Fossilt brændsel: teknologi

Keep on running by clever burning! This book reports how humans created materials, machines and power plants with the help of fire and which fuels, with their advantages and disadvantages, they have used so far. "e;Climate rescuers"e; of all stripes, whether qualified for such challenge or not, want to eliminate the fire completely and replace it with electricity from photovoltaics and wind power.The book contains facts and evidence as to why solar panels and windmills cannot be sufficient to ensure all the world's energy needs. Neither combustion nor thermal engines are responsible for the environmental hazard till now, but the fuels they have received in the past. Let's feed the fire with nature-compatible fuels and let it unfold properly in very effective machines and systems! The book describes systematically and comprehensibly for everyone, thermodynamic laws and methods for the design of very efficient machines and drives, as well as regenerative, climate-neutral fuels. This lecture is highly recommended when seating in front of a fireplace or sitting beside a campfire.

This book is a useful guide for researchers involved in the technological innovation and production of shale gas exploration and development. It offers a thorough understanding of seismic technologies and their application in shale gas exploration and extraction.This book comprehensively and systematically presents the significance of seismic technologies in predicting shale gas sweet spots. It introduces state-of-the-art seismic-based prediction technologies as well as case studies showcasing their implementation in primary shale gas production areas in China. Innovativeness is one of the highlights of this book. Cutting-edge technologies, such as AI applied in identifying shale gas sweet spots, and achieving excellent results in shale gas production are presented.Readers will gain insights into the latest methodologies, models, and real-world examples, equipping them with the necessary tools to navigate the complex landscape of shale gas resources.

The subject of thermo-hydro-mechanical coupled processes in fractured rock masses has close relevance to energy-related deep earth engineering activities, such as enhanced geothermal systems, geological disposal of radioactive waste, sequestration of CO2, long-term disposal of waste water and recovery of hydrocarbons from unconventional reservoirs. Despite great efforts by engineers and researchers, comprehensive understanding of the thermo-hydro-mechanical coupled processes in fractured rock mass remains a great challenge. The discrete element method (DEM), originally developed by Dr. Peter Cundall, has become widely used for the modeling of a rock mass, including its deformation, damage, fracturing and stability. DEM modeling of the coupled thermo-hydro-mechanical processes in fractured rock masses can provide some unique insights, to say the least, for better understanding of those complex issues.The authors of this book have participated in various projects involving DEM modeling of coupled thermo-hydro-mechanical processes during treatment of a rock mass by fluid injection and/or extraction and have provided consulting services to some of the largest oil-and-gas companies in the world. The breadth and depth of our engineering expertise are reflected by its successful applications in the major unconventional plays in the world, including Permian, Marcellus, Bakken, Eagle Ford, Horn River, Chicontepec, Sichuan, Ordos and many more. The unique combination of the state-of-the-art numerical modeling techniques with state-of-the-practice engineering applications makes the presented material relevant and valuable for engineering practice. We believe that it is beneficial to share the advances on this subject and promote some further development.

This book provides a state-of-the-art review of recent analytical developments on multi-outlets pipe flow hydraulics and alternative hydraulic design concepts. For this purpose, the book presents simple, but sufficiently accurate analytical equations, that can be applied directly without needing any numerical technique to achieve whole hydraulic computations. The analytical procedures explained here give an opportunity for designers to better understand the basic hydraulic principles of multi-outlet pipe flow, and demonstrate their applicability and efficiency to design problems of multi-outlet sub-main lines, covering various design configurations.

Storage Tanks Selection, Design, Testing, Inspection, and Maintenance: Emission Management and Environmental Protection provides the latest research and technological advancements in storage tank design, including materials selection, welding, and techniques used order to reduce or prevent emissions. This book details essential information regarding inspections, testing, and maintenance that are performed to prevent the failure of storage tanks. The book also explores the different types of storage tank emissions and provides recommendations for the preventive, as well as safety systems, that are critical to minimize the failure of storage tanks. Researchers, engineers, industry professionals, and students in the environmental safety field will find this book to be a welcomed resource for learning about and working on storage tank emissions in the oil and gas industries.

Interfacial Science for Geosystems Engineers provides geoscientists the connections between the nano-scale physico-chemical interactions between fluids and minerals and the core/field-scale observations to manage energy extraction, water resources and subsurface storage, timely topics central to the energy transition. Packed with latest research and recent developments, chapter learning objectives, and illustrative diagrams, tables and charts throughout, this specialized volume will help geosystems engineers tackle the above challenges, by systematically going through the basics of surface and interfacial tension, capillarity, surfactants, surface free energy, adsorption, electrokinetics, colloidal stability, equilibrium and stability of thin liquid films, wettability, microemulsions, emulsions and foams, and polymers for subsurface applications. Useful as a teaching, training or reference text, Interfacial Science for Geosystems Engineers prepares today's subsurface scientists and engineers to tackle two pressing problems in the energy transition, by introducing recent developments on how to remove CO2 from our environment and how to wean ourselves off fossil energy while meeting growing energy demands.

Distributed fiber optic strain measurements, revolutionizing subsurface monitoring and hydraulic fracture characterization, offers a resource for geophysicists, reservoir engineers, and completion engineers. This cutting-edge technology leads the way in innovation with its ability to detect rock deformation and changes in strain along optical fibers, providing exceptional spatial resolution and measurement sensitivity. Its applications are broad and impactful, ranging from monitoring subsurface carbon storage and enhancing geothermal systems to advancing unconventional reservoir development. Despite the technology's advancements, accurately interpreting data of strain measurement from the hydraulic fracturing process poses a significant challenge due to the complex conditions in the subsurface. This book presents a comprehensive approach for analyzing strain responses from both horizontal and vertical monitoring wells to quantify hydraulic fracture propagation and the evolution of fracture geometry. The development of a forward geomechanics model significantly enhance the understanding of the field data. The introduction of a groundbreaking inversion model allows for in-depth data analysis and maximizes the dataset's value. Moreover, this book applies its findings through two field studies in unconventional reservoirs, illustrating the practical application of the technology. These case studies highlight effective field data interpretation and the critical insights that can be obtained. This book aims to elucidate data interpretation and analysis of complex subsurface measurements related to hydraulic fracture propagation, providing engineers with a novel perspective on subsurface exploration.

The energy transition is underway to low carbon, and energy companies need a guide to navigate through the uncertainties while maintaining an agile workforce. Powering through the Transition: Navigating the Energy Sector's Biggest Change since the Discovery of Oil delivers key principles to achieve performance excellence for energy managers and engineers, utilizing cutting edge tools and techniques around lean, visual management, scrum, agile and margin improvement methods. Practical and user-friendly, the methods introduced are already showing successful tangible results with super major energy companies backed by the author's 25-year experience. Strong visual graphics through flow charts and graphical abstracts are included as well as smart deployment methods utilizing digital technology and multiskilling of personnel. Rounding out with a glossary of terms and practical examples, Powering through the Transition gives today's companies a plan to thrive in low carbon energy markets.

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention. Volume 5 titled Natural Gas Impurities and Condensates Removal comprehensively discusses related techniques for particulates like arsenic and condensates removal techniques from natural gas as well as mercury, nitrogen, and helium removal from natural gas by absorption, adsorption, cryogenic, and membrane-based processes.

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention. Volume 8 titled Natural Gas Process Modelling and Simulation discusses various aspects of natural gas related processes from modelling and simulation point of view. This includes modelling of natural gas sweetening, dehydration and other impurities removal processes and apparatus as well as simulation of processes and apparatus dealt with producing chemicals and energy from natural gas. The book introduces modelling and simulation of natural gas hydrate related processes and covers modelling basics, numerical approaches and optimization techniques, which provides a deeper understanding of the subject.

Advances in Natural Gas: Formation, Processing, and Applications. Volume 2: Natural Gas Sweetening comprises an extensive eight-volume series delving into the intricate realms of both the theoretical fundamentals and practical methodologies associated with the various facets of natural gas. Encompassing the entire spectrum from exploration and extraction to synthesis, processing, purification, and the generation of valuable chemicals and energy, these volumes also navigate through the complexities of transportation, storage challenges, hydrate formation, extraction, and prevention. In Volume 2 titled Natural Gas Sweetening, we delve into the intricacies of various natural gas sweetening methods. This book meticulously explores absorption techniques, employing a range of solvents like physical solvents, amine blends, encapsulated liquids, and more-a crucial aspect of the sweetening process. Additionally, it provides an insightful examination of natural gas sweetening through adsorption-based technologies, utilizing diverse materials such as zeolites, metal oxides, and silica-based sorbents. The volume further delves into membrane-based processes, featuring various types like ionic liquid and polymeric systems.

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention. Volume 4 titled Natural Gas Dehydration introduces in detail different natural gas dehydration methods. The book covers absorption with different solvents such as glycols, ionic liquids, and DES which is one of the important dehydration techniques, as well as natural gas dehydration with adsorption-based technologies utilizing various materials including zeolites, carbonaceous sorbents, metal oxides, etc. It discusses in detail membrane-based processes with various types (such as hollow-fiber and polymeric membranes) and includes novel technologies for sweetening natural gas by using supersonic technology.

Advances in Natural Gas: Formation, Processing, and Applications. Volume 1: Natural Gas Formation and Extraction comprises an extensive eight-volume series delving into the intricate realms of both the theoretical fundamentals and practical methodologies associated with various facets of natural gas. Encompassing the entire spectrum from exploration and extraction to synthesis, processing, purification, and the generation of valuable chemicals and energy, these volumes also navigate through the complexities of transportation, storage challenges, hydrate formation, extraction, and prevention. Volume 1, entitled Advances in Natural Gas: Formation, Processing, and Applications. Volume 1: Natural Gas Formation and Extraction, provides a detailed exposition of the characteristics and properties inherent to natural gas. This book navigates through diverse formation and synthesis techniques sourced from both nonrenewable origins, such as coal and oil shale, and renewable origins, encompassing biomass, sewage, algae, and food wastes as viable precursors for natural gas. The volume further delves into the intricacies of extraction methodologies applied across distinct reservoirs. Additionally, it systematically addresses the associated environmental challenges inherent to natural gas.

This book investigates how the EU member states¿ domestic energy policies have transformed in the last two decades as a consequence of horizontal and vertical integration forces. Integration is a dynamic process where member states adopt community rules, norms, and values, and meanwhile, learn from each other¿s experiences. Today, Europe experiences an energy transition from fossil-fuels to cleaner sources of energy and European policy makers are committed to taking this significant step forward. Domestic structural change is, thus, observed in all member states¿ environmental and energy policies. This book presents an overview of the EU norms, legislation, and policy standards for renewable energies and analyses how member states transpose them into their domestic structure. The book also analyses the policy outcomes in the EU member states in a comparative perspective by using the most recent statistical data. This comparative analysis gives insight to investors anddevelopers to decide on investment projects and/or manufacturing of renewable energy devices to these countries. It also provides a useful reference for policy makers, academics, students, and NGOs who need a quick overview of relevant national and EU legislation, policy standards, and policy outcomes.

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention. Volume 7 titled Natural Gas Products and Uses comprehensively discusses natural gas conversion and applications for producing high-value chemicals and energy which are accompanied with related economic analysis. The book covers various methods for producing valuable materials such as synthesis and fuel gases, alkanes, aromatics, sulphurs, etc. and introduces power and electricity generation as well as heat production from natural gas and their applications on future energy systems.

Advances in Natural Gas: Formation, Processing, and Applications is a comprehensive eight-volume set of books that discusses in detail the theoretical basics and practical methods of various aspects of natural gas from exploration and extraction, to synthesizing, processing and purifying, producing valuable chemicals and energy. The volumes introduce transportation and storage challenges as well as hydrates formation, extraction, and prevention. Volume 6 titled Natural Gas Transportation and Storage is separated into three sections. The first section discusses different natural gas transportation technologies (such as LNG, CNG, ANG, etc.). The second section introduces related apparatus for natural gas transportation and storage, including leak detection techniques, compressors, pumps, and cold energy recovery system. The last section explains challenges of natural gas transmission including inhibition of pipeline corrosion and wax deposition, pipeline cleaning challenges, accompanied with Modelling and simulation of multiphase high-pressure natural gas release from pipelines.

Advances in Natural Gas: Formation, Processing, and Applications. Volume 3: Natural Gas Hydrates comprises an extensive eight-volume series delving into the intricate realms of both the theoretical fundamentals and practical methodologies associated with the various facets of natural gas. Encompassing the entire spectrum from exploration and extraction to synthesis, processing, purification, and the generation of valuable chemicals and energy, these volumes also navigate through the complexities of transportation, storage challenges, hydrate formation, extraction, and prevention. In Volume 3 titled Natural Gas Hydrates, the fundamental aspects of natural gas hydrates, their associated disasters, and case studies are introduced. This book delves into the intricate details of hydrate structures, physio-chemical properties, and thermodynamics, offering a comprehensive understanding. This volume also explores hydrates as an energy source and covers their dissociation methods. A significant focus is placed on the challenges of natural gas hydrates formation in pipelines, accompanied by prevention techniques. Additionally, this book discusses the discovery and extraction of natural gas hydrates from oceans, shedding light on related geophysical indicators.

This monograph explores the potential of blockchain technology to facilitate the transition in the oil and gas (O&G) industry.As the world shifts towards a sustainable energy future, the oil and gas industry faces significant challenges and opportunities. Focusing on the development of a sustainable O&G industry, the book delves into the role of climate and financial markets in the energy sector, applications of blockchain in sustainable energy development, and the challenges of legal and regulatory issues in applying blockchain technology. It provides insight into how the energy industry is already working on reducing carbon emissions and paving the way to a sustainable future with detailed examples of reducing methane emissions, carbon credit markets, sustainable aviation fuels, and plastics. The book also examines how O&G companies could further their sustainability initiatives using blockchain technology for emission data monitoring, carbon capture, utilization, storage, and supply-chain management to develop clean products.