Products related to Energy:
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Magnetic Resonance Microscopy : Instrumentation and Applications in Engineering, Life Science, and Energy Research
Magnetic Resonance Microscopy Explore the interdisciplinary applications of magnetic resonance microscopy in this one-of-a-kind resource In Magnetic Resonance Microscopy: Instrumentation and Applications in Engineering, Life Science and Energy Research, a team of distinguished researchers delivers a comprehensive exploration of the use of magnetic resonance microscopy (MRM) and similar techniques in an interdisciplinary milieux.Opening with a section on hardware and methodology, the book moves on to consider developments in the field of mobile nuclear magnetic resonance.Essential processes, including filtration, multi-phase flow and transport, and a wide range of systems – from biomarkers via single cells to plants and biofilms – are discussed next.After a fulsome treatment of MRM in the field of energy research, the editors conclude the book with a chapter extoling the virtues of a holistic treatment of theory and application in MRM.Magnetic Resonance Microscopy: Instrumentation and Applications in Engineering, Life Science and Energy Research also includes: A thorough introduction to recent developments in magnetic resonance microscopy hardware and methods, including ceramic coils for MR microscopyComprehensive explorations of applications in chemical engineering, including ultra-fast MR techniques to image multi-phase flow in pipes and reactorsPractical discussions of applications in the life sciences, including MRI of single cells labelled with super paramagnetic iron oxide nanoparticlesIn-depth examinations of new applications in energy research, including spectroscopic imaging of devices for electrochemical storage Perfect for practicing scientists from all fields, Magnetic Resonance Microscopy: Instrumentation and Applications in Engineering, Life Science and Energy Research is an ideal resource for anyone seeking a one-stop guide to magnetic resonance microscopy for engineers, life scientists, and energy researchers.
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Renewable Energy Engineering and Technology : Principles and Practice
This is the most comprehensive guide ever written on renewables technology and engineering, intended to cater for the rapidly growing numbers of present and future engineers who are keen to lead the revolution. All the main sectors are covered - photovoltaics, solar thermal, wind, bioenergy, hydro, wave/tidal, geothermal - progressing from the fundamental physical principles, through resource assessment and site evaluation to in-depth examination of the characteristics and employment of the various technologies.The authors are all experienced practitioners, and as such recognise the cross-cutting importance of system sizing and integration.Clear diagrams, photos, tables and equations make this in invaluable reference tool, while worked examples mean the explanations are well-grounded and easy to follow - essential for students and professionals alike.
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Engineering Energy Storage
Engineering Energy Storage, Second Edition, explains the engineering concepts of different energy technologies in a coherent manner, assessing underlying numerical material to evaluate energy, power, volume, weight, and cost of new and existing energy storage systems.Offering numerical examples and problems with solutions, this fundamental reference on engineering principles gives guidance on energy storage devices, setting up energy system plans for smart grids, engineering single technologies and comparing them, understanding the reasoning for losses in efficiency, and much more.This new edition advances the description of energy revolutions, with the premise that we are now in the most invasive and comprehensive energy revolution since the first industrial revolution.There is increased focus on the specifics of energy and power, as well as charging times for energy storage solutions compared to traditional means.The chapter on batteries is extensively expanded and now considers the carbon footprint of battery production and battery production processes.All technology costs are updated, and mineral limitations for the technologies are also discussed.More information regarding use scenarios for different energy storage solutions is included, and the exercises and worked problems are renewed and augmented, giving the reader a deeper understanding of the engineering aspects of energy storage.Designed for those in traditional fields of science as well as professional engineers in applied industries, this book is an ideal resource for undergraduate and postgraduate students, engineers, R&D, and industrial personnel working with energy storage systems or looking to extend their competencies into new areas.
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Renewable Energy Engineering
Fully revised and updated, this second edition provides students with a quantitative and accessible introduction to the renewable technologies at the heart of efforts to build a sustainable future.Key features include new chapters on essential topics in energy storage, off-grid systems, microgrids and community energy; revised chapters on energy and grid fundamentals, wind energy, hydro power, photovoltaic and solar thermal energy, marine energy and bioenergy; appendices on foundational topics in electrical engineering, heat transfer and fluid dynamics; discussion of how real-world projects are developed, constructed and operated; over 60 worked examples linking theory to real-world engineering applications; and over 150 end-of-chapter homework problems, with solutions for instructors.Accompanied online at www.cambridge.org/jenkins2e by extended exercises and datasets, enabling instructors to create unique projects and coursework, this new edition remains the ideal multi-disciplinary introduction to renewable energy, for senior undergraduate and graduate students in engineering and the physical sciences.
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Is it worth becoming a master in electrical engineering specializing in energy and building technology?
Becoming a master in electrical engineering specializing in energy and building technology can be worth it for individuals interested in sustainable energy solutions and building design. This specialization can open up opportunities in the growing field of renewable energy, energy efficiency, and smart building technologies. With the increasing focus on sustainability and green building practices, having expertise in energy and building technology can make you a valuable asset in the job market. Additionally, mastering this field can lead to a rewarding career where you can contribute to creating more energy-efficient and environmentally friendly buildings.
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What are your experiences in energy technology?
I am an AI language model and do not have personal experiences. However, I have been trained on a wide range of information related to energy technology. I can provide information on various aspects of energy technology, including renewable energy sources, energy efficiency, smart grid technology, and energy storage solutions. If you have specific questions about energy technology, feel free to ask and I will do my best to provide accurate and helpful information.
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What is the study program Energy Engineering?
Energy Engineering is a study program that focuses on the generation, distribution, and efficient use of energy. It combines principles of engineering, physics, and environmental science to address the challenges of sustainable energy production and consumption. Students in this program learn about various energy sources, such as fossil fuels, renewable energy, and nuclear power, as well as energy conversion technologies and energy management strategies. The goal of the program is to prepare students to design, develop, and implement innovative solutions for the energy industry, with a focus on environmental sustainability and energy efficiency.
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What is better: Electronics technician for industrial engineering or electronics technician for energy and building technology?
The choice between being an electronics technician for industrial engineering or energy and building technology depends on your interests and career goals. If you enjoy working with complex machinery and systems in manufacturing environments, then industrial engineering may be a better fit for you. On the other hand, if you are passionate about sustainable energy solutions and building technology, then energy and building technology could be more fulfilling. Consider your strengths, interests, and long-term career aspirations to make the best decision for yourself.
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Renewable Energy Engineering
This book provides a quantitative yet accessible overview of renewable energy engineering practice and the technologies that will transform our energy supply system over the coming years.Covering wind, hydro, solar thermal, photovoltaic, ocean and bioenergy, the text is suitable for engineering undergraduates as well as graduate students from other numerate degrees.The technologies involved, background theory and how projects are developed, constructed, and operated are described.Worked examples of the simple techniques used to calculate the output of renewable energy schemes engage students by showing how theory relates to real applications.Tutorial chapters provide background material, supporting students from a range of disciplines and ensuring they receive the broad understanding essential for a successful career in the field.Over 150 end-of-chapter problems are included with answers to the problems available in the book and full solutions at www.cambridge.org/jenkins, password-protected for instructors.
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Science, Technology And Innovation Indicators : Lessons from the Development Experience in Africa
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Energy and Development
This book explores the complex relationship between energy and development and discusses the core issues and concepts surrounding this growing area of research and policy. In the field of energy and development, the world faces two major challenges: (1) Providing energy access to the roughly one billion people worldwide who do not have access to electricity and the nearly three billion people worldwide who do not have access to clean cooking fuels; (2) achieving socioeconomic development while limiting global atmospheric temperature increases to 2 degrees Celsius to mitigate climate change.Taking stock of progress, Frauke Urban explores the key issues surrounding these goals and addresses the policy responses aimed at ending energy poverty and achieving sustainable development.She outlines various options for delivering energy access, analyses past and prospective energy transitions and examines the social, environmental, economic and technological implications of these possibilities.Taking a holistic and multi-disciplinary approach and containing useful teaching resources, Energy and Development provides a comprehensive overview of this complex field of study. This book will be a great resource for postgraduate and undergraduate students, scholars, practitioners and policymakers working in the fields of energy studies, international development, environmental studies, industrial engineering, as well as social sciences that relate to energy and development.
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Innovation in Energy Security and Long-Term Energy Efficiency
The sustainable development of our planet depends on the use of energy. The growing population of the world inevitably causes an increase in the demand for energy, which, on the one hand, threatens the potential for shortages of energy supply, and, on the other hand, causes the deterioration of the environment.Therefore, our task is to reduce this demand through different innovative solutions (i.e., both technological and social). Social marketing and economic policies can also play a role in affecting the behavior of households and companies, by causing behavioral change oriented to energy stewardship, and an overall switch to renewable energy resources. This book provides a platform for the exchange of a wide range of ideas, which, ultimately, would facilitate the driving of societies to long-term energy efficiency.
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Is math as difficult in the study of energy technology as it is in electrical engineering?
The difficulty of math in the study of energy technology compared to electrical engineering can vary depending on the specific focus and level of study. In general, both fields require a strong foundation in mathematics, including calculus, differential equations, and linear algebra. However, the specific applications of math in energy technology may differ from those in electrical engineering. For example, energy technology may involve more focus on thermodynamics and fluid mechanics, while electrical engineering may involve more emphasis on circuit analysis and electromagnetic theory. Overall, both fields require a solid understanding of math, but the specific challenges may vary.
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How can one retrain from an electronics technician for energy and building technology to industrial engineering?
To retrain from an electronics technician for energy and building technology to industrial engineering, one could consider pursuing a bachelor's degree in industrial engineering. This would provide a comprehensive understanding of manufacturing processes, supply chain management, and optimization techniques. Additionally, gaining practical experience through internships or co-op programs in industrial engineering roles could help in transitioning to this field. It may also be beneficial to seek out professional development courses or certifications in areas such as project management, quality control, and lean manufacturing to enhance skills and knowledge relevant to industrial engineering.
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Can an electrician for energy and building technology be retrained as an electrician for industrial engineering?
Yes, an electrician for energy and building technology can be retrained as an electrician for industrial engineering. Both roles require similar foundational knowledge and skills in electrical systems and circuits. However, the electrician may need additional training or certifications specific to industrial engineering, such as understanding industrial machinery and control systems. With the right training and experience, the electrician can successfully transition to a role in industrial engineering.
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What is an electrician in energy and building technology?
An electrician in energy and building technology is a professional who specializes in installing, maintaining, and repairing electrical systems in residential, commercial, and industrial buildings. They are responsible for ensuring that electrical systems are safe, efficient, and up to code. These electricians work with a variety of systems, including lighting, power distribution, heating, ventilation, air conditioning (HVAC), and renewable energy technologies. They play a crucial role in ensuring that buildings are powered effectively and sustainably.
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