This textbook is intended for post-graduate students in mechanical and allied engineering disciplines. It will also be helpful to scientists and engineers working in the areas of combustion to recapitulate the fundamental and generally applied aspects of combustion. This textbook comprehensively covers the fundamental aspects of combustion. It includes physical descriptions of premixed and non-premixed flames. It provides a detailed analysis of the basic ideas and design characteristics of burners for gaseous, liquid and solid fuels. A chapter on alternative renewable fuels has also been included to bring out the need, characteristics and usage of alternative fuels. Review questions have been provided at the end of each chapter which will help the students to evaluate their understanding of the important concepts covered in that chapter. Several standard text books have been cited in the chapters and are listed towards the end, as suggested reading, to enable the readers to refer them when required. The textbook will be useful for students in mechanical, aerospace and related fields of engineering. It will also be a good resource for professionals and researchers working in the areas of combustion technology.

Distillation & Hydrocarbon Processing Practices is a practical reference guide to the design and operations of hydrocarbon processing plants (refineries, petrochemical plants, and gas processing plants). Ashis Nag illustrates advanced practices in distillation with examples of process simulation and basic principles. Nag's extensive knowledge and more than 35 years of experience as an engineer supply the practical examples and design guidelines contained in this text. Its many case studies will assist engineering students as well as practicing engineers in understanding the inner workings at these complex facilities.

A Marginal Revolution Best Book of the Year Winner of the Shulman Book Prize A noted expert on Russian energy argues that despite Europe's geopolitical rivalries, natural gas and deals based on it unite Europe's nations in mutual self-interest. Three decades after the fall of the Berlin Wall and the breakup of the Soviet empire, the West faces a new era of East-West tensions. Any vision of a modern Russia integrated into the world economy and aligned in peaceful partnership with a reunited Europe has abruptly vanished. Two opposing narratives vie to explain the strategic future of Europe, one geopolitical and one economic, and both center on the same resource: natural gas. In The Bridge, Thane Gustafson, an expert on Russian oil and gas, argues that the political rivalries that capture the lion's share of media attention must be viewed alongside multiple business interests and differences in economic ideologies. With a dense network of pipelines linking Europe and Russia, natural gas serves as a bridge that unites the region through common interests. Tracking the economic and political role of natural gas through several countries-Russia and Ukraine, the United Kingdom, Germany, the Netherlands, and Norway-The Bridge details both its history and its likely future. As Gustafson suggests, there are reasons for optimism, but whether the "gas bridge" can ultimately survive mounting geopolitical tensions and environmental challenges remains to be seen.

Energy and Fuel Systems Integration explains how growing energy and fuel demands, paired with the need for environmental preservation, require different sources of energy and fuel to cooperate and integrate with each other rather than simply compete. Providing numerous examples of energy and fuel systems integration success stories, this book: Discusses the use of different mixtures of fuels for combustion, gasification, liquefaction, pyrolysis, and anaerobic digestion processes Describes the use of hybrid nuclear and renewable energy systems for power and heat cogenerations with nonelectrical applications Details the holistic integration of renewable, nuclear, and fossil energy systems by gas, heat, and smart electrical grids Energy and Fuel Systems Integration emphasizes the many advantages of these integrated systems, including sustainability, flexibility for optimization and scale-up, and more efficient use of storage, transportation, and delivery infrastructures.

This book highlights recent advancements in such an important topic, through contribution from experts demonstrating different applications in 'day-to-day' life, both existing and newly emerging biological technologies, and thought provoking approaches from different parts of the world, potential future prospects associated with some frontier development in non-conventional energy sources. It covers different aspects of cellulosic and lignocellulosic biomass; Cellulosics Biorefinery; Algal Biofuels; Biodiesel; Bioethanol; Microbial Fuel Cells; Biofuel cells; and biohydrogen production. This book is a comprehensive and informative compilation for international readers, especially undergraduate, post graduate students and researchers.

Natural Gas Hydrates, Fourth Edition, provides a critical reference for engineers who are new to the field. Covering the fundamental properties, thermodynamics and behavior of hydrates in multiphase systems, this reference explains the basics before advancing to more practical applications, the latest developments and models. Updated sections include a new hydrate toolbox, updated correlations and computer methods. Rounding out with new case study examples, this new edition gives engineers an important tool to continue to control and mitigate hydrates in a safe and effective manner.

Evo Morales, Bolivia's first Indigenous president, won reelection three times on a leftist platform championing Indigenous rights, anti-imperialism, and Bolivian control over the country's natural gas reserves. In Bolivia in the Age of Gas, Bret Gustafson explores how the struggle over natural gas has reshaped Bolivia, along with the rise, and ultimate fall, of the country's first Indigenous-led government. Rethinking current events against the backdrop of a longer history of oil and gas politics and military intervention, Gustafson shows how natural gas wealth brought a measure of economic independence and redistribution, yet also reproduced political and economic relationships that contradicted popular and Indigenous aspirations for radical change. Though grounded in the unique complexities of Bolivia, the volume argues that fossil-fuel political economies worldwide are central to the reproduction of militarism and racial capitalism and suggests that progressive change demands moving beyond fossil-fuel dependence and the social and ecological ills that come with it.

ACOUSTIC AND VIBRATIONAL ENHANCED OIL RECOVERY Oil and gas is still a major energy source all over the world, and techniques like these, which are more environmentally friendly and inexpensive than many previous development and production technologies, are important for making fossil fuels more sustainable and less hazardous to the environment. Based on research they did in the 1970s in Russia and the United States, the authors discovered that oil rate production increased noticeably several days after the occurrence of an earthquake when the epicenter of the earthquake was located in the vicinity of the oil producing field. The increase in oil flow remained higher for a considerable period of time, and it led to a decade-long study both in the Russia and the US, which gradually focused on the use of acoustic/vibrational energy for enhanced oil recovery after reservoirs waterflooded. In the 1980s, they noticed in soil remediation studies that sonic energy applied to soil increases the rate of hydrocarbon removal and decreases the percentage of residual hydrocarbons. In the past several decades, the use of various seismic vibration techniques have been used in various countries and have resulted in incremental oil production. This outstanding new volume validates results of vibro-stimulation tests for enhanced oil recovery, using powerful surface-based vibro-seismic sources. It proves that the rate of displacement of oil by water increases and the percentage of nonrecoverable residual oil decreases if vibro-energy is applied to the porous medium containing oil. Audience: Petroleum Engineers, Chemical Engineers, Earthquake and Energy engineers, Environmental Engineers, Geotechnical Engineers, Mining and Geological Engineers, Sustainability Engineers, Physicists, Chemists, Geologists, and other professionals working in this field

Carbon dioxide has been implicated in the global climate change, and CO2 sequestration is a technology being explored to curb the anthropogenic emission of CO2 into the atmosphere. The injection of CO2 for enhanced oil recovery (EOR) has the duel benefit of sequestering the CO2 and extending the life of some older fields. This volume presents some of the latest information on these processes covering physical properties, operations, design, reservoir engineering, and geochemistry for AGI and the related technologies.

Dynamic Description Technology of Fractured Vuggy Carbonate Gas Reservoirs delivers a critical reference to reservoir and production engineers on the basic characteristics of fractured vuggy gas reservoirs, combining both static and dynamic data to improve reservoir characterization accuracy and development. Based on the full lifecycle of well testing and advanced production decline analysis, this reference also details how to apply reservoir dynamic evaluation and reserve estimation and performance forecasting. Offering one collective location for the latest research on fractured gas reservoirs, this reference also covers physical models, analysis examples, and processes, 3D numerical well test technology, and deconvolution technology of production decline analysis. Packed with many calculation examples and more than 100 case studies, this book gives engineers a strong tool to further exploit these complex assets.

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.

As global consumption of fossil fuels such as oil increases, previously abundant sources have become depleted or plagued with obstructions. Asphaltene deposition is one of such obstructions which can significantly decrease the rate of oil production. This book offers concise yet thorough coverage of the complex problem of asphaltene precipitation and deposition in oil production. It covers fundamentals of chemistry, stabilization theories and mechanistic approaches of asphaltene behavior at high temperature and pressure. Asphaltene Deposition: Fundamentals, Prediction, Prevention, and Remediation explains techniques for experimental determination of asphaltene precipitation and deposition and different modeling tools available to forecast the occurrence and magnitude of asphaltene deposition in a given oil field. It discusses strategies for mitigation of asphaltene deposition using chemical inhibition and corresponding challenges, best practices for asphaltene remediation, current research, and case studies.

The precipitation and deposition of solids are a major challenge in the production of oil and gas. Flow assurance solids are formed because of unavoidable changes in temperature, pressure and composition of the oil-gas-water flowstream, from reservoir conditions to processing conditions. The advent of subsea production and the increased exploitation of heavy crudes have made flow assurance issues dominant in ensuring efficient and safe exploitation of hydrocarbon assets. Five troublesome flow assurance solids are described in the book: asphaltene, paraffin wax, natural gas hydrate, naphthenate and inorganic scale. These big-five solids are presented in stand-alone chapters. Each chapter is designed to be readable without clutter. Derivations of equations and descriptions of supporting details are given in several appendices. The book is intended for professional engineers and natural scientist working in E&P companies, engineering companies, service companies and specialized companies. An understanding of the big-five solids is required throughout the lifetime of oil and gas assets, from early development to abandonment. The technical, safety and environmental risks associated with deposition problems in near-wellbore formations, production tubing, wellhead equipment, flowlines and processing facilities, are relevant for decisions in the oil and gas industry and in outside regulatory and financial entities.

When oil and gas exploration was expanding across Aotearoa New Zealand, Patricia Widener was there interviewing affected residents and environmental and climate activists, and attending community meetings and anti-drilling rallies. Exploration was occurring on an unprecedented scale when oil disasters dwelled in recent memory, socioecological worries were high, campaigns for climate action were becoming global, and transitioning toward a low carbon society seemed possible. Yet unlike other communities who have experienced either an oil spill, or hydraulic fracturing, or offshore exploration, or climate fears, or disputes over unresolved Indigenous claims, New Zealanders were facing each one almost simultaneously. Collectively, these grievances created the foundation for an organized civil society to construct and then magnify a comprehensive critical oil narrative--in dialogue, practice, and aspiration. Community advocates and socioecological activists mobilized for their health and well-being, for their neighborhoods and beaches, for Planet Earth and Planet Ocean, and for terrestrial and aquatic species and ecosystems. They rallied against toxic, climate-altering pollution; the extraction of fossil fuels; a myriad of historic and contemporary inequities; and for local, just, and sustainable communities, ecologies, economies, and/or energy sources. In this allied ethnography, quotes are used extensively to convey the tenor of some of the country’s most passionate and committed people. By analyzing the intersections of a social movement and the political economy of oil, Widener reveals a nuanced story of oil resistance and promotion at a time when many anti-drilling activists believed themselves to be on the front lines of the industry’s inevitable decline.

How does fracking affect our children, grandchildren and future generations?
In "Just the Fracks Ma'am" Greg Kozera takes the mystery out of the fracking process. He explains a very technical process and issues associated with it in a way that they are easily understood by non-technical people. Greg is a master story teller and uses stories to make fracking understandable and his book memorable.

This comprehensive new dictionary comprises over 1300 definitions and brief articles to provide an extremely useful ready-reference work on solid, liquid and gaseous fuels, including information on the scenes of production of many fuels, such as major coal reserves and large oil and gas fields. Economics are addressed with entries included for all the major indices for oil, coal and natural gas pricing. The political perspective is also dealt with, covering the oil-producing countries and OPEC; environmental issues also feature, as do entries on chemical compounds, trade names, industrial processes and much more. The book carefully traces fuel usage since industrialisation with information provided on some 19th century events such as the Drake well. However, there is a correct balance of entries in terms of the periods to which they relate and thoroughly modern topics such as enhanced oil recovery are featured. Users of the Dictionary will gain an appreciation of the development of fuel and energy technology and sense the continuity or, in some cases, revival of ideas. As an example, what is now known as 'BTU conversion' and often treated as if it were novel is, in fact, a return to gasification technologies that were used a century or more ago! "The Dictionary of Energy and Fuels" is a reliable reference work on fuel and energy which will remain of great usefulness despite any future changes and trends in related technologies. This easy-to-use dictionary will be of great value to undergraduates, postgraduates and professionals in fuel technology, industrial chemistry, chemical and mechanical engineering and whenever a ready-reference on energy and fuels is required.

This book covers the major physical and mechanical processes that unfold during cementing and subsequent well service, and which can affect the well integrity. Focusing on the underlying physics, it concisely presents the central concepts of well cementing. The authors discuss the displacement of different fluids in the annulus, the mechanical stability of cement subject to varying downhole temperature, pressure and in-situ stresses, and the impact of defects on cement integrity under different mechanical and thermal loads over the course of the well's lifetime. The book identifies knowledge gaps and unresolved issues, and proposes new directions for future research and development. The book is a valuable resource for practising engineers in the oil and gas industry, academic and industrial researchers involved in oil and gas engineering, and to graduate students within this same sector.

'The book is clearly organized. Only important facts are addressed; the sequence of the chapters is logical, the text is well-written and therefore, very readable. In addition, the meaning of geoscientific terms is clearly explained. Definitions are provided in a glossary which is easy to use. It is an excellent tool, which will be of value and benefit to the global petroleum community. I am pleased to recommend it.'M L BordenaveMouvOil SAThis book covers the fundamentals of the earth sciences and examines their role in controlling the global occurrence and distribution of hydrocarbon resources. It explains the principles, practices and the terminology associated with the upstream sector of the oil industry. Key topics include a look at the elements and processes involved in the generation and accumulation of hydrocarbons and demonstration of how geological and geophysical techniques can be applied to explore for oil and gas. There is detailed investigation into the nature and chemical composition of petroleum, and of surface and subsurface maps, including their construction and uses in upstream operations. Other topics include well-logging techniques and their use in determining rock and fluid properties, definitions and classification of resources and reserves, conventional oil and gas reserves, their quantification and global distribution as well as unconventional hydrocarbons, their worldwide occurrence and the resources potentially associated with them. Finally, practical analysis is concentrated on the play concept, play maps, and the construction of petroleum events charts and quantification of risk in exploration ventures.As the first volume in the Imperial College Lectures in Petroleum Engineering, and based on a lecture series on the same topic, An Introduction to Petroleum Geoscience provides the introductory information needed for students of the earth sciences, petroleum engineering, engineering and geoscience.This volume also includes an introduction to the series by Martin Blunt and Alain Gringarten, of Imperial College London.

This title includes a number of Open Access chapters. The practice of converting corn to ethanol is controversial, with debates currently being raged in both public policy and science. While biofuels from corn have important implications in alleviating some of the global energy crisis, critics argue that it takes away from vital agricultural products needed to feed the world's growing population. The current volume maintains there is a third way, a method of producing biofuel that only uses biomass that is left behind after all agricultural and nutritional products have been harvested from corn. This biomass is referred to as corn stover. The book serves as an important introduction to this method of producing biofuels from agricultural waste. Edited by a professor from the State University of New York, Geneseo, this reference is important not only for research scientists, but for students and public policy makers who wish to learn more about this alternative method of producing ethanol from corn. The sections found in Fuel Production from Non-Food Biomass: Corn Stover describe the following topics: An overview of why corn stover is a good alternative use of power The technology that makes this process possible on various scales Considerations for policy formation, including economic, land-use, and environmental arguments for and against using corn stover as a biofuel Although controversy still exists about the use of corn stover-with some critics saying that it will cause food shortages, particularly for developing nations-the research in this book focuses on using corn's already existing, non-food biomass and argues that food and biofuel could potentially be produced from the same fields.

This title includes a number of Open Access chapters. As the world's energy hunger grows ever larger, fossil fuel reserves are diminishing-and concerns about climate change remind us that our love affair with fossil fuels cannot continue much longer. This has inspired intense research into sustainable energy sources. Biofuels seemed initially promising, but the world soon realized that food-based biofuel has its own dangers. Second-generation biofuels, however, use biomass from crops' inedible parts-such as the stalks and leaves of sugarcane-offering a far more practical, sustainable, and commercially viable solution. In this book, researchers from around the world review some of the most important and timely topics related to using sugarcane feedstock for biofuel. After a basic overview, topics such as these are included: Pretreatment methods The use of various microbial technologies, including bacteria and yeast, to enhance biofuel production Environmental impacts Economic feasibility The viability of electricity being produced side by side with biofuel Essential reading for graduate students and research scientists investigating second-generation biofuels, this book is also recommended for environmentalists, environmental engineers, and microbiologists.

Handbook of Refinery Desulfurization describes the operation of the various desulfurization process units in a petroleum refinery. It also explains the processes that produce raw materials for the petrochemical industry. It illustrates all the possible processes to lower the sulfur contents in petroleum and its fractions to decrease emissions of sulfur oxides. This book introduces you to desulfurization concepts, including biodesulfurization, as well as technology, giving guidance on how to accomplish desulfurization in various refining processes. It contains background chapters on the composition and evaluation of feedstocks and includes diagrams and tables of feedstocks and their respective produce. It also outlines how to decide which method should be employed to remove sulfur from different feedstocks. A practical and thorough discussion of the field, Handbook of Refinery Desulfurization gives you a strong grasp of the various processes involved with industrial desulfurization while giving you pointers on which procedures to use under certain conditions.

Anaerobic Digestion (AD) is used around the world to produce low CO2 energy and to make clean fertilisers with large, medium and small-scale plants common-place in Western Europe and USA.

There is over 100 million tonnes of agricultural and food waste produced each year in the UK, most of which is just that, waste. Anaerobic digestion, biogas and the heat and electricity that can be produced from it is still a nascent industry within the UK, yet a typical AD plant will recover its capital cost in the first 5 to 7 years.

The benefits of AD spread throughout the community:

• Farmers and eco-entrepreneurs: Offers good financial returns.
• Community Leaders: Helps meet various policies and legislative targets.
• Food processing industry: Offers an environmentally sensitive waste disposal option and avoids increasing landfill fees.
• Local community: Provides a local heat and power supply, creates employment opportunities and reduces farm odours.
• Environment: Reduces volumes of waste going to landfill and greenhouse gas emissions, as well as providing an organic fertiliser.

Although the process of AD is relatively simple there are several system options available to meet the demands of different feedstocks. This book describes, in simple, easy to read language the 5 common systems of AD; how they work, the impact of scale, the basic requirements, their costs and financial implications, and how to get involved in this promising green industry. "

High temperature, high oil pressure, oil and gas well completion testing have always been a technical challenge and basic theoretical research is one of the key factors needed to ensure a successful completion test. The completion test basic theory includes: a stress analysis of the completion string, completion string buckling behavior, and temperature and pressure distribution prediction. The completion string is the main bearing and power transmission component for oil and gas well operations and production, and it is required to take on a combination of loads, which result in completion string deformation. Because of these complex relationships, completion string stress analysis has become increasingly more complicated. This book discusses the characters of tubular strings in HTHP (High Temperature - High Pressure) oil and gas wells. These characters include the mechanical behavior of tubular strings and the temperature and pressure variation of tubular strings in different conditions. Mathematical models are established for different conditions and solution existence and uniqueness of some models is discussed, providing algorithms corresponding to the different models. Numerical experiments are presented to verify the validity of models and the feasibility of algorithms, and the impact of the parameters of models for oil and gas wells is also discussed. This book is written for production and testing engineers to provide them with the tools to deal more effectively with the numerical decisions they have to take and for researchers and technicians in petroleum and gas testing and production engineering. Finally, it is also intended to serve as a reference book for mathematicians, college teachers and students.

Constantly in the news and the subject of much public debate, fracking, as it is known for short, is one of the most promising yet controversial methods of extracting natural gas and oil. Today, 90 percent of natural gas wells use fracking. Though highly effective, the process-which fractures rock with pressurized fluid-has been criticized for polluting land, air, and water, and endangering human health. A timely addition to Oxford's What Everyone Needs to Know series, Hydrofracking tackles this contentious topic, exploring both sides of the debate and providing a clear guide to the science underlying the technique. In concise question-and-answer format, Alex Prud'homme cuts through the maze of opinions and rhetoric to uncover key points, from the economic and political benefits of fracking to the health dangers and negative effects on the environment. Prud'homme offers clear answers to a range of fundamental questions, including: What is fracking fluid? How does it impact water supplies? Who regulates the industry? How much recoverable natural gas exists in the U.S.? What new innovations are on the horizon? Supporters as diverse as President Obama and the conservative billionaire T. Boone Pickens have promoted natural gas as a clean, "21st-century" fuel that will reduce global warming, create jobs, and provide tax revenues, but concerns remain, with environmental activists like Bill McKibben and others leading protests to put an end to fracking as a means of obtaining alternative energy. Prud'homme considers ways to improve methods in the short-term, while also exploring the possibility of transitioning to more sustainable resources-wind, solar, tidal, and perhaps nuclear power-for the long term. Written for general readers, Hydrofracking clearly explains both the complex science of fracking and the equally complex political and economic issues that surround it, giving readers all the information they need to understand what will no doubt remain a contentious issue for years to come.

Provides an overview of the different pathways to produce Synthetic Natural Gas * Covers technological, and economic aspects of this Synthetic Natural Gas * Details the most popular technologies and state-of-the-art of SNG technologies while also covering recent and future research trends * Covers the main process steps during conversion of coal and dry biomass to SNG: gasification, gas cleaning, methanation and gas upgrading * Describes a number of novel processes for the production of SNG with their specific combination of process steps as well as the boundary conditions * Covers important technical aspects of Power-to-Gas processes