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Nuclear Physics 1: Nuclear Deexcitations, Spontaneous Nuclear Reactions
by Ibrahima SakhoThis book presents the foundations of nuclear physics, covering several themes that range from subatomic particles to stars. Also described in this book are experimental facts relating to the discovery of the electron, positron, proton, neutron and neutrino. The general properties of nuclei and the various nuclear de-excitation processes based on the nucleon layer model are studied in greater depth. This book addresses the conservation laws of angular momentum and parity, the multipolar transition probabilities E and M, gamma de-excitation, internal conversion and nucleon emission de-excitation processes. The fundamental properties of α and β disintegrations, electron capture, radioactive filiations, and Bateman equations are also examined. Nuclear Physics 1 is intended for high school physics teachers, students, research teachers and science historians specializing in nuclear physics.
Resilience: Persistence and Change in Landscape Forms
by Sandrine RobertThe articulation between persistence and change is relevant to a great number of different disciplines. It is particularly central to the study of urban and rural forms in many different fields of research, in geography, archaeology, architecture and history. Resilience puts forward the idea that we can no longer be truly satisfied with the common approaches used to study the dynamics of landscapes, such as the palimpsest approach, the regressive method and the semiological analysis amongst others, because they are based on the separation between the past and the present, which itself stems from the differentiation between nature and society. This book combines spatio-temporalities, as described in archeogeography, with concepts that have been developed in the field of ecological resilience, such as panarchy and the adaptive cycle. Thus revived, the morphological analysis in this work considers landscapes as complex resilient adaptive systems. The permanence observed in landscapes is no longer presented as the endurance of inherited forms, but as the result of a dynamic that is fed by this constant dialogue between persistence and change. Thus, resilience is here decisively on the side of dynamics rather than that of resistance.
Resilience: Persistence and Change in Landscape Forms
by Sandrine RobertThe articulation between persistence and change is relevant to a great number of different disciplines. It is particularly central to the study of urban and rural forms in many different fields of research, in geography, archaeology, architecture and history. Resilience puts forward the idea that we can no longer be truly satisfied with the common approaches used to study the dynamics of landscapes, such as the palimpsest approach, the regressive method and the semiological analysis amongst others, because they are based on the separation between the past and the present, which itself stems from the differentiation between nature and society. This book combines spatio-temporalities, as described in archeogeography, with concepts that have been developed in the field of ecological resilience, such as panarchy and the adaptive cycle. Thus revived, the morphological analysis in this work considers landscapes as complex resilient adaptive systems. The permanence observed in landscapes is no longer presented as the endurance of inherited forms, but as the result of a dynamic that is fed by this constant dialogue between persistence and change. Thus, resilience is here decisively on the side of dynamics rather than that of resistance.
Pharma and Profits: Balancing Innovation, Medicine, and Drug Prices
by John L. LaMattinaHigh-level commentary on various facets of the pharmaceutical industry from a key leader in the field This book clearly explains the value that the pharmaceutical industry offers to society which is often underreported against the more negative topic of high drug prices. It also offers an overview for drug discovery and development professionals, highlighting the challenges that such drug hunters should be aware of when developing new drugs. Case studies to illustrate topics like hepatitis C, mRNA vaccines, insulin, and price controls are included to aid in seamless reader comprehension. Written by John LaMattina, former president of Pfizer Global Research and Development and well-known speaker and writer for the pharma industry, sample topics covered and questions explored within the work include: Fiscal consequences of curing hepatitis C mRNA vaccines and the race for a cure Why the government does not deserve a piece of Biopharma’s profits Paying for drugs whose ultimate value is unknown The impact of reduced revenues on R&DThis book is a must-read for biopharmaceutical professionals and executives who wish to gain high-level insight into key challenges that must be first understood, then overcome, within the pharmaceutical industry.
Pharma and Profits: Balancing Innovation, Medicine, and Drug Prices
by John L. LaMattinaHigh-level commentary on various facets of the pharmaceutical industry from a key leader in the field This book clearly explains the value that the pharmaceutical industry offers to society which is often underreported against the more negative topic of high drug prices. It also offers an overview for drug discovery and development professionals, highlighting the challenges that such drug hunters should be aware of when developing new drugs. Case studies to illustrate topics like hepatitis C, mRNA vaccines, insulin, and price controls are included to aid in seamless reader comprehension. Written by John LaMattina, former president of Pfizer Global Research and Development and well-known speaker and writer for the pharma industry, sample topics covered and questions explored within the work include: Fiscal consequences of curing hepatitis C mRNA vaccines and the race for a cure Why the government does not deserve a piece of Biopharma’s profits Paying for drugs whose ultimate value is unknown The impact of reduced revenues on R&DThis book is a must-read for biopharmaceutical professionals and executives who wish to gain high-level insight into key challenges that must be first understood, then overcome, within the pharmaceutical industry.
John David Jackson: A Course in Quantum Mechanics
by John David JacksonA Course in Quantum Mechanics Unique graduate-level textbook on quantum mechanics by John David Jackson, author of the renowned Classical Electrodynamics A Course in Quantum Mechanics is drawn directly from J. D. Jackson’s detailed lecture notes and problem sets. It is edited by his colleague and former student Robert N. Cahn, who has taken care to preserve Jackson’s unique style. The textbook is notable for its original problems focused on real applications, with many addressing published data in accompanying tables and figures. Solutions are provided for problems that are critical for understanding the material and that lead to the most important physical consequences. Overall, the text is comprehensive and comprehensible; derivations and calculations come with clearly explained steps. More than 120 figures illustrate underlying principles, experimental apparatus, and data. In A Course in Quantum Mechanics readers will find detailed treatments of: Wave mechanics of de Broglie and Schrödinger, the Klein-Gordon equation and its non-relativistic approximation, free particle probability current, expectation values. Schrödinger equation in momentum space, spread in time of a free-particle wave packet, density matrix, Sturm-Liouville eigenvalue problem. WKB formula for bound states, example of WKB with a power law potential, normalization of WKB bound state wave functions, barrier penetration with WKB. Rotations and angular momentum, representations, Wigner d-functions, addition of angular momenta, the Wigner-Eckart theorem. Time-independent perturbation theory, Stark, Zeeman, Paschen-Back effects, time-dependent perturbation theory, Fermi’s Golden Rule. Atomic structure, helium, multiplet structure, Russell-Saunders coupling, spin-orbit interaction, Thomas-Fermi model, Hartree-Fock approximation. Scattering amplitude, Born approximation, allowing internal structure, inelastic scattering, optical theorem, validity criterion for the Born approximation, partial wave analysis, eikonal approximation, resonance. Semi-classical and quantum electromagnetism, Aharonov-Bohm effect, Lagrangian and Hamiltonian formulations, gauge invariance, quantization of the electromagnetic field, coherent states. Emission and absorption of radiation, dipole transitions, selection rules, Weisskopf-Wigner treatment of line breadth and level shift, Lamb shift. Relativistic quantum mechanics, Klein-Gordon equation, Dirac equation, two-component reduction, hole theory, Foldy-Wouthuysen transformation, Lorentz covariance, discrete symmetries, non-relativistic and relativistic Compton scattering.
John David Jackson: A Course in Quantum Mechanics
by John David JacksonA Course in Quantum Mechanics Unique graduate-level textbook on quantum mechanics by John David Jackson, author of the renowned Classical Electrodynamics A Course in Quantum Mechanics is drawn directly from J. D. Jackson’s detailed lecture notes and problem sets. It is edited by his colleague and former student Robert N. Cahn, who has taken care to preserve Jackson’s unique style. The textbook is notable for its original problems focused on real applications, with many addressing published data in accompanying tables and figures. Solutions are provided for problems that are critical for understanding the material and that lead to the most important physical consequences. Overall, the text is comprehensive and comprehensible; derivations and calculations come with clearly explained steps. More than 120 figures illustrate underlying principles, experimental apparatus, and data. In A Course in Quantum Mechanics readers will find detailed treatments of: Wave mechanics of de Broglie and Schrödinger, the Klein-Gordon equation and its non-relativistic approximation, free particle probability current, expectation values. Schrödinger equation in momentum space, spread in time of a free-particle wave packet, density matrix, Sturm-Liouville eigenvalue problem. WKB formula for bound states, example of WKB with a power law potential, normalization of WKB bound state wave functions, barrier penetration with WKB. Rotations and angular momentum, representations, Wigner d-functions, addition of angular momenta, the Wigner-Eckart theorem. Time-independent perturbation theory, Stark, Zeeman, Paschen-Back effects, time-dependent perturbation theory, Fermi’s Golden Rule. Atomic structure, helium, multiplet structure, Russell-Saunders coupling, spin-orbit interaction, Thomas-Fermi model, Hartree-Fock approximation. Scattering amplitude, Born approximation, allowing internal structure, inelastic scattering, optical theorem, validity criterion for the Born approximation, partial wave analysis, eikonal approximation, resonance. Semi-classical and quantum electromagnetism, Aharonov-Bohm effect, Lagrangian and Hamiltonian formulations, gauge invariance, quantization of the electromagnetic field, coherent states. Emission and absorption of radiation, dipole transitions, selection rules, Weisskopf-Wigner treatment of line breadth and level shift, Lamb shift. Relativistic quantum mechanics, Klein-Gordon equation, Dirac equation, two-component reduction, hole theory, Foldy-Wouthuysen transformation, Lorentz covariance, discrete symmetries, non-relativistic and relativistic Compton scattering.
Artificial Intelligence and Data Analytics for Energy Exploration and Production
by Fred Aminzadeh Cenk Temizel Yasin HajizadehARTIFICAL INTELLIGENCE AND DATA ANALYTICS FOR ENERGY EXPLORATION AND PRODUCTION This groundbreaking new book is written by some of the foremost authorities on the application of data science and artificial intelligence techniques in exploration and production in the energy industry, covering the most comprehensive and updated new processes, concepts, and practical applications in the field. The book provides an in-depth treatment of the foundations of Artificial Intelligence (AI) Machine Learning, and Data Analytics (DA). It also includes many of AI-DA applications in oil and gas reservoirs exploration, development, and production. The book covers the basic technical details on many tools used in “smart oil fields”. This includes topics such as pattern recognition, neural networks, fuzzy logic, evolutionary computing, expert systems, artificial intelligence machine learning, human-computer interface, natural language processing, data analytics and next-generation visualization. While theoretical details will be kept to the minimum, these topics are introduced from oil and gas applications viewpoints. In this volume, many case histories from the recent applications of intelligent data to a number of different oil and gas problems are highlighted. The applications cover a wide spectrum of practical problems from exploration to drilling and field development to production optimization, artificial lift, and secondary recovery. Also, the authors demonstrate the effectiveness of intelligent data analysis methods in dealing with many oil and gas problems requiring combining machine and human intelligence as well as dealing with linguistic and imprecise data and rules.
Artificial Intelligence and Data Analytics for Energy Exploration and Production
by Fred Aminzadeh Cenk Temizel Yasin HajizadehARTIFICAL INTELLIGENCE AND DATA ANALYTICS FOR ENERGY EXPLORATION AND PRODUCTION This groundbreaking new book is written by some of the foremost authorities on the application of data science and artificial intelligence techniques in exploration and production in the energy industry, covering the most comprehensive and updated new processes, concepts, and practical applications in the field. The book provides an in-depth treatment of the foundations of Artificial Intelligence (AI) Machine Learning, and Data Analytics (DA). It also includes many of AI-DA applications in oil and gas reservoirs exploration, development, and production. The book covers the basic technical details on many tools used in “smart oil fields”. This includes topics such as pattern recognition, neural networks, fuzzy logic, evolutionary computing, expert systems, artificial intelligence machine learning, human-computer interface, natural language processing, data analytics and next-generation visualization. While theoretical details will be kept to the minimum, these topics are introduced from oil and gas applications viewpoints. In this volume, many case histories from the recent applications of intelligent data to a number of different oil and gas problems are highlighted. The applications cover a wide spectrum of practical problems from exploration to drilling and field development to production optimization, artificial lift, and secondary recovery. Also, the authors demonstrate the effectiveness of intelligent data analysis methods in dealing with many oil and gas problems requiring combining machine and human intelligence as well as dealing with linguistic and imprecise data and rules.
Microplastics in the Ecosphere: Air, Water, Soil, and Food
by Meththika Vithanage Majeti Narasimha Vara PrasadMicroplastics in the Ecosphere Discover the environmental impact of microplastics with this comprehensive resource Microplastics are the minute quantities of plastic that result from industrial processes, household release and the breakdown of larger plastic items. Widespread reliance on plastic goods and, particularly, single-use plastics, which has been increased by the COVID-19 pandemic, has made microplastics ubiquitous; they can be found throughout the ecosphere, including in the bloodstreams of humans and other animals. As these plastics emerge as a potential threat to the environment and to public health, it has never been more critical to understand their distribution and environmental impact. Microplastics in the Ecosphere aims to cultivate that understanding with a comprehensive overview of microplastics in terrestrial ecosystems. It analyzes microplastic distribution in aerosphere, hydrosphere, and soil, tracing these plastics from their production on land to their distribution—overwhelmingly—in maritime ecosystems. The result is a book that will inform researchers and policymakers as we look to tackle this emerging challenge globally. Microplastics in the Ecosphere readers will also find: Introductory information about the production and distribution of single-use plastics An emphasis on management and mitigation strategies designed to reduce contamination over time A multidisciplinary approach, combining concepts and analytical techniques from a range of scientific fields Microplastics in the Ecosphere is a valuable guide for researchers and scientists, advanced undergraduate and graduate students, industry professionals, and policymakers looking to understand the impact of these widespread materials.
Microplastics in the Ecosphere: Air, Water, Soil, and Food
by Meththika Vithanage Majeti Narasimha Vara PrasadMicroplastics in the Ecosphere Discover the environmental impact of microplastics with this comprehensive resource Microplastics are the minute quantities of plastic that result from industrial processes, household release and the breakdown of larger plastic items. Widespread reliance on plastic goods and, particularly, single-use plastics, which has been increased by the COVID-19 pandemic, has made microplastics ubiquitous; they can be found throughout the ecosphere, including in the bloodstreams of humans and other animals. As these plastics emerge as a potential threat to the environment and to public health, it has never been more critical to understand their distribution and environmental impact. Microplastics in the Ecosphere aims to cultivate that understanding with a comprehensive overview of microplastics in terrestrial ecosystems. It analyzes microplastic distribution in aerosphere, hydrosphere, and soil, tracing these plastics from their production on land to their distribution—overwhelmingly—in maritime ecosystems. The result is a book that will inform researchers and policymakers as we look to tackle this emerging challenge globally. Microplastics in the Ecosphere readers will also find: Introductory information about the production and distribution of single-use plastics An emphasis on management and mitigation strategies designed to reduce contamination over time A multidisciplinary approach, combining concepts and analytical techniques from a range of scientific fields Microplastics in the Ecosphere is a valuable guide for researchers and scientists, advanced undergraduate and graduate students, industry professionals, and policymakers looking to understand the impact of these widespread materials.
Crystallization of Organic Compounds: An Industrial Perspective
by Hsien-Hsin Tung Edward L. Paul Michael Midler James A. McCauleyCrystallization of Organic Compounds Practical resource covering applications of crystallization principles with methodologies, case studies, and numerous industrial examples for emphasis Based on the authors’ hands-on experiences as process engineers, through the use of case studies and examples of crystallization processes, ranging from laboratory development through manufacturing scale-up, Crystallization of Organic Compounds guides readers through the practical applications of crystallization and emphasizes strategies that have proven to be successful, enabling readers to avoid common pitfalls that can render standard procedures unsuccessful. Most chapters feature multiple examples that guide readers, step by step, through the crystallization of active pharmaceutical ingredients (APIs), including an analysis of the major methods of carrying out crystallization operations, their strengths and potential issues, as well as numerous examples of crystallization processes from development through manufacturing scale. Advancements in the field of crystallization have been integrated throughout the book in the newly revised Second Edition to ensure the content adequately reflects current state-of-the-art industrial know-hows and practice. The new edition also adds chapters addressing downstream operations after the crystallization, including filtration/washing and drying, together with industrial use cases. Crystallization of Organic Compounds includes detailed information on: Solubility and solid behavior, covering phase rule, polymorph, salt/co-crystal, chiral resolution and in-silico solubility prediction; and kinetics, covering seed, supersaturation, nucleation, crystal growth and model-based experimental design Critical issues in the crystallization practice, covering oiling out, seeding/wet-milling, agglomeration/aggregation, mixing scale-up and quality-by-design principles Cooling, anti-solvent, evaporation and reactive crystallization process design, covering batch and continuous operations with industrial examples Special applications, covering crystallization with ultrasound, reaction selectivity enhancement, and computation fluid dynamics, and solid dispersion With highly practical coverage of the subject, Crystallization of Organic Compounds is an essential resource for engineers and chemists involved with the development, scaling, or operation of crystallization process in the pharmaceutical and fine chemical industries, particularly those with degrees in chemical engineering and chemistry.
Crystallization of Organic Compounds: An Industrial Perspective
by Hsien-Hsin Tung Edward L. Paul Michael Midler James A. McCauleyCrystallization of Organic Compounds Practical resource covering applications of crystallization principles with methodologies, case studies, and numerous industrial examples for emphasis Based on the authors’ hands-on experiences as process engineers, through the use of case studies and examples of crystallization processes, ranging from laboratory development through manufacturing scale-up, Crystallization of Organic Compounds guides readers through the practical applications of crystallization and emphasizes strategies that have proven to be successful, enabling readers to avoid common pitfalls that can render standard procedures unsuccessful. Most chapters feature multiple examples that guide readers, step by step, through the crystallization of active pharmaceutical ingredients (APIs), including an analysis of the major methods of carrying out crystallization operations, their strengths and potential issues, as well as numerous examples of crystallization processes from development through manufacturing scale. Advancements in the field of crystallization have been integrated throughout the book in the newly revised Second Edition to ensure the content adequately reflects current state-of-the-art industrial know-hows and practice. The new edition also adds chapters addressing downstream operations after the crystallization, including filtration/washing and drying, together with industrial use cases. Crystallization of Organic Compounds includes detailed information on: Solubility and solid behavior, covering phase rule, polymorph, salt/co-crystal, chiral resolution and in-silico solubility prediction; and kinetics, covering seed, supersaturation, nucleation, crystal growth and model-based experimental design Critical issues in the crystallization practice, covering oiling out, seeding/wet-milling, agglomeration/aggregation, mixing scale-up and quality-by-design principles Cooling, anti-solvent, evaporation and reactive crystallization process design, covering batch and continuous operations with industrial examples Special applications, covering crystallization with ultrasound, reaction selectivity enhancement, and computation fluid dynamics, and solid dispersion With highly practical coverage of the subject, Crystallization of Organic Compounds is an essential resource for engineers and chemists involved with the development, scaling, or operation of crystallization process in the pharmaceutical and fine chemical industries, particularly those with degrees in chemical engineering and chemistry.
Ethics, Technology, and Engineering: An Introduction
by Ibo van de Poel Lamber RoyakkersExplore the moral and ethical issues which arise at the intersection of novel technology and engineering In Ethics, Technology, and Engineering: An Introduction, a team of distinguished researchers delivers an insightful and thought-provoking exploration of some of the toughest ethical questions found at the crossroads of engineering and technology. The book demonstrates the skills necessary to effectively grapple with ethical issues that arise from the practice of engineering. The authors introduce the “ethical cycle,” a unique and systematic approach to dealing with ethical problems. They utilize numerous real-life case studies from the United States, Europe, and elsewhere to shed important light on the ethical issues that arise in the daily work of practicing engineers. They also provide a comprehensive overview of various ethical frameworks used in engineering, including utilitarianism, deontological ethics, virtue ethics, Ubuntu, and Confucianism. Readers will also find: A thorough introduction to a practice-oriented approach to ethical decision-making in engineering Comprehensive explorations of the “ethical cycle,” an approach that encourages students to consider a diversity of ethical viewpoints and come to reasoned and justified judgments Practical discussions of ethical issues in engineering design, technological risks, and moral responsibility Treatments of sustainability and how it affects professionals working in engineering, as well as responsible innovationPerfect for engineers, technologists, and entrepreneurs, Ethics, Technology, and Engineering: An Introduction will also benefit businesspeople and founders interested in the ethical implications of a variety of fascinating new technologies.
Ethics, Technology, and Engineering: An Introduction
by Ibo van de Poel Lamber RoyakkersExplore the moral and ethical issues which arise at the intersection of novel technology and engineering In Ethics, Technology, and Engineering: An Introduction, a team of distinguished researchers delivers an insightful and thought-provoking exploration of some of the toughest ethical questions found at the crossroads of engineering and technology. The book demonstrates the skills necessary to effectively grapple with ethical issues that arise from the practice of engineering. The authors introduce the “ethical cycle,” a unique and systematic approach to dealing with ethical problems. They utilize numerous real-life case studies from the United States, Europe, and elsewhere to shed important light on the ethical issues that arise in the daily work of practicing engineers. They also provide a comprehensive overview of various ethical frameworks used in engineering, including utilitarianism, deontological ethics, virtue ethics, Ubuntu, and Confucianism. Readers will also find: A thorough introduction to a practice-oriented approach to ethical decision-making in engineering Comprehensive explorations of the “ethical cycle,” an approach that encourages students to consider a diversity of ethical viewpoints and come to reasoned and justified judgments Practical discussions of ethical issues in engineering design, technological risks, and moral responsibility Treatments of sustainability and how it affects professionals working in engineering, as well as responsible innovationPerfect for engineers, technologists, and entrepreneurs, Ethics, Technology, and Engineering: An Introduction will also benefit businesspeople and founders interested in the ethical implications of a variety of fascinating new technologies.
Parasitic Infections: Immune Responses and Therapeutics
by Abhay Prakash Mishra Manisha NigamParasitic Infections Understand and defeat a scourge of public health with this cutting-edge guide Parasitic diseases are considered as an important public health problem due to the high morbidity and mortality rates, particularly in countries where climate and level of economic development create serious challenges to the creation of public health infrastructure, thus can make parasitic infections both graver and more difficult to contain. As we come to understand the global ramifications of public health, there has never been a more crucial time to understand these infections and the processes by which they can be managed and defeated. Parasitic Infections is a comprehensive overview of parasitic immunopathology, including the fundamentals of parasite biology, mechanisms and processes of infection, and the key steps of drug discovery and treatment. In addition to detailed coverage of the most commonly encountered infectious parasites, analysis of the immune system provides material pertinent to any possible parasitic infection. The result is an essential contribution to public health research. Parasitic Infections readers will also find: A careful balance of parasite immunopathology and pharmaceutical analysis Detailed discussion of parasites such as protozoans, helminths, and ectoparasites Case studies and in-depth analyses written by authors around the world on the basis of first hand investigation Parasitic Infections is a must-read for researchers or professionals in immunology, biology, medicinal chemistry, drug development or pharmaceutical research, and all related fields.
Parasitic Infections: Immune Responses and Therapeutics
by Abhay Prakash Mishra Manisha NigamParasitic Infections Understand and defeat a scourge of public health with this cutting-edge guide Parasitic diseases are considered as an important public health problem due to the high morbidity and mortality rates, particularly in countries where climate and level of economic development create serious challenges to the creation of public health infrastructure, thus can make parasitic infections both graver and more difficult to contain. As we come to understand the global ramifications of public health, there has never been a more crucial time to understand these infections and the processes by which they can be managed and defeated. Parasitic Infections is a comprehensive overview of parasitic immunopathology, including the fundamentals of parasite biology, mechanisms and processes of infection, and the key steps of drug discovery and treatment. In addition to detailed coverage of the most commonly encountered infectious parasites, analysis of the immune system provides material pertinent to any possible parasitic infection. The result is an essential contribution to public health research. Parasitic Infections readers will also find: A careful balance of parasite immunopathology and pharmaceutical analysis Detailed discussion of parasites such as protozoans, helminths, and ectoparasites Case studies and in-depth analyses written by authors around the world on the basis of first hand investigation Parasitic Infections is a must-read for researchers or professionals in immunology, biology, medicinal chemistry, drug development or pharmaceutical research, and all related fields.
Modular Multilevel Converters: Control, Fault Detection, and Protection (IEEE Press Series on Power and Energy Systems)
by Fujin Deng Chengkai Liu Zhe ChenModular Multilevel Converters Expert discussions of cutting-edge methods used in MMC control, protection, and fault detection In Modular Multilevel Converters: Control, Fault Detection, and Protection, a team of distinguished researchers delivers a comprehensive discussion of fault detection, protection, and tolerant control of modular multilevel converters (MMCs) under internal and external faults. Beginning with a description of the configuration of MMCs, their operation principles, modulation schemes, mathematical models, and component design, the authors go on to explore output control, fault detection, capacitor monitoring, and other topics of central importance in the field. The book offers summaries of centralized capacitor voltage-balancing control methods and presents several capacitor monitoring methods, like the direct and sorting-based techniques. It also describes full-bridge and half-bridge submodule-based hybrid MMC protection methods and alternative fault blocking SM-based MMCs. Readers will also find: A thorough introduction to modular multilevel converters, including circuits, operation principles, modulation, mathematical models, components, and design constraints In-depth discussions of the control of modular multilevel converters, including output control, centralized capacitor voltage control, and individual capacitor voltage control Comprehensive explorations of fault detection of MMCs under IGBT faults, including short-circuit and open-circuit faults, as well as fault-tolerant control of MMCs Fulsome treatments of the control of MMCs under AC grid faults, including discussions of AC-side current control Perfect for electrical engineering researchers, Modular Multilevel Converters: Control, Fault Detection, and Protection, will also earn a place in the libraries of electrical engineers working in industry, as well as undergraduate and graduate students with an interest in MMCs.
Modular Multilevel Converters: Control, Fault Detection, and Protection (IEEE Press Series on Power and Energy Systems)
by Fujin Deng Chengkai Liu Zhe ChenModular Multilevel Converters Expert discussions of cutting-edge methods used in MMC control, protection, and fault detection In Modular Multilevel Converters: Control, Fault Detection, and Protection, a team of distinguished researchers delivers a comprehensive discussion of fault detection, protection, and tolerant control of modular multilevel converters (MMCs) under internal and external faults. Beginning with a description of the configuration of MMCs, their operation principles, modulation schemes, mathematical models, and component design, the authors go on to explore output control, fault detection, capacitor monitoring, and other topics of central importance in the field. The book offers summaries of centralized capacitor voltage-balancing control methods and presents several capacitor monitoring methods, like the direct and sorting-based techniques. It also describes full-bridge and half-bridge submodule-based hybrid MMC protection methods and alternative fault blocking SM-based MMCs. Readers will also find: A thorough introduction to modular multilevel converters, including circuits, operation principles, modulation, mathematical models, components, and design constraints In-depth discussions of the control of modular multilevel converters, including output control, centralized capacitor voltage control, and individual capacitor voltage control Comprehensive explorations of fault detection of MMCs under IGBT faults, including short-circuit and open-circuit faults, as well as fault-tolerant control of MMCs Fulsome treatments of the control of MMCs under AC grid faults, including discussions of AC-side current control Perfect for electrical engineering researchers, Modular Multilevel Converters: Control, Fault Detection, and Protection, will also earn a place in the libraries of electrical engineers working in industry, as well as undergraduate and graduate students with an interest in MMCs.
Plants as Bioreactors for Industrial Molecules
by Santosh Kumar Upadhyay Sudhir P. SinghPLANTS AS BIOREACTORS FOR INDUSTRIAL MOLECULES An incisive and practical discussion of how to use plants as bioreactors In Plants as Bioreactors for Industrial Molecules, a team of distinguished researchers delivers an insightful and global perspective on the use of plants as bioreactors. In the book, you’ll find coverage of the basic, applied, biosynthetic, and translational approaches to the exploitation of plant technology in the production of high-value biomolecules. The authors focus on the yield and quality of amino acids, vitamins, and carbohydrates. The authors explain how high-value biomolecules enable developers to create cost-effective biological systems for the production of biomolecules useful in a variety of sectors. They provide a holistic approach to plant-based biological devices to produce natural molecules of relevance to the health and agriculture industries. Readers will also find: A thorough overview of plants as bioreactors and discussions of molecular farming for the production of pharmaceutical proteins in plants Comprehensive explorations of plants as edible vaccines and plant cell culture for biopharmaceuticals Practical discussions of the production of attenuated viral particles as vaccines in plants and insecticidal protein production in transgenic plants Extensive treatment of the regulatory challenges involved in using plants as bioreactors Perfect for academics, scientists, and researchers in industrial microbiology and biotechnology, Plants as Bioreactors for Industrial Molecules will also earn a place in the libraries of biotechnology company professionals in applied product development.
Plants as Bioreactors for Industrial Molecules
by Santosh Kumar Upadhyay Sudhir P. SinghPLANTS AS BIOREACTORS FOR INDUSTRIAL MOLECULES An incisive and practical discussion of how to use plants as bioreactors In Plants as Bioreactors for Industrial Molecules, a team of distinguished researchers delivers an insightful and global perspective on the use of plants as bioreactors. In the book, you’ll find coverage of the basic, applied, biosynthetic, and translational approaches to the exploitation of plant technology in the production of high-value biomolecules. The authors focus on the yield and quality of amino acids, vitamins, and carbohydrates. The authors explain how high-value biomolecules enable developers to create cost-effective biological systems for the production of biomolecules useful in a variety of sectors. They provide a holistic approach to plant-based biological devices to produce natural molecules of relevance to the health and agriculture industries. Readers will also find: A thorough overview of plants as bioreactors and discussions of molecular farming for the production of pharmaceutical proteins in plants Comprehensive explorations of plants as edible vaccines and plant cell culture for biopharmaceuticals Practical discussions of the production of attenuated viral particles as vaccines in plants and insecticidal protein production in transgenic plants Extensive treatment of the regulatory challenges involved in using plants as bioreactors Perfect for academics, scientists, and researchers in industrial microbiology and biotechnology, Plants as Bioreactors for Industrial Molecules will also earn a place in the libraries of biotechnology company professionals in applied product development.
Plant Breeding Reviews, Volume 46 (Plant Breeding Reviews)
by Irwin GoldmanPlant Breeding Reviews presents state-of-the-art reviews on plant genetics and the breeding of all types of crops by both traditional means and molecular methods. Many of the crops widely grown today stem from a very narrow genetic base; understanding and preserving crop genetic resources is vital to the security of food systems worldwide. The emphasis of the series is on methodology, a fundamental understanding of crop genetics, and applications to major crops.
Plant Breeding Reviews, Volume 46 (Plant Breeding Reviews)
by Irwin GoldmanPlant Breeding Reviews presents state-of-the-art reviews on plant genetics and the breeding of all types of crops by both traditional means and molecular methods. Many of the crops widely grown today stem from a very narrow genetic base; understanding and preserving crop genetic resources is vital to the security of food systems worldwide. The emphasis of the series is on methodology, a fundamental understanding of crop genetics, and applications to major crops.
Microbial Bioreactors for Industrial Molecules
by Sudhir P. Singh Santosh Kumar UpadhyayMicrobial Bioreactors for Industrial Molecules Harness the planet’s most numerous resources with this comprehensive guide Microorganisms constitute the invisible majority of all living creatures on Earth. They are found virtually everywhere on the planet, including in environments too extreme for any larger organisms to exist. They form a hugely significant resource whose potential value for human society cannot be overlooked. The creation of microorganism- based bioreactors for the industrial production of valuable biomolecules has the potential to revolutionize a range of industries and fields. Microbial Bioreactors for Industrial Molecules provides a comprehensive introduction to these bioresources. It covers all potential approaches to the use of microbial technology and the production of high-value biomolecules for the pharmaceutical, cosmetic, and agricultural industries, among others. The book’s rigorous detail and global, holistic approach to harnessing the power of the planetary microbiome make it an invaluable introduction to this growing area of research and production. Readers will also find: Detailed coverage of basic, applied, biosynthetic, and translational approaches to the use of microbial technology Discussion of industrially produced microbe-borne enzymes including invertase, lipase, keratinase, protease, and more Approaches for using microbial bioreactors to generate biofuels Microbial Bioreactors for Industrial Molecules is essential for scientists and researchers in microbiology and biotechnology, as well as for professionals in the biotech industries and graduate students studying the applications of the life sciences.
Microbial Bioreactors for Industrial Molecules
by Sudhir P. Singh Santosh Kumar UpadhyayMicrobial Bioreactors for Industrial Molecules Harness the planet’s most numerous resources with this comprehensive guide Microorganisms constitute the invisible majority of all living creatures on Earth. They are found virtually everywhere on the planet, including in environments too extreme for any larger organisms to exist. They form a hugely significant resource whose potential value for human society cannot be overlooked. The creation of microorganism- based bioreactors for the industrial production of valuable biomolecules has the potential to revolutionize a range of industries and fields. Microbial Bioreactors for Industrial Molecules provides a comprehensive introduction to these bioresources. It covers all potential approaches to the use of microbial technology and the production of high-value biomolecules for the pharmaceutical, cosmetic, and agricultural industries, among others. The book’s rigorous detail and global, holistic approach to harnessing the power of the planetary microbiome make it an invaluable introduction to this growing area of research and production. Readers will also find: Detailed coverage of basic, applied, biosynthetic, and translational approaches to the use of microbial technology Discussion of industrially produced microbe-borne enzymes including invertase, lipase, keratinase, protease, and more Approaches for using microbial bioreactors to generate biofuels Microbial Bioreactors for Industrial Molecules is essential for scientists and researchers in microbiology and biotechnology, as well as for professionals in the biotech industries and graduate students studying the applications of the life sciences.