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Microbial Fermentations in Nature and as Designed Processes

MICROBIAL FERMENTATIONS IN NATURE AND AS DESIGNED PROCESSES Fermentation is one of the most important metabolic tools that biology has developed and microorganisms in many ways seem to have become the true masters of fermentative metabolism. Each of the fermentative microbial functions evolved to fit an energetic opportunity, and each function has ecological value. This book provides its readers with: Understanding regarding the commonalities and distinctions between aerobic and anaerobic fermentations as performed by microorganisms. A summary of knowledge regarding the ways in which animals and plants depend upon symbiotic interactions with their fermenting microbial partners including the deconstruction of complex polysaccharides. Information is also included about how those natural technologies constitute adaptation into designed processes for anaerobic degradation of lignocellulosic materials. The important role of rhizosphere microbes that facilitate availability of inorganic and organic phosphates for plants. These phosphates get stored in the plant’s seeds. After ruminant animals ingest the seeds, enzymes produced by gastrointestinal microbial fermentation allow the animals to utilize their dietary phosphates. History of how microbial fermentation has been harnessed from prehistoric times to the present for processing and preserving food products for humans and fodder for our domesticated animals. Insight into the ways that microbial fermentations are used as an engineering tool for producing chemicals, including enzymes and pharmaceuticals, which improve the health of ourselves and our domesticated animals. Perspectives on possible future research directions for the field of applied microbial fermentation that will help to advance agriculture and industry.

Microbial Fermentations in Nature and as Designed Processes

MICROBIAL FERMENTATIONS IN NATURE AND AS DESIGNED PROCESSES Fermentation is one of the most important metabolic tools that biology has developed and microorganisms in many ways seem to have become the true masters of fermentative metabolism. Each of the fermentative microbial functions evolved to fit an energetic opportunity, and each function has ecological value. This book provides its readers with: Understanding regarding the commonalities and distinctions between aerobic and anaerobic fermentations as performed by microorganisms. A summary of knowledge regarding the ways in which animals and plants depend upon symbiotic interactions with their fermenting microbial partners including the deconstruction of complex polysaccharides. Information is also included about how those natural technologies constitute adaptation into designed processes for anaerobic degradation of lignocellulosic materials. The important role of rhizosphere microbes that facilitate availability of inorganic and organic phosphates for plants. These phosphates get stored in the plant’s seeds. After ruminant animals ingest the seeds, enzymes produced by gastrointestinal microbial fermentation allow the animals to utilize their dietary phosphates. History of how microbial fermentation has been harnessed from prehistoric times to the present for processing and preserving food products for humans and fodder for our domesticated animals. Insight into the ways that microbial fermentations are used as an engineering tool for producing chemicals, including enzymes and pharmaceuticals, which improve the health of ourselves and our domesticated animals. Perspectives on possible future research directions for the field of applied microbial fermentation that will help to advance agriculture and industry.

Thermodynamic and Transport Properties of Fluids

The fifth edition has been issued to incorporate two new tables - Data of Refrigerant 134a and a table containing for selected substances, molar enthalpies and molar Gibbs functions of formation, Equilibirum constants of formation, as well as molar heat capacities and absolute entropies.

Thermodynamic and Transport Properties of Fluids

The fifth edition has been issued to incorporate two new tables - Data of Refrigerant 134a and a table containing for selected substances, molar enthalpies and molar Gibbs functions of formation, Equilibirum constants of formation, as well as molar heat capacities and absolute entropies.

Destruction of Hazardous Chemicals in the Laboratory

Destruction of Hazardous Chemicals in the Laboratory Single volume reference providing procedural information for the destruction of a wide variety of hazardous chemicals Destruction of Hazardous Chemicals in the Laboratory is a practical reference that describes procedures for the destruction of a comprehensive list of hazardous chemicals and provides general methods for the destruction of hazardous chemicals in the laboratory without the need for exotic reagents and equipment. Unlike most other sources on this subject, detailed reaction parameters are provided to readers. These details will help the reader decide if a procedure will be appropriate. To further aid in reader comprehension, numerous tables throughout the book allow for ready comparison of procedures. Destruction of Hazardous Chemicals in the Laboratory also describes the critical aspects of various protocols (e.g., UV lamp type and rate of ozone flow). The updated fourth edition Includes an updated survey of the literature from 2012-2021 and features data mined from 1,500 papers. It also describes recent examples of methods that are generally applicable to organic compounds and greatly expands the section on methods for the destruction of pharmaceuticals in the laboratory. In this book, readers can expect to find detailed information on: Specific methods for the destruction of hazardous chemicals in the laboratory, such as aflatoxins, butyllithium, complex metal hydrides, ethidium bromide, MPTP, nitrosamines, and polycyclic aromatic hydrocarbons Methods for the destruction of pharmaceuticals in the laboratory, such as those using ozone, persulfate, and potassium permanganate as well as photolytic degradation procedures Procedures for drying organic solvents A discussion of the issues concerning nitrosamine formation during the destruction process, particularly when sodium hypochlorite is used A variety of indexes, including a general index, cross index of pharmaceuticals and destruction procedures, cross index of dyes and destruction procedures, and cross index of names for dyes and biological stains Destruction of Hazardous Chemicals in the Laboratory is of immense value to researchers in the laboratory by enabling them to quickly and efficiently get rid of residual amounts of hazardous chemicals when a series of experiments has ended. The procedures in the text can also be incorporated into laboratory protocols.

Destruction of Hazardous Chemicals in the Laboratory

Destruction of Hazardous Chemicals in the Laboratory Single volume reference providing procedural information for the destruction of a wide variety of hazardous chemicals Destruction of Hazardous Chemicals in the Laboratory is a practical reference that describes procedures for the destruction of a comprehensive list of hazardous chemicals and provides general methods for the destruction of hazardous chemicals in the laboratory without the need for exotic reagents and equipment. Unlike most other sources on this subject, detailed reaction parameters are provided to readers. These details will help the reader decide if a procedure will be appropriate. To further aid in reader comprehension, numerous tables throughout the book allow for ready comparison of procedures. Destruction of Hazardous Chemicals in the Laboratory also describes the critical aspects of various protocols (e.g., UV lamp type and rate of ozone flow). The updated fourth edition Includes an updated survey of the literature from 2012-2021 and features data mined from 1,500 papers. It also describes recent examples of methods that are generally applicable to organic compounds and greatly expands the section on methods for the destruction of pharmaceuticals in the laboratory. In this book, readers can expect to find detailed information on: Specific methods for the destruction of hazardous chemicals in the laboratory, such as aflatoxins, butyllithium, complex metal hydrides, ethidium bromide, MPTP, nitrosamines, and polycyclic aromatic hydrocarbons Methods for the destruction of pharmaceuticals in the laboratory, such as those using ozone, persulfate, and potassium permanganate as well as photolytic degradation procedures Procedures for drying organic solvents A discussion of the issues concerning nitrosamine formation during the destruction process, particularly when sodium hypochlorite is used A variety of indexes, including a general index, cross index of pharmaceuticals and destruction procedures, cross index of dyes and destruction procedures, and cross index of names for dyes and biological stains Destruction of Hazardous Chemicals in the Laboratory is of immense value to researchers in the laboratory by enabling them to quickly and efficiently get rid of residual amounts of hazardous chemicals when a series of experiments has ended. The procedures in the text can also be incorporated into laboratory protocols.

Urban Energy Systems: Modeling and Simulation for Smart Cities

URBAN ENERGY SYSTEMS With climate change and energy issues infiltrating seemingly every aspect of our lives, it is more important than ever to continue the march toward sustainability. It is not just about switching to a gasoline-free car or installing solar panels. Many countries, including our own, are dealing with these very difficult problems by converting to “smart cities” and other “green energy” projects. This is perhaps one of the most important issues facing our world today. Urban energy systems play a critical role in the sustainability and resilience of smart cities. As cities continue to grow and face increasing energy demands, it becomes essential to develop efficient and sustainable energy solutions. Modelling and simulation techniques provide valuable insights into the design, operation, and optimization of urban energy systems, supporting the transition towards more sustainable and smart cities. This perspective highlights the importance of modelling and simulation in achieving sustainable urban energy systems and their role in shaping smart cities. Modelling and simulation play a crucial role in achieving sustainable urban energy systems and shaping smart cities. By integrating diverse energy systems, optimizing renewable energy integration, enabling demand-side management, supporting microgrid and storage system design, enhancing resilience, and facilitating policy evaluation, these tools empower decision-makers to develop and implement sustainable energy solutions. Embracing a modelling and simulation perspective in urban energy planning supports the transition towards more sustainable, efficient, and resilient smart cities that meet the energy needs of present and future generations. This book uncovers the latest research in the field of urban energy sustainability and climate management. Urban energy sustainability and climate management have been employed successfully for various purposes like human-computer interaction, decision-making, recommender systems, and so on. Data analytics have supported these applications through various efficient and effective methods. Covering all of these topics, this is a “one-stop shop” for engineers, students, policymakers, scientists, and other industry professionals working with smart cities and urban energy systems. It is a must have for any library.

Urban Energy Systems: Modeling and Simulation for Smart Cities

URBAN ENERGY SYSTEMS With climate change and energy issues infiltrating seemingly every aspect of our lives, it is more important than ever to continue the march toward sustainability. It is not just about switching to a gasoline-free car or installing solar panels. Many countries, including our own, are dealing with these very difficult problems by converting to “smart cities” and other “green energy” projects. This is perhaps one of the most important issues facing our world today. Urban energy systems play a critical role in the sustainability and resilience of smart cities. As cities continue to grow and face increasing energy demands, it becomes essential to develop efficient and sustainable energy solutions. Modelling and simulation techniques provide valuable insights into the design, operation, and optimization of urban energy systems, supporting the transition towards more sustainable and smart cities. This perspective highlights the importance of modelling and simulation in achieving sustainable urban energy systems and their role in shaping smart cities. Modelling and simulation play a crucial role in achieving sustainable urban energy systems and shaping smart cities. By integrating diverse energy systems, optimizing renewable energy integration, enabling demand-side management, supporting microgrid and storage system design, enhancing resilience, and facilitating policy evaluation, these tools empower decision-makers to develop and implement sustainable energy solutions. Embracing a modelling and simulation perspective in urban energy planning supports the transition towards more sustainable, efficient, and resilient smart cities that meet the energy needs of present and future generations. This book uncovers the latest research in the field of urban energy sustainability and climate management. Urban energy sustainability and climate management have been employed successfully for various purposes like human-computer interaction, decision-making, recommender systems, and so on. Data analytics have supported these applications through various efficient and effective methods. Covering all of these topics, this is a “one-stop shop” for engineers, students, policymakers, scientists, and other industry professionals working with smart cities and urban energy systems. It is a must have for any library.

Integrated Green Energy Solutions

INTEGRATED GREEN ENERGY SOLUTIONS This first volume in a two-volume set presents the state of the art for the concepts, practical applications, and future of renewable energy and how to move closer to true sustainability. Renewable energy supplies are of ever-increasing environmental and economic importance in every country worldwide. A wide range of renewable energy technologies has been established commercially and recognized as an important set of growth industries for most governments. World agencies, including the United Nations, have extensive programs to encourage these emerging technologies. This book will bridge the gap between descriptive reviews and specialized engineering technologies. It centers on demonstrating how fundamental physical processes govern renewable energy resources and their applications. Although the applications are updated continually, the fundamental principles remain the same, and this book will provide a useful platform for those advancing the subject and its industries. Integrated Resilient Energy Solutions is a two-volume set covering subjects of proven technical and economic importance worldwide. Energy supply from renewables is an essential component of every nation’s strategy, especially when there is responsibility for the environment and sustainability. These two volumes will consider the timeless renewable energy technologies’ principles yet demonstrate modern applications and case studies. Whether for the veteran engineer, student, or other professional, these two volumes are a must-have for any library.

Integrated Green Energy Solutions, Volume 1

INTEGRATED GREEN ENERGY SOLUTIONS This first volume in a two-volume set presents the state of the art for the concepts, practical applications, and future of renewable energy and how to move closer to true sustainability. Renewable energy supplies are of ever-increasing environmental and economic importance in every country worldwide. A wide range of renewable energy technologies has been established commercially and recognized as an important set of growth industries for most governments. World agencies, including the United Nations, have extensive programs to encourage these emerging technologies. This book will bridge the gap between descriptive reviews and specialized engineering technologies. It centers on demonstrating how fundamental physical processes govern renewable energy resources and their applications. Although the applications are updated continually, the fundamental principles remain the same, and this book will provide a useful platform for those advancing the subject and its industries. Integrated Resilient Energy Solutions is a two-volume set covering subjects of proven technical and economic importance worldwide. Energy supply from renewables is an essential component of every nation’s strategy, especially when there is responsibility for the environment and sustainability. These two volumes will consider the timeless renewable energy technologies’ principles yet demonstrate modern applications and case studies. Whether for the veteran engineer, student, or other professional, these two volumes are a must-have for any library.

Current Drug Synthesis (Wiley Series on Drug Synthesis)

Current Drug Synthesis The latest entry in the widely read Drug Synthesis series In Current Drug Synthesis, accomplished medicinal chemist and researcher Dr. Jie Jack Li and 27 expert coauthors deliver an authoritative and comprehensive discussion of the medicinal chemistry of current drugs, as well as the cutting-edge science involved in their synthesis. The book demystifies the process of modern drug discovery for both industry practitioners and students, while capturing the state-of-the-art techniques used to discover some of the most impactful medicines on the market today. Covering six different disease areas – including infectious disease, cancer, cardiovascular and metabolic disease, the central nervous system, anti-inflammatory disease, and a miscellaneous section – the book explores 18 different drugs before concluding with chapters on computational drug discovery and peptide drugs. Each chapter includes coverage of background material on a relevant drug class or disease indication and key aspects of drug discovery, including structure-activity relationships, pharmacokinetics, drug metabolism, efficacy, and safety. Readers will also find: Thorough introductions to drugs for infectious diseases, including relebactam, vaborbactam, and baloxavir marboxil In-depth treatments of cancer-treating drugs, including darolutamide, venetoclax, and osimertinib Comprehensive explorations of central nervous system drugs, including zuranolone and risdiplam Extensive discussions of computational drug discovery and peptide drugs Perfect for medicinal, organic, synthetic, and process chemists, Current Drug Synthesis will also earn a place in the libraries of research scientists working in lead optimization and process development, as well as graduate students studying organic chemistry, heterocyclic chemistry, or medicinal chemistry.

Current Drug Synthesis (Wiley Series on Drug Synthesis)

Current Drug Synthesis The latest entry in the widely read Drug Synthesis series In Current Drug Synthesis, accomplished medicinal chemist and researcher Dr. Jie Jack Li and 27 expert coauthors deliver an authoritative and comprehensive discussion of the medicinal chemistry of current drugs, as well as the cutting-edge science involved in their synthesis. The book demystifies the process of modern drug discovery for both industry practitioners and students, while capturing the state-of-the-art techniques used to discover some of the most impactful medicines on the market today. Covering six different disease areas – including infectious disease, cancer, cardiovascular and metabolic disease, the central nervous system, anti-inflammatory disease, and a miscellaneous section – the book explores 18 different drugs before concluding with chapters on computational drug discovery and peptide drugs. Each chapter includes coverage of background material on a relevant drug class or disease indication and key aspects of drug discovery, including structure-activity relationships, pharmacokinetics, drug metabolism, efficacy, and safety. Readers will also find: Thorough introductions to drugs for infectious diseases, including relebactam, vaborbactam, and baloxavir marboxil In-depth treatments of cancer-treating drugs, including darolutamide, venetoclax, and osimertinib Comprehensive explorations of central nervous system drugs, including zuranolone and risdiplam Extensive discussions of computational drug discovery and peptide drugs Perfect for medicinal, organic, synthetic, and process chemists, Current Drug Synthesis will also earn a place in the libraries of research scientists working in lead optimization and process development, as well as graduate students studying organic chemistry, heterocyclic chemistry, or medicinal chemistry.

The Sciences: An Integrated Approach

Application of Ambient Pressure X-ray Photoelectron Spectroscopy to Catalysis

APPLICATION OF AMBIENT PRESSURE X-RAY PHOTOELECTRON SPECTROSCOPY TO CATALYSIS Authoritative and detailed reference on ambient-pressure x-ray photoelectron spectroscopy for practitioners and researchers starting in the field Application of Ambient Pressure X-ray Photoelectron Spectroscopy to Catalysis introduces a relatively new analytical method and its applications to chemistry, energy, environmental, and materials sciences, particularly the field of heterogeneous catalysis, covering its background and historical development, its principles, the instrumentation required to use it, analysis of data collected with it, and the challenges it faces. The features of this method are described early in the text; the starting chapters provide a base for understanding how AP-XPS tracks crucial information in terms of the surface of a catalyst during catalysis. The second half of this book delves into the specific applications of AP-XPS to fundamental studies of different catalytic reactions. In later chapters, the focus is on how AP-XPS could provide key information toward understanding catalytic mechanisms. To aid in reader comprehension, the takeaways of each chapter are underlined. In Application of Ambient Pressure X-ray Photoelectron Spectroscopy to Catalysis, readers can expect to find detailed information on specific topics such as: Going from surface of model catalyst in UHV to surface of nanoparticle catalyst during catalysis Application of XPS from surface in UHV to surface in gas or liquid phase and fundamentals of X-ray spectroscopy Significance and challenges of studying surface of a catalyst in gaseous phase and instrumentation of ambient pressure X-ray photoelectron spectrometers Experimental methods of AP-XPS studies and difference in data analysis between AP-XPS and high vacuum XPS Ambient Pressure X-Ray Photoelectron Spectroscopy is an ideal resource for entry level researchers and students involved in x-ray photoelectron spectroscopy. Additionally, the text will appeal to scientists in more senior roles in academic and government laboratory institutions in the fields of chemistry, chemical engineering, energy science, and materials science.

Application of Ambient Pressure X-ray Photoelectron Spectroscopy to Catalysis

APPLICATION OF AMBIENT PRESSURE X-RAY PHOTOELECTRON SPECTROSCOPY TO CATALYSIS Authoritative and detailed reference on ambient-pressure x-ray photoelectron spectroscopy for practitioners and researchers starting in the field Application of Ambient Pressure X-ray Photoelectron Spectroscopy to Catalysis introduces a relatively new analytical method and its applications to chemistry, energy, environmental, and materials sciences, particularly the field of heterogeneous catalysis, covering its background and historical development, its principles, the instrumentation required to use it, analysis of data collected with it, and the challenges it faces. The features of this method are described early in the text; the starting chapters provide a base for understanding how AP-XPS tracks crucial information in terms of the surface of a catalyst during catalysis. The second half of this book delves into the specific applications of AP-XPS to fundamental studies of different catalytic reactions. In later chapters, the focus is on how AP-XPS could provide key information toward understanding catalytic mechanisms. To aid in reader comprehension, the takeaways of each chapter are underlined. In Application of Ambient Pressure X-ray Photoelectron Spectroscopy to Catalysis, readers can expect to find detailed information on specific topics such as: Going from surface of model catalyst in UHV to surface of nanoparticle catalyst during catalysis Application of XPS from surface in UHV to surface in gas or liquid phase and fundamentals of X-ray spectroscopy Significance and challenges of studying surface of a catalyst in gaseous phase and instrumentation of ambient pressure X-ray photoelectron spectrometers Experimental methods of AP-XPS studies and difference in data analysis between AP-XPS and high vacuum XPS Ambient Pressure X-Ray Photoelectron Spectroscopy is an ideal resource for entry level researchers and students involved in x-ray photoelectron spectroscopy. Additionally, the text will appeal to scientists in more senior roles in academic and government laboratory institutions in the fields of chemistry, chemical engineering, energy science, and materials science.

Computational Fluid Dynamics for Wind Engineering

COMPUTATIONAL FLUID DYNAMICS FOR WIND ENGINEERING An intuitive and comprehensive exploration of computational fluid dynamics in the study of wind engineering Computational Fluid Dynamics for Wind Engineering provides readers with a detailed overview of the use of computational fluid dynamics (CFD) in understanding wind loading on structures, a problem becoming more pronounced as urban density increases and buildings become larger. The work emphasizes the application of CFD to practical problems in wind loading and helps readers understand important associated factors such as turbulent flow around buildings and bridges. The author, with extensive research experience in this and related fields, offers relevant and engaging practice material to help readers learn and retain the concepts discussed, and each chapter includes accessible summaries at the end. In addition, the use of the OpenFOAM tool—an open-source wind engineering application—is explored. Computational Fluid Dynamics for Wind Engineering covers topics such as: Fluid mechanics, turbulence in fluid mechanics, turbulence modelling, and mathematical modelling of wind engineering problems The finite difference method for CFD, solutions to the incompressible Navier-Stokes equations, visualization, and animation in CFD, and the application of CFD to building and bridge aerodynamics How to compare CFD analysis with wind tunnel measurements, field measurements, and the ASCE-7 pressure coefficients Wind effects and strain on large structures Providing comprehensive coverage of how CFD can explain wind load on structures along with helpful examples of practical applications, Computational Fluid Dynamics for Wind Engineering serves as an invaluable resource for senior undergraduate students, graduate students, researchers and practitioners of civil and structural engineering.

Computational Fluid Dynamics for Wind Engineering

COMPUTATIONAL FLUID DYNAMICS FOR WIND ENGINEERING An intuitive and comprehensive exploration of computational fluid dynamics in the study of wind engineering Computational Fluid Dynamics for Wind Engineering provides readers with a detailed overview of the use of computational fluid dynamics (CFD) in understanding wind loading on structures, a problem becoming more pronounced as urban density increases and buildings become larger. The work emphasizes the application of CFD to practical problems in wind loading and helps readers understand important associated factors such as turbulent flow around buildings and bridges. The author, with extensive research experience in this and related fields, offers relevant and engaging practice material to help readers learn and retain the concepts discussed, and each chapter includes accessible summaries at the end. In addition, the use of the OpenFOAM tool—an open-source wind engineering application—is explored. Computational Fluid Dynamics for Wind Engineering covers topics such as: Fluid mechanics, turbulence in fluid mechanics, turbulence modelling, and mathematical modelling of wind engineering problems The finite difference method for CFD, solutions to the incompressible Navier-Stokes equations, visualization, and animation in CFD, and the application of CFD to building and bridge aerodynamics How to compare CFD analysis with wind tunnel measurements, field measurements, and the ASCE-7 pressure coefficients Wind effects and strain on large structures Providing comprehensive coverage of how CFD can explain wind load on structures along with helpful examples of practical applications, Computational Fluid Dynamics for Wind Engineering serves as an invaluable resource for senior undergraduate students, graduate students, researchers and practitioners of civil and structural engineering.

Electric Power Systems with Renewables: Simulations Using PSSE

Electric Power Systems with Renewables Concise, balanced, and fundamentals-based resource providing coverage of power system operation and planning, including simulations using PSS®E software Electric Power Systems with Renewables provides a comprehensive treatment of various topics related to power systems with an emphasis on renewable energy integration into power systems. The updated use cases and methods in the book build upon the climate change science and renewables currently being integrated with the grid and the ability to manage resilience for electrifying transportation and related power systems as societies identify more ways to move towards a carbon-free future. Simulation examples and software support are provided by integrating the educational version of PSS®E. The newly revised edition includes new topics on the intelligent use of PSS®E simulation software, presents a short introduction to Python (a widely used software in the power industry), and provides new examples and back-of-the-chapter homework problems to further aid in information retention. Written by two highly qualified authors with significant experience in the field, Electric Power Systems with Renewables also contains information on: Electric energy and the environment, covering hydro power, fossil-fuel based power plants, nuclear power, renewable energy, and distributed generation (DG) Power flow in power system networks covers basic power flow equations, the Newton-Raphson procedure, sensitivity analysis, and a new remote bus voltage control concept Transformers and generators in power systems, covering basic principles of operation, a simplified model, and per-unit representation High voltage DC (HVDC) transmission systems-current-link, and voltage-link systems Associated with this textbook, there is a website from which the simulation files can be downloaded for use in PSS®E and Python. It also contains short videos to simplify the use of these software. This website will be regularly updated. Electric Power Systems with Renewables serves as a highly useful textbook for both undergraduate and graduate students in Electrical and Computer Engineering (ECE). It is also an appropriate resource for students outside of ECE who have the prerequisites, such as in mechanical, civil, and chemical engineering. Practicing engineers will greatly benefit with its industry-relevant approach to meet the present-day needs.

Electric Power Systems with Renewables: Simulations Using PSSE

Electric Power Systems with Renewables Concise, balanced, and fundamentals-based resource providing coverage of power system operation and planning, including simulations using PSS®E software Electric Power Systems with Renewables provides a comprehensive treatment of various topics related to power systems with an emphasis on renewable energy integration into power systems. The updated use cases and methods in the book build upon the climate change science and renewables currently being integrated with the grid and the ability to manage resilience for electrifying transportation and related power systems as societies identify more ways to move towards a carbon-free future. Simulation examples and software support are provided by integrating the educational version of PSS®E. The newly revised edition includes new topics on the intelligent use of PSS®E simulation software, presents a short introduction to Python (a widely used software in the power industry), and provides new examples and back-of-the-chapter homework problems to further aid in information retention. Written by two highly qualified authors with significant experience in the field, Electric Power Systems with Renewables also contains information on: Electric energy and the environment, covering hydro power, fossil-fuel based power plants, nuclear power, renewable energy, and distributed generation (DG) Power flow in power system networks covers basic power flow equations, the Newton-Raphson procedure, sensitivity analysis, and a new remote bus voltage control concept Transformers and generators in power systems, covering basic principles of operation, a simplified model, and per-unit representation High voltage DC (HVDC) transmission systems-current-link, and voltage-link systems Associated with this textbook, there is a website from which the simulation files can be downloaded for use in PSS®E and Python. It also contains short videos to simplify the use of these software. This website will be regularly updated. Electric Power Systems with Renewables serves as a highly useful textbook for both undergraduate and graduate students in Electrical and Computer Engineering (ECE). It is also an appropriate resource for students outside of ECE who have the prerequisites, such as in mechanical, civil, and chemical engineering. Practicing engineers will greatly benefit with its industry-relevant approach to meet the present-day needs.

Essential Practical NMR for Organic Chemistry

Essential Practical NMR for Organic Chemistry A hands-on resource advocating an ordered approach to gathering and interpreting NMR data The second edition of Essential Practical NMR for Organic Chemistry delivers a pragmatic and accessible text demonstrating an ordered approach to gathering and interpreting NMR data. In this informal guide, you’ll learn to make sense of the high density of NMR information through the authors’ problem-solving strategies and interpretations. The book also discusses critical aspects of NMR theory, as well as data acquisition and processing strategy. It explains the use of NMR spectroscopy for dealing with problems of small organic molecule structural elucidation and includes a brand-new chapter on Nitrogen-15 NMR. Readers will also find: Strategies for preparing a sample, spectrum acquisition, processing, and interpreting your spectrum Fulsome discussions of Carbon-13 NMR spectroscopy Practical treatments of quantification, safety procedures, and relevant software An ideal handbook for anyone involved in using NMR to solve structural problems, this latest edition of Essential Practical NMR for Organic Chemistry will be particularly useful for chemists running and looking at their own NMR spectra, as well as those who work in small molecule NMR. It will also earn a place in the libraries of undergraduate and post-graduate organic chemistry students.

Essential Practical NMR for Organic Chemistry

Essential Practical NMR for Organic Chemistry A hands-on resource advocating an ordered approach to gathering and interpreting NMR data The second edition of Essential Practical NMR for Organic Chemistry delivers a pragmatic and accessible text demonstrating an ordered approach to gathering and interpreting NMR data. In this informal guide, you’ll learn to make sense of the high density of NMR information through the authors’ problem-solving strategies and interpretations. The book also discusses critical aspects of NMR theory, as well as data acquisition and processing strategy. It explains the use of NMR spectroscopy for dealing with problems of small organic molecule structural elucidation and includes a brand-new chapter on Nitrogen-15 NMR. Readers will also find: Strategies for preparing a sample, spectrum acquisition, processing, and interpreting your spectrum Fulsome discussions of Carbon-13 NMR spectroscopy Practical treatments of quantification, safety procedures, and relevant software An ideal handbook for anyone involved in using NMR to solve structural problems, this latest edition of Essential Practical NMR for Organic Chemistry will be particularly useful for chemists running and looking at their own NMR spectra, as well as those who work in small molecule NMR. It will also earn a place in the libraries of undergraduate and post-graduate organic chemistry students.

Recent Advances in Polyphenol Research, Volume 8

Plant polyphenols are specialized metabolites that constitute one of the most common and widespread groups of natural products. They are essential plant components for adaptation to the environment and possess a large and diverse range of biological functions that provide many benefits to both plants and humans. Polyphenols, from their structurally simplest forms to their oligo/polymeric versions (i.e. tannins and lignins), are phytoestrogens, plant pigments, antioxidants, and structural components of the plant cell wall. The interactions between tannins and proteins are involved in plant defense against predation, cause astringency in foods and beverages, and affect the nutritional and health properties of human and animal food plants. This eighth volume of the highly regarded Recent Advances in Polyphenol Research series is edited by Juha-Pekka Salminen, Kristiina Wähälä, Victor de Freitas, and Stéphane Quideau, and brings together chapters written by some of the leading experts working in the polyphenol sciences today. Topics covered include: Structure, reactivity and synthesis Bioactivity and bioavailability Metabolomics, targeted analysis and big data Quality control & standardization Biogenesis and functions in plants and ecosystems Biomaterials & applied sciencesDistilling the most recent and illuminating data available, this new volume is an invaluable resource for chemists, biochemists, plant scientists, pharmacognosists and pharmacologists, biologists, ecologists, food scientists and nutritionists.

Recent Advances in Polyphenol Research, Volume 8

Plant polyphenols are specialized metabolites that constitute one of the most common and widespread groups of natural products. They are essential plant components for adaptation to the environment and possess a large and diverse range of biological functions that provide many benefits to both plants and humans. Polyphenols, from their structurally simplest forms to their oligo/polymeric versions (i.e. tannins and lignins), are phytoestrogens, plant pigments, antioxidants, and structural components of the plant cell wall. The interactions between tannins and proteins are involved in plant defense against predation, cause astringency in foods and beverages, and affect the nutritional and health properties of human and animal food plants. This eighth volume of the highly regarded Recent Advances in Polyphenol Research series is edited by Juha-Pekka Salminen, Kristiina Wähälä, Victor de Freitas, and Stéphane Quideau, and brings together chapters written by some of the leading experts working in the polyphenol sciences today. Topics covered include: Structure, reactivity and synthesis Bioactivity and bioavailability Metabolomics, targeted analysis and big data Quality control & standardization Biogenesis and functions in plants and ecosystems Biomaterials & applied sciencesDistilling the most recent and illuminating data available, this new volume is an invaluable resource for chemists, biochemists, plant scientists, pharmacognosists and pharmacologists, biologists, ecologists, food scientists and nutritionists.

Digital Health Communications

ECHNOLOGICAL PROSPECTS AND SOCIAL APPLICATIONS SET Coordinated by Bruno SalguesThere are many controversies with respect to health crisis management: the search for information on symptoms, misinformation on emerging treatments, massive use of collaborative tools by healthcare professionals, deployment of applications for tracking infected patients. The Covid-19 crisis is a relevant example about the need for research in digital communications in order to understand current health info communication.After an overview of the challenges of digital healthcare, this book offers a critical look at the organizational and professional limits of ICT uses for patients, their caregivers and healthcare professionals. It analyzes the links between ICT and ethics of care, where health communication is part of a global, humanistic and emancipating care for patients and caregivers. It presents new digitized means of communicating health knowledge that reveal, thanks to the Internet, a competition between biomedical expert knowledge and experiential secular knowledge.

Digital Health Communications

ECHNOLOGICAL PROSPECTS AND SOCIAL APPLICATIONS SET Coordinated by Bruno SalguesThere are many controversies with respect to health crisis management: the search for information on symptoms, misinformation on emerging treatments, massive use of collaborative tools by healthcare professionals, deployment of applications for tracking infected patients. The Covid-19 crisis is a relevant example about the need for research in digital communications in order to understand current health info communication.After an overview of the challenges of digital healthcare, this book offers a critical look at the organizational and professional limits of ICT uses for patients, their caregivers and healthcare professionals. It analyzes the links between ICT and ethics of care, where health communication is part of a global, humanistic and emancipating care for patients and caregivers. It presents new digitized means of communicating health knowledge that reveal, thanks to the Internet, a competition between biomedical expert knowledge and experiential secular knowledge.