This book focuses on pulverized coal particle devolatilization, ignition, alkali metal release behavior, and burnout temperature using several novel optic diagnostic methods on a Hencken multi-flat flame burner. Firstly, it presents a novel multi-filter technique to detect the CH* signal during coal ignition, which can be used to characterize the volatile release and reaction process. It then offers observations on the prevalent transition from heterogeneous ignition to hetero-homogeneous ignition due to ambient temperature based on visible light signal diagnostics. By utilizing the gap between the excitation energies of the gas and particle phases, a new low-intensity laser-induced breakdown spectroscopy (PS-LIBS) is developed to identify the presence of sodium in the particle or gas phase along the combustion process. For the first time, the in-situ verification of the gas phase Na release accompanying coal devolatilization is fulfilled when the ambient temperature is high enough. In fact, particle temperature plays a vital role in the coal burnout process and ash particle formation. The last part of the book uses RGB color pyrometry and the CBK model to study the char particle temperature on a Hencken burner. It offers readers valuable information on the technique of coal ignition and combustion diagnostics as well as coal combustion characteristics.

lysts using enzyme, microbial, and plantbiochemistriesand genetic engi- neeringand "ProcessingResearch" describedtheconversionofplantcom- ponentsviaintegrationofmicrobiology,biochemistry,andchemistrywith engineering, separations, and hybrid systems. The "Enzymatic Processes and Enzyme Production" session focused on the manufacture and use of enzymes. The"IndustrialChemicals"sessionemphasizedrecentdevelop- mentsintheintegratedproductionandscale-upofchemicalsfrombiologi- cal rather than petrochemical routes. Special interest was on separation methods and their integrationintonew fermentation orhybrid processes. 35 oral presentations, a roundtable The technical program consisted of forum, two special topic discussions, and a poster session of 135 posters. Wecontinuedasuccessfulinformalroundtableserieswith"Bioenergy and Bioproducts: Forum on Recent Government Initiatives," which dis- cussedthePresident'sExecutiveOrder, the BioenergyInitiative, the Tech- nology Roadmap for Renewables Vision 2020, and other thrusts. These eventscontinuethe strongindustrial focus and activeindustrialparticipa- tionintheorganizingcommittee. Thishasbecomeverypopularbecauseit allows industrialand government participants to speakmore openly. AspecialTopicsDiscussionGroupwasheldon"C0 Sequestration," 2 ledby James W. Lee. Another onwas held on "Commercializationof Bio- mass-to-Ethanol" where chairs Jack N. Saddler and David J. Gregg made thegoal ofthisworkshop to showparticipantsthatweare close to demon- stratingthe technicalviability ofanintegratedbiomass-to-ethanolprocess and that progressive technical advances and policy decisions will likely greatly enhance the economic attractiveness of the process.

This book presents selected articles from the workshop on "Challenges in Petrophysical Evaluation and Rock Physics Modeling of Carbonate Reservoirs" held at IIT Bombay in November 2017. The articles included explore the challenges associated with using well-log data, core data analysis, and their integration in the qualitative and quantitative assessment of petrophysical and elastic properties in carbonate reservoirs. The book also discusses the recent trends and advances in the area of research and development of carbonate reservoir characterization, both in industry and academia. Further, it addresses the challenging concept of porosity portioning, which has huge implications for exploration and development success in these complex reservoirs, enabling readers to understand the varying orders of deposition and diagenesis and also to model the flow and elastic properties.

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.

Engineering the physical, chemical, and energy properties of lignocellulosic biomass is important to produce high-quality consistent feedstocks with reduced variability for biofuels production. The emphasis of this book will be the beneficial impacts that mechanical, chemical, and thermal preprocessing methods can have on lignocellulosic biomass quality attributes or specifications for solid and liquid biofuels and biopower production technologies. "Preprocessing" refers to treatments that can occur at a distance from conversion and result in an intermediate with added value, with improved conversion performance and efficiency. This book explores the effects of mechanical, chemical, and thermal preprocessing methods on lignocellulosic biomass physical properties and chemical composition and their suitability for biofuels production. For example, biomass mechanical preprocessing methods like size reduction (which impacts the particle size and distribution) and densification (density and size and shape) are important for feedstocks to meet the quality requirements for both biochemical and thermochemical conversion methods like enzymatic conversion, gasification, and pyrolysis process. Thermal preprocessing methods like drying, deep drying, torrefaction, steam explosion, hydrothermal carbonization, and hydrothermal liquefaction effect feedstock's proximate, ultimate and energy property, making biomass suitable for both solid and liquid fuel production. Chemical preprocessing which includes washing, leaching, acid, alkali, and ammonia fiber explosion that can enable biochemical composition, such as modification of lignin and hemicellulose, and impacts the enzymatic conversion application for liquid fuels production. This book also explores the integration of these preprocessing technologies to achieve desired lignocellulosic biomass quality attributes for biofuels production.

Algae presents a viable biofuel alternative because the production of algae for fuel, unlike other agro-based biofuels, does not compete with food production. This book covers algae-based biofuel options and discusses the design and economic viability of algal bioenergy co-production concepts.

New materials hold the key to fundamental advances in energy conversion and storage, both of which are vital in order to meet the challenge of global warming and the finite nature of fossil fuels. Nanomaterials in particular offer unique properties or combinations of properties as electrodes and electrolytes in a range of energy devices. Supercapacitors have been widely acknowledged to be promising devices for energy storage. This book describes the latest progress in the discovery and development of nanoelectrolytes and nanoelectrodes for supercapacitor applications.

This book addresses the three basic areas of combustion toxicology: combustion of materials, assessment of the toxicity of smoke, and understanding of hazards to humans. It is based on the papers published in the Journal of Fire Sciences during 1983-1987.

This book explores the use of nanomaterials as diesel fuel additives. It extensively reviews the diesel engine characteristics and the most frequently used nanomaterials and nanofuels and discusses the practical issues regarding the viability of nanomaterials as fuel additives from technical, environmental, and human health viewpoints. Special attention is focused on questions related to the short-term use of nanomaterials in diesel engines, such as: * What are the most important nanomaterial activities in diesel engines? * What happens to nanomaterials at various stages, from the fuel tank to exhaust? * What are the effects of nanofuel usage on diesel engine characteristics? and * What are the effects of nanomaterials on diesel engine parts and systems? Given its scope, this book is a valuable resource for researchers and engineers in environmental science, mechanical engineering, and chemical engineering fields, as well as for advanced undergraduate and postgraduate students.

The book covers advances in hydrothermal reduction of CO2 into low-carbon fuels. It offers perspectives from chemical engineering, environmental chemicals, organic chemistry, inorganic chemistry, physical chemistry, geology and materials science. It addresses fundamentals and applications of hydrothermal chemical processes, associated materials, and technologies. It describes reduction with biomass and dissociation of water by solar energy-driven two-step process. Challenges and strategies are discussed to facilitate research and development.

Utah's Uinta Basin contains one of the largest oil shale resources in the United States. This book examines many of the issues surrounding oil shale development in the Uinta Basin. Focusing on research conducted by investigators associated with The University of Utah's Institute for Clean and Secure Energy (ICSE), the chapters in this book build on each other across a range of scales and of disciplines to present a comprehensive picture of the opportunities and challenges facing this nascent industry. Scales range from the molecular analysis of kerogen to the basin-scale analysis of oil shale geology. Legal, policy, geologic, chemical, economic, and engineering perspectives provide insight into the nature of the Uinta Basin oil shale resource and the potential costs (both financial and environmental) of its extraction. This book integrates the various analyses in two ways. First, the Skyline 16 oil shale core, which was drilled in the Uinta Basin as part of this research, was the source of samples for much of the work that is discussed in this book. Second, the latter chapters of this book incorporate models and data from the earlier chapters to (1) produce a suite of in situ simulation scenarios that study the effect of well arrangement on energy ratio and (2) evaluate costs and air quality issues associated with these scenarios.

This book offers meaningful insights into an impending challenge for the energy industry, namely the increasing role of asset management amongst the utilities' core operations. In the aftermath of energy digitalization, power and gas companies will be able to seize asset productivity-through risk-based operation and maintenance-and better balance capital and operational expenditures. By addressing the asset management of both power and gas infrastructures, and by adopting a comprehensive approach-including regulation and business models, as well as a solid technology background-this book offers a unique perspective on the energy utilities' transformation journey and the road to optimal decision-making for both asset portfolio expansion and replacement. The asset management end-to-end mission requires appropriate internal governance-depending on the business framework-and the development of decision aid models (for asset replacement and maintenance), supported on probabilistic risk and reliability indexes. This book advocates systematically digitalizing the power and gas assets, addressing both data governance and infrastructure, alongside real-time equipment condition monitoring. It also provides a meaningful methodology for designing data-centric asset management and predictive operation and maintenance, using artificial intelligence and engineering-based approaches. As such, it provides valuable strategy, methods and models-illustrated by case studies and proofs of concept-for a wide range of stakeholders, including utilities and industry professionals, regulators, policy-makers, researchers and students.

With petroleum prices spiraling upward, making synthetic fuels-or "synfuels"-from coal, natural gas, and biomass has become more economically competitive. Advanced energy companies now focus exclusively on alternative fuels, and many oil companies have programs dedicated to developing synthetic fuels. The Fischer-Tropsch process, which uses a collection of chemical reactions to convert mixtures of carbon monoxide and hydrogen into liquid hydrocarbons, is the studied method of choice for producing synthetic petroleum substitutes. Fischer-Tropsch Synthesis, Catalysts, and Catalysis: Advances and Applications began at a symposium held during the 248th American Chemical Society meeting, where high attendance demonstrated great interest in Fischer-Tropsch synthesis. The lively discussions that occurred led to the creation of this carefully constructed reference work. The contributors here have expanded and reorganized their presentations from the conference into thorough chapters that reflect the four key subject areas that dominated the presentations: Catalyst preparation and activation Catalyst activity and reaction mechanisms Catalyst characterization and related reactions Topics concerning commercializing the Fischer-Tropsch process While describing advances and exploring the potential of the Fischer-Tropsch process in the future of synthetic fuels, the research also demonstrates that several issues remain in producing increasingly active catalysts and more efficient reactor design. Covering recent developments in Fischer-Tropsch technology for renewable resources and green energy, this book is a significant contribution for researchers and practitioners concerned with the production of synthetic fuels. It explores new and sophisticated techniques while providing a look at the application of these advances to commercial processing conditions.

This textbook provides an excellent overview of the two most common uses of coal: combustion and gasification. The authors, experts in the fields of combustion, coal structure, and coal combustion modeling, present detailed yet easy to understand information on the properties of coal, combustion mechanisms of pulverized coal and small coal particles, combustion in fluidized beds and the gasification process. Unlike other books on the subject, industrial applications and environmental aspects are covered in detail.

There is a growing concern about fires in mines, coal mines in particular. Attempts are being made to improve mine fire combat efforts and their prevention, taking advantage of developments in the fields of science and technology. This book looks at those developments and their applications.

This book presents a thermodynamic and economic analysis of gas-gas systems in power plants, including combined heat and power systems, combined cooling, heat and power systems, hydrogen production facilities and compressed energy storage system. A configuration for high-temperature gas-cooled nuclear reactor is also used as a heat source for the cycle. The book compares different technologies, such as gas-steam and gas-gas systems, using optimized cases. It presents mathematical models that return optimal thermodynamic parameters of the cycles, and applies a novel continuous-time model in order to perform an economic analysis as well. This book utilizes numerous illustrations and worked examples to thoroughly explain the technologies discussed, making it relevant for researchers, market analysts, decision makers, power engineers and students alike.

Acknowledging the dearth of standardized data on the thermal behavior of natural and synthetic fuels, two widely respected experts in the field present 100 samples of organic substances characterized under identical conditions by thermogravimetry (TG) and differential thermal analysis (DTA) in addition to proximate analysis-providing accurate information essential in research and engineering applications related to fuel preparation. Discusses nonisothermal kinetic techniques, mathematical models, and other parameter estimation procedures that facilitate the extrapolation of results obtained under various conditions-including the Gaur and Reed method, an important advance in understanding the kinetics of thermal data Organizing thermograms by individual biomass components, Thermal Data for Natural and Synthetic Fuels helps engineers identify reaction mechanisms as well as determine kinetic parameters accurately optimize conditions to favor one reaction over another obtain and interpret TG-DTA figures on temperature and rates of heterogeneous reactions, as well as the dynamics involved compare samples by changing the TG operating conditions to reveal how parameters from particle size to heating rate affect the decomposition pattern of solid samples improve comprehension of quantitative derivations due to mass and heat transfer and much more Practical and accessible, Thermal Data for Natural and Synthetic Fuels is an excellent hands-on guide for chemical, petroleum, fuel, civil, environmental, and mining engineers; petroleum, fuel, physical, and analytical chemists; polymer and materials scientists; geologists; and graduate-level students in these disciplines.

This book mainly introduces an essential safety concept and procedure for electrical engineering in oil and gas field. It begins by providing broad guidelines for performing electrical safety and operability review (ELSOR), giving reader a general overview of the field. It subsequently verifies electrical distribution, overhead line and hazardous area classification safety analysis together with comparison of different international codes and standards with China national codes, to interpret different safety concepts from different countries for electrical engineering in oil and gas field. This unique and complete co-design safety analysis will greatly benefit international electrical engineers and operators of oil and gas fields. This book is with vivid flow chart, accurate table expressing the analysis logic method and exact illustrations of code and standard of different country and area. This book stresses the electrical design safety for surface facilities of oil and gas oil field and will benefit to engineer who works with oil and gas field surface facilities engineering.

Contents:
Strategic, economic and environmental issues for transportation fuels; performance of ethanol as a transportation fuel; biomass ethanol market forces; envirnomental impacts of biomass ethanol; biomas feedstock resources and composition; cellelases - structure; function and applications; biocatalyst development for ethanol production from cellulosic hydrolysates; pretreatment; cellulase production; cellulose conversion; hemicellulose conversion; advanced process options for ethanol production from biomass; review of pilot plant programs for conversion of lignocellulosic biomass to ethanol; methods for the chemical analysis of biomass; ethanol from corn - technology and economics.

This book explains the place of oil in the economic and political predicaments that now confront the West. Thompson explains the problems that the rising cost of oil posed in the years leading up to the 2008 crash, and the difficulties that a volatile oil market now poses to economic recovery under the conditions of high debt, low growth and quantitative easing. The author argues that the 'Gordian knot' created by the economic and political dynamics of supply and demand oil in the present international economy poses a fundamental challenge to the assumption of economic progress embedded in Western democratic expectations.

On Petrocultures brings together key essays by Imre Szeman, a leading scholar in the field of energy humanities and a critical voice in debates about globalization and neoliberalism. Szeman's most important and influential essays, in dialogue with exciting new pieces written for the book, investigate ever-evolving circuits of power in the contemporary world, as manifested in struggles over space and belonging, redefinitions of work and individual autonomy, and the deep links between energy use and climate change. These essays explore life lived in the twenty-first century by examining critically the vocabulary through which capitalism makes sense of itself, focusing on concepts like the nation, globalization, neoliberalism, creativity, and entrepreneurship. At the heart of the volume is the concept of "petrocultures," which demands that we understand a fundamental fact of modern life: we are shaped by and through fossil fuels. Szeman argues that we cannot take steps to address global warming without fundamentally changing the social, cultural, and political norms and expectations developed in conjunction with the energy riches of the past century. On Petrocultures maps the significant challenge of our dependence on fossil fuels and probes ways we might begin to leave petrocultures behind.

Harness State-of-the-Art Computational Modeling Tools Computational Modeling of Pulverized Coal Fired Boilers successfully establishes the use of computational modeling as an effective means to simulate and enhance boiler performance. This text factors in how computational flow models can provide a framework for developing a greater understanding of the underlying processes in PC boilers. It also provides a detailed account of the methodology of computational modeling of pulverized coal boilers, as well as an apt approach to modeling complex processes occurring in PC boilers in a manageable way. Connects Modeling with Real-Life Applications Restricted to the combustion side of the boiler (the authors assume some prior background of reaction engineering and numerical techniques), the book describes the individual aspects of combustion and heat recovery sections of PC boilers that can be used to further improve the design methodologies, optimize boiler performance, and solve practical boiler-related problems. The book provides guidelines on implementing the material in commercial CFD solvers, summarizes key points, and presents relevant case studies. It can also be used to model larger boilers based on conventional, super-critical, or ultra-super critical technologies as well as based on oxy-fuel technologies. Consisting of six chapters, this functional text: Provides a general introduction Explains the overall approach and methodology Explores kinetics of coal pyrolysis (devolatilization) and combustion and methods of its evaluation Presents computational flow modeling approach to simulate pulverized coal fired boiler Covers modeling aspects from formulation of model equations to simulation methodology Determines typical results obtained with computational flow models Discusses the phenomenological models or reactor network models Includes practical applications of computational modeling Computational Modeling of Pulverized Coal Fired Boilers explores the potential of computational models for better engineering of pulverized coal boilers, providing an ideal resource for practicing engineers working in utility industries. It also benefits boiler design companies, industrial consultants, R & D laboratories, and engineering scientists/research students.

This book comprehensively and systematically demonstrates the theory and practice of designing, synthesizing and improving the performance of fuels. The contents range from polycyoalkane fuels, strained fuels, alky-diamondoid fuels, hypergolic and nanofluid fuels derived from fossil and biomass. All the chapters together clearly describe the important aspects of high-energy-density fuels including molecular design, synthesis route, physiochemical properties, and their application in improving the aerocraft performance. Vivid schematics and illustrations throughout the book enhance the accessibility to the relevant theory and technologies. This book provides the readers with fundamentals on high-energy-density fuels and their potential in advanced aerospace propulsion, and also provides the readers with inspiration for new development of advanced aerospace fuels.

A research paper or graduate essay demonstrating weak English and poor formatting is likely to be rejected by an editor or marked down by an assessor; but why should these gaps in your English knowledge undermine your subject knowledge and skill as an engineer or student of the discipline? Written English: A Guide for Electrical and Electronic Students and Engineers is the first resource to work at the sentence level to resolve the English language problems facing international engineering students and scholars. Informed by hundreds of research papers and student essays, this valuable reference: Covers grammar essentials and key terms in the fields of electrical engineering, electronic engineering, and communication systems Uses real-world examples to reveal common mistakes and identify critical areas of focus Provides practical solutions to formatting, vocabulary, and stylistic issues Written English: A Guide for Electrical and Electronic Students and Engineers equips readers with the necessary knowledge to produce accurate and effective English when writing for engineering.