innovations in this important component of petroleum refining technology and evaluates how the industry has been changed by environmental regulations worldwide. Measurement, testing, and improvement Modern spectroscopic techniques continue to be essential to the understanding of catalyst performance and feedstock properties. The book contains a detailed review of the use of adsorption microcalorimetry to measure acidity, acid site density, and the strength of the strongest acid sites in heterogenous catalysts. It also discusses the use of 1H-NMR to characterize the properties of a FCCU feedstock. In addition, the book dedicates several chapters to pilot plant testing of catalysts and nontraditional feedstocks, maximizing and improving LCO (heating oil) production and quality, and improving FCCU operations. Complying with the EPA The EPA has identified the petroleum refining industry as a targeted enforcement area for the Clean Air Act (CAA) passed in 1970 and the CAA Amendments of 1990. The final chapters of the book examine the evolution of the EPA's attempts to encourage the refining industry to enter into voluntary consent decrees to comply with the CAA and the 1990 amendments. The book describes consent decree negotiations as well as FCC emissions (SOx, NOx, CO, PM) reduction technologies through consent decree implementations. Containing contributions from a panel of worldwide experts, the book demonstrates how the global shift toward environmentalism has engineered significant changes in the petroleum refining industry at a critical level.

There continues to be widespread interest in the applications of hydrogen as a clean fuel and its potential for local electricity production and use in transport. Recent years have seen a variety of breakthroughs in our understanding of the nature, structure, and biosynthesis of hydrogenases. This book is a timely description of these developments, taking a lucid, multidisciplinary approach. Scientists in fields, such as clean technology, biochemistry, electrochemistry, agriculture, and general biotechnology, will find this an accessible resource that brings together the many facets of these enzymes.

Geopressure drives fluid flow and is important for hydrocarbon exploration, carbon sequestration, and designing safe and economical wells. This concise guide explores the origins of geopressure and presents a step-by-step approach to characterizing and predicting pressure and least principal stress in the subsurface. The book emphasizes how geology, and particularly the role of flow along permeable layers, drives the development and distribution of subsurface pressure and stress. Case studies, such as the Deepwater Horizon blowout, and laboratory experiments, are used throughout to demonstrate methods and applications. It succinctly discusses the role of elastoplastic behaviour, the full stress tensor, and diagenesis in pore pressure generation, and it presents workflows to predict pressure, stress, and hydrocarbon entrapment. It is an essential guide for academics and professional geoscientists and petroleum engineers interested in predicting pressure and stress, and understanding the role of geopressure in geological processes, well design, hydrocarbon entrapment, and carbon sequestration.

Pipes are of major importance for transport of liquids and gas mainly for water, natural gas and oil. The total length of gas pipes in the world is estimated at one million kilometres for gas transport (pipes with a diameter of 80 to 1000 mm). Pipelines remain the least expensive transcontinental mean of transport compared to rail-bound or terrestrial transport. It has become increasingly paramount to ensure the safe utilisation of such plant in order to prevent economical, social and ecological losses. From a technical point of view, pipelines are complicated three dimensional structures that include straight pipes, nozzles, pipe-bends, dissimilar welded joints, etc. In addition, their operating conditions can be quite severe, that is, internal pressure and cyclic loading (vibration) combined with the influence of internal and external corrosive environments. The external defects, e.g., corrosion defects, gouge, foreign object scratches, and pipeline erection activities are major failure reasons of gas pipelines. All these types of defects and associated failure are described.

Leak and fracture of pipes is assumed to be done by initiation and propagation of defect and final failure when defect has reached a critical length.

In this book, the three two major defect assessment tools for pipes are presented:

i) the failure assessment diagram and particularly the SINTAP procedure,

ii) limit analysis,

iii) strain design approach

Methods of defect repair are based on investigation findings. Methods such as welded sleeve, repair clamp composite sleeve, grinding, pipe replacement are described.

This practical guide to bioremediation in cold regions is designed to aid environmental practitioners, industry, and regulators in the remediation of petroleum spills and contaminated sites in cold regions. Remediation design and technology used in temperate climates does not necessarily work in cold climates, and cleanup takes longer due to shorter treatment seasons, sub-freezing temperatures, ground freezing and thawing, and limited bioactivity. Environmental engineers and scientists from eight countries working in the polar regions combine their experiences and expertise with petroleum contamination to write this book. It contains in-depth discussions on regulations, freezing and frozen ground, identification and adaptations of cold-tolerant bacteria, contaminant transport in cold soils and permafrost, temperature effects on biodegradation, analytical methods, treatability studies, and nutritional requirements for bioremediation. Emphasis is given to practical and effective bioremediation methods for application in cold regions. Emerging technologies are also discussed.

Seismic hazard and risk analyses underpin the loadings prescribed by engineering design codes, the decisions by asset owners to retrofit structures, the pricing of insurance policies, and many other activities. This is a comprehensive overview of the principles and procedures behind seismic hazard and risk analysis. It enables readers to understand best practises and future research directions. Early chapters cover the essential elements and concepts of seismic hazard and risk analysis, while later chapters shift focus to more advanced topics. Each chapter includes worked examples and problem sets for which full solutions are provided online. Appendices provide relevant background in probability and statistics. Computer codes are also available online to help replicate specific calculations and demonstrate the implementation of various methods. This is a valuable reference for upper level students and practitioners in civil engineering, and earth scientists interested in engineering seismology.

"Explores Worldwide Trends Involving the Production and Use of Biofuels"

With the depletion of oil resources as well as the negative environmental impact of fossil fuels, there is much interest in alternative energy sources. Focusing on some of the most important alternate energy sources for the foreseeable future, the Handbook of Plant-Based Biofuels provides state-of-the-art information on the status of the production of biofuels, in particular, bioethanol and biodiesel.

"Introduction to Biofuels"

After profiling plant-based biofuels, the book gives an overview of the production of biofuels from biomass materials by thermochemical and biochemical methods. It examines the thermochemical conversion of biomass to liquids and gaseous fuels.

"Production of Bioethanol"

The handbook then analyzes current biomass-to-ethanol programs, followed by a discussion on ethanol fermentation from molasses and process practices applied for the improvement of ethanol production by ethanologenic microorganisms. It also explains the hydrolysis and fermentation of ethanol from starchy and lignocellulosic biomasses.

"Production of Biodiesel"

In the final chapters, the contributors discuss current perspectives and the future of biodiesel production. They explore biodiesel production substrates, the lipase-catalyzed preparation of biodiesel, and biodiesel production with supercritical fluid technologies.

A clear presentation of the various aspects of petroleum analysis

Petroleum exhibits a wide range of physical properties. Numerous tests have been and continue to be developed to provide an indication of the means by which a particular feedstock should be processed. An initial inspection of the nature of petroleum provides deductions about the most logical means of refining and classifying. Handbook of Petroleum Analysis is a single, comprehensive source that describes the application and interpretation of data resulting from various test methods for petroleum feedstocks and products.

The need for the application of analytical techniques to petroleum has increased over the past three decades due to changes in feedstock composition. Handbook of Petroleum Analysis deals with the various aspects of petroleum analysis while providing a detailed explanation of the necessary standard tests and procedures that are applicable to feedstocks. The material also reviews the application of new methods for determining instability and incompatibility, focusing on the analytical methods related to environmental regulations. Most importantly, the book provides details of the meanings of the various test results and how they might be applied to predict feedstock behavior. Where pertinent, new tests that are not yet accepted as standardized are described.

Topics covered in Handbook of Petroleum Analysis include:

• Chemical composition

• Physical, thermal, electrical, and optical property testing methods

• Spectroscopic, chemical, fractionation, and chromatographic methods

• Molecular weight

• Use of the data (i.e., mapping and predictability)

Handbook of Petroleum Analysis promotes a better understanding of the criteria affecting the quality of petroleum and petroleum products and is a valuable resource for chemists and engineers in the refining industry.

As a follow-up to the Handbook of Gasification Technology, also from Wiley-Scrivener, Synthesis Gas goes into more depth on how the products from this important technology can reduce our global carbon footprint and lead the United States, and other countries, toward energy independence. The environmental benefits are very high, and, along with carbon capture and renewable fuels, synthesis gas (or syngas) is a huge step toward environmental sustainability. Synthesis gas is one of the most important advancements that has ever occurred in energy production. Using this technology, for example, coal, biomass, waste products, or a combination of two or more of these can be gasified into a product that has roughly half the carbon footprint of coal alone. Used on a massive scale, just think of the potential for reducing carbon emissions!Synthesis Gas covers all aspects of the technology, from the chemistry, processes, and production, to the products, feedstocks, and even safety in the plant. Whether a veteran engineer or scientist using it as a reference or a professor using it as a textbook, this outstanding new volume is a must-have for any library.

Can "green petroleum" reverse global warming and bring down high gasoline prices? Written in non-technical language for the layperson, this book investigates and details how the oil and gas industry can "go green" with new processes and technologies, thus bringing the world's most important industry closer to environmental and economic sustainability.

Data-driven analytics is enjoying unprecedented popularity among oil and gas professionals. Many reservoir engineering problems associated with geological storage of CO2 require the development of numerical reservoir simulation models. This book is the first to examine the contribution of artificial intelligence and machine learning in data-driven analytics of fluid flow in porous environments, including saline aquifers and depleted gas and oil reservoirs. Drawing from actual case studies, this book demonstrates how smart proxy models can be developed for complex numerical reservoir simulation models. Smart proxy incorporates pattern recognition capabilities of artificial intelligence and machine learning to build smart models that learn the intricacies of physical, mechanical and chemical interactions using precise numerical simulations. This ground breaking technology makes it possible and practical to use high fidelity, complex numerical reservoir simulation models in the design, analysis and optimization of carbon storage in geological formations projects.

Petroleum and natural gas still remain the single biggest resource for energy on earth. Even as alternative and renewable sources are developed, petroleum and natural gas continue to be, by far, the most used and, if engineered properly, the most cost-effective and efficient, source of energy on the planet. Contrary to some beliefs, the industry can, in fact, be sustainable, from an environmental, economic, and resource perspective. Petroleum and natural gas are, after all, natural sources of energy and do not have to be treated as pariahs. This groundbreaking new text describes hydrocarbons in basement formations, how they can be characterized and engineered, and how they can be engineered properly, to best achieve sustainability. Covering the basic theories and the underlying scientific concepts, the authors then go on to explain the best practices and new technologies and processes for utilizing basement formations for the petroleum and natural gas industries. Covering all of the hottest issues in the industry, from oil shale, tar sands, and hydraulic fracturing, this book is a must-have for any engineer working in the industry. This textbook is an excellent resource for petroleum engineering students, reservoir engineers, supervisors & managers, researchers and environmental engineers for planning every aspect of rig operations in the most sustainable, environmentally responsible manner, using the most up-to-date technological advancements in equipment and processes.

Prof. Dr. -Ing. Wolfgang Spyra Brandenburg University of Technology in Cottbus, Germany The demilitarization and conversion of military properties wor- wide has been a topic of growing importance since the end of the Cold War. The slowing of the arms race brought on by weapons treaties and relaxed tensions between NATO and Warsaw Pact nations caused sto- piles of conventional weapons to become superfluous. The need to process and dispose of such weapons began more quickly in NATO countries. This demilitarization process began shortly after the reunification of Germany and was largely completed by the mid to late 1990's. The remaining process, no small task in itself, of converting lands formerly used by the military into safe and environmentally acceptable landscapes may continue for decades to come. Due to a lack of resources and technology, the process of demilitarization in the former Warsaw Pact countries has launched more slowly. In 2002 both Georgia and Moldova finished projects which destroyed their stocks of liquid ballistic missile components. Both these projects were carried out through the cooperative support of trans-national organizations, private contractors, and research institutions. The Republic of Azerbaijan now finds itself at the beginning of its demilitarization process. Stored at the country's military depots are over 2000 tons of missile fuels, oxidizer, and chemical additives. This hazardous waste is kept in tanks intended only for temporary transport and storage.

This book is on oil and natural gas well logging, and is based on the author's lectures at the University of Southern California. The first seven chapters discuss logging techniques and devices: spontaneous potential, gamma rays, resistivity, density, neutron logs, and acoustic logs. The remaining chapters discuss the various methods for integrating and analyzing this data.

The most comprehensive and up-to-date treatment of all the possible aspects for biofeedstock processing and the production of energy from biofeedstocks Biofuels production is one of the most extensively studied fields in the energy sector that can provide an alternative energy source and bring the energy industry closer to sustainability. Biomass-based fuel production, or renewable fuels, are becoming increasingly important as a potential solution for man-made climate change, depleted oil reserves, and the dangers involved with hydraulic fracturing (or "fracking"). The price of oil will always be volatile and changeable, and, as long as industry and private citizens around the world need energy, there will be a need for alternative energy sources. The area known as "biofuels and biofeedstocks" is one of the most important and quickly growing pieces of the "energy pie." But biofuels and biofeedstocks are constantly changing, and new processes are constantly being created, changed, and improved upon. The area is rapidly changing and always innovative. It is important, therefore, that books like the volumes in this series are published and the information widely disseminated to keep the industry informed of the state-of-the-art. This first volume in this groundbreaking new series is a collection of papers from some of the world's foremost authorities on biofeedstocks and biofuels, covering biofeedstocks and how they are processed. It is a must-have for any engineer, scientist, technician, or student working in this area. This initial volume in the Advances in Biofeedstocks and Biofuels series: * Covers all the aspects of biofeedstocks and their suitability as an alternative energy source * Covers all the updated protocols for biofeedstock processing * Is the only book covering biofeestocks and their processes in such a comprehensive manner, including biodiesel, bioethanol, biomass, and the future of bioenergy * Is suitable not only for the engineer working with biofeedstocks, but as a textbook for graduate students, post-doctoral students, and researchers

Most of the world's energy still comes from fossil fuels, and there are still many strides being made in the efficiency and cost effectiveness of extracting these important and increasingly more elusive natural resources. This is only possible if the nature of the emergence, evolution, and parameter estimation of high grade reservoir rocks at great depths is known and a theory of their forecast is developed. Over 60 percent of world oil production is currently associated with carbonate reservoir rocks. The exploration, appraisal and development of these fields are significantly complicated by a number of factors. These factors include the structural complexity of the carbonate complexes, variability of the reservoir rock types and properties within a particular deposit, many unknowns in the evaluation of fracturing and its spatial variability, and the preservation of the reservoir rock qualities with depth. The main objective of most studies is discovering patterns in the reservoir rock property changes of carbonate deposits of different genesis, composition and age. A short list of the unsolved issues includes: the role of facies environment in the carbonate formation; the major geologic factors affecting the formation of high-capacity reservoir rocks and preservation of their properties; recommendations as to the use of the new techniques in studies of the structural parameters; and establishing a correlation between the major evaluation parameters. The focus of this volume is to show the scientific and engineering community a revolutionary process. The author perfected an earlier developed methodology in studies of the void space structure (Bagrintseva's method, 1982). This methodology is based on carbonate rock saturation with luminophore and on special techniques in processing of photographs made under UV light. The luminophore technique was combined with the raster electron microscopy and its variation, the studies under the cathode luminescence regime. This combination enabled a more detailed study of the reservoir void space, the nonuniformity in the open fracture evolution, their morphology, length and variability of openness. Over recent years these techniques have found wide application. Useful for the veteran engineer or scientist and the student alike, this book is a must-have for any geologist, engineer, or student working in the field of upstream petroleum engineering.

The perfect primer for both the layperson and the engineer, for the new hire and the old hand, describing, in easy-to-understand language, one of the biggest and most lucrative industries in the world. There is only one substance known to mankind that can cause wars, influence global economies, and make entire countries rich: petroleum. One teaspoon of the stuff carries enough energy to power a ton truck up a hill. It's in the news every single day, it influences our lives in ways that we cannot fathom, and it is the most important commodity in the world. But how much does the average person, even the average engineer, know about it? This book describes the petroleum industry, in easy-to-understand language, for both the layperson and engineer alike. From the economics of searching for oil and gas to the pitfalls of drilling and production, getting it out of the ground, into pipelines, into refineries, and, finally, into your gas tank, this book covers the petroleum industry like no other treatment before. There is coverage of pricing and the economics of this very important resource, as well, which is useful not only to engineers, but to economists and, really, anyone who uses it. From jet fuel to gasoline to natural gas and plastics, petroleum is one of the integral products of our lives. We are practically bathed it in from birth, our food is protected by it, and it even has healing properties. Learn all about this incredible substance and its fascinating history and highly debated future. An Introduction to Petroleum Technology, Economics, and Politics: * Gives a thorough summary of the petroleum and natural gas industry, from prospect to production to pipeline * New technologies, such as directional and underbalanced drilling, are covered, in easy-to-understand language * Useful not only for newcomers and laypersons, but for engineers and students, particularly those for whom English is a second language * Examines the basics of pricing and valuation

What lies beneath the ground? Our poor eyesight cannot penetrate even an inch into the soil, so for centuries, fortune-seekers have tried every way imaginable to see below the surface. Whether searching for mineral veins, groundwater, or buried treasure, people have looked for ways to avoid the plodding and backbreaking process of digging. They have followed dreams, seers, dowsing rods, and advice from the spirit world. When petroleum became an item of commerce, oil-hunters took to all these methods. Many built homemade inventions called doodlebugs, which they said could detect underground oil. It took a while, but science finally came up with its own toolbox of oil-finding methods in the early twentieth century. Finding oil is still expensive and risky, however. The old ways? They are mostly gone, but a few oil-dowsers still stride across fields with rod or pendulum, and no doubt people still consult dreams and psychics. And don’t pretend that you yourself haven’t wondered if that dowser might be onto something, or if that famous psychic can really tell where there is oil, or if that inventor stumbled onto a better way to detect underground oil. Of course you have. History is written by the victors, and scientists won over the oil industry—rightly so. But their accounts give short shrift to the rich history of less traditional ways to find oil. Although ignored, the records of nonscientific methods and their contributions to the oil business are well worthy of study. Lacking in science, they are rich in humanity. Return with us now to those thrilling days of yesteryear . . . wait, scratch that . . . these things are still going on. Join us in a visit to a place where dreams, seers, and spooks are taken seriously, where forked twigs dip toward oil pools and homemade oil-finding gizmos blink or beep with the promise of riches tucked just below the surface of the known world.

The petroleum industry is unique: it is an industry without which modern civilization would collapse. Despite the advances in alternative energy, petroleum's role is still central. Petroleum still drives economics, geopolitics, and sometimes war. The history of petroleum is, to some measure, the history of the modern world. This book represents a concise but complete one-volume reference on the history of the petroleum industry from pre-modern times to the present day, covering all aspects of business, technology, and geopolitics. The book also presents an analysis of the future of petroleum, and a highly useful set of statistical graphs. Anyone interested in the history, status, and outlook for petroleum will find this book a uniquely valuable first place to look. This new second edition incorporates all the revolutionary changes in the petroleum landscape since the first edition was published, including the boom in extraction of oil and gas from shale formations using techniques such as fracking and horizontal drilling. This second edition of Historical Dictionary of the Petroleum Industry contains a chronology, an introduction, appendixes, and an extensive bibliography. The dictionary section has over 500 cross-referenced entries on companies, people, events, technologies, countries, provinces, cities, and regions related to the history of the world's petroleum industry. This book is an excellent resource for students, researchers, and anyone wanting to know more about the petroleum industry.