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  • Energy Management System for Dispatchable Renewable Power Generation
    Energy Management System for Dispatchable Renewable Power Generation

    Enhancing the integration of renewable power generation from wind and solar into the traditional power network requires the mitigation of the vulnerabilities affecting the grid as a result of the intermittent nature of these resources.Variability and ramp events in power output are the key challenges to the system operators due to their impact on system balancing, reserves management, scheduling, and commitment of generation units.This book presents development of energy management system for renewable power generation (EMSRPG) tool that aims to achieve power-dispatching strategies based on forecasting renewable energy resources outputs to guarantee optimal dispatch of hybrid wind-solar photovoltaic power systems (HWSPS).The key selling points of the book include the following: Renewable energy management in modern and future smart power systems Energy management systems Modeling and simulations using a real-time digital simulator (RTDS) High penetration level of renewable energy sources Case studies based on Oman’s power systems and other power grids This book discusses the challenges of integrating renewable resources, including low inertia systems, hosting capacity limitations of existing power systems, and weak grids.It further examines the detailed topologies, operation principles, recent developments in control techniques, and stability of power systems with a large scale of renewables.Finally, it presents case studies of recent projects from around the world where dispatchable power plant techniques are used to enhance power system operation.

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  • Renewable Energy : Power for a Sustainable Future
    Renewable Energy : Power for a Sustainable Future

    The provision of sustainable energy supplies for an expanding and increasingly productive world is one of the major issues facing civilisation today. Renewable Energy examines both the practical and economic potential of the renewable energy sources to meet this challenge.The underlying physical and technological principles behind deriving power from direct solar (solar thermal and photovoltaics), indirect solar (biomass, hydro, wind and wave) and non-solar (tidal and geothermal) energy sources are explained, within the context of their environmental impacts, their economics and their future prospects. Renewable Energy provides both perspective and detail on the relative merits and state of progress of technologies for utilizing the various 'renewables'.The analysis considers emissions, sustainability, cost implications and energy security, as political and economic pressures move society towards a low-carbon future.From an overview of basic energy conversion processes, through a discussion of the individual renewable sources, to a concluding examination of the prospects for their integration into national and international networks and the outlook for renewable energy, this book provides a valuable insight into prospects for the renewables. Online resources Renewable Energy is accompanied by online resources which include: For students:· Auto- marked multiple choice questions to accompany each chapter· Curated links to further information and up-to-date energy statistics.For registered adopters of the book:· Figures from the book: available to download for use in lectures

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  • The Future European Energy System : Renewable Energy, Flexibility Options and Technological Progress
    The Future European Energy System : Renewable Energy, Flexibility Options and Technological Progress

    Part I : Introduction, Scenario Description and Model Coupling ApproachChapter 1 - Introduction ( Dominik Most, Steffi Schreiber and Martin Jakob)Chapter 2 - Scenario Storyline in Context of Decarbonization Pathways for a Future European Energy System ( Andrea Herbst, Steffi Schreiber, Witold-Roger Poganietz, Angelo Martino and Dominik Most)Chapter 3 - Model Coupling Approach for the Analysis of the Future European Energy System ( Robert Kunze and Steffi Schreiber ) Part II : Technological Progress Chapter 4 - Deriving Experience Curves and Implementing Technological Learning in Energy System Models ( Atse Louwen and Martin Junginger )Chapter 5 - Electric Vehicle Market Diffusion in Main Non-European Markets ( Katrin Seddig, Patrick Jochem and Wolf Fichtner ).- Part III : Demand Side Flexibility and the Role of Disruptive TechnologiesChapter 6 - Future Energy Demand Developments and Demand Side Flexibility in a Decarbonized Central Energy System ( Andrea Herbst, Anna-Lena Klingler, Stephanie Heitel, Pia Manz, Tobias Fleiter, Matthias Rehfeldt, Francesca Fermi, Davide Fiorello, Angelo Martino and Ulrich Reiter)Chapter 7 -  Disruptive Demand Side Technologies: Market Shares and Impact on Flexibility in a Decentralized World ( Stephanie Heitel, Anna-Lena Klingler, Andrea Herbst and Francesca Fermi )Chapter 8 - What is the Flexibility Potential in the Tertiary Sector? (Ulrich Reiter and Martin Jakob)Chapter 9 - A Techno-Economic Comparison of Demand Side Management with Other Flexibility Options (Theresa Ladwig)Part IV: Flexibility Options in the Electricity and Heating SectorChapter 10 - Optimal Energy Portfolios in the Electricity Sector: Trade-offs and Interplay between Different Flexibility Options ( Steffi Schreiber, Christoph Zophel and Dominik Most )Chapter 11 - Impact of Electricity Market Designs on Investments in Flexibility Options ( Christoph Fraunholz, Dogan Keles and Wolf Fichtner ) Chapter 12 - Optimal Energy Portfolios in the Heating Sector and the Flexibility Potential of Combined-Heat-Power Plants and District Heating Systems ( Maciej Raczynski, Artur Wyrwa, Marcin Pluta and Wojciech Suwala )Part V : Analysis of the Environmental and Socio-Impacts beyond the Greenhouse Gas Emission Reduction TargetsChapter 13 - Unintended Environmental Impacts at Local and Global Scale - Trade-offs of a Low-carbon Electricity System (Maryegli Fuss and Lei Xu)Chapter 14 - Assessing Social Impacts in Current and Future Electricity Production in the European Union (Nils Brown and David Linden ) Chapter 15 - Spatially Disaggregated Impact Pathway Analysis of Direct Particulate Matter Emissions (Janusz Zysk, Artur Wyrwa, Beata Sliz-Szkliniarz)Part VI : Concluding RemarksChapter 16 - Comprehensive Insights and Recommendations (Dominik Most, Andrea Herbst, Martin Jakob, Witold-Roger Poganietz, Steffi Schreiber and Christoph Zophel).

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  • Renewable Energy & Green Technology
    Renewable Energy & Green Technology

    This book explains all the basic and advanced concepts of Renewable Energy. The explanation is in a very simple English language. Moreover, It covers the most probable objective and subjective questions and answers for practice.The explanations are very specific and exam-oriented too. All the UG, PG students, research scholars, and competitive exam aspirants can take the benefit from this book.

    Price: 9.99 £ | Shipping*: 3.99 £
  • What are the savings in energy when switching from a gas heating system to renewable energy sources?

    The savings in energy when switching from a gas heating system to renewable energy sources can be significant. Renewable energy sources such as solar, wind, and geothermal are more sustainable and efficient, resulting in lower energy consumption and reduced greenhouse gas emissions. Additionally, renewable energy systems often have lower operating and maintenance costs compared to traditional gas heating systems, leading to long-term savings for homeowners and businesses. Overall, the transition to renewable energy sources can result in substantial energy savings and contribute to a more sustainable and environmentally friendly heating system.

  • Is solar energy renewable?

    Yes, solar energy is renewable because it is derived from the sun, which is a virtually limitless source of energy. The sun's energy is constantly being replenished and will continue to do so for billions of years. This makes solar energy a sustainable and renewable source of power that can be harnessed for electricity generation and other applications.

  • What is renewable energy?

    Renewable energy is energy that is collected from resources that are naturally replenished on a human timescale, such as sunlight, wind, rain, tides, waves, and geothermal heat. These sources of energy are considered sustainable because they are naturally replenished and do not deplete finite resources. Renewable energy is seen as a cleaner and more environmentally friendly alternative to fossil fuels, as it produces lower levels of greenhouse gas emissions and reduces our dependence on non-renewable resources.

  • What are renewable resources and renewable energy sources?

    Renewable resources are natural resources that can be replenished or regenerated over time, such as sunlight, wind, and water. Renewable energy sources are sources of energy that come from these renewable resources, such as solar power, wind power, hydropower, and geothermal energy. These sources of energy are considered sustainable and environmentally friendly because they do not deplete the Earth's resources and produce lower levels of greenhouse gas emissions compared to fossil fuels.

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  • Renewable Energy in Power Systems
    Renewable Energy in Power Systems

    An up to date account of renewable sources of electricity generation and their integration into power systems With the growth in installed capacity of renewable energy (RE) generation, many countries such as the UK are relying on higher levels of RE generation to meet targets for reduced greenhouse gas emissions.In the face of this, the integration issue is now of increasing concern, in particular to system operators. This updated text describes the individual renewable technologies and their power generation characteristics alongside an expanded introduction to power systems and the challenges posed by high levels of penetrations from such technologies, together with an account of technologies and changes to system operation that can ease RE integration. Features of this edition: Covers power conditioning, the characteristics of RE generators, with emphasis on their time varying nature, and the use of power electronics in interfacing RE sources to gridsOutlines up to date RE integration issues such as power flow in networks supplied from a combination of conventional and renewable energy sourcesUpdated coverage of the economics of power generation and the role of markets in delivering investment in sustainable solutionsConsiders the challenge of maintaining power balance in a system with increasing RE input, including recent moves toward power system frequency support from RE sourcesOffers an insightful perspective on the shape of future power systems including offshore networks and demand side managementIncludes worked examples that enhance this edition’s suitability as a textbook for introductory courses in RE systems technology Firmly established as an essential reference, the Second Edition of Renewable Energy in Power Systems will prove a real asset to engineers and others involved in both the traditional power and fast growing renewables sector.This text should also be of particular benefit to students of electrical power engineering and will additionally appeal to non-specialists through the inclusion of background material covering the basics of electricity generation.

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  • Microbial Biofuel : A Sustainable Source of Renewable Energy
    Microbial Biofuel : A Sustainable Source of Renewable Energy

    Microbial Biofuel: A Sustainable Source of Renewable Energy explores microbial biofuel production from a technical standpoint addressing a wide range of topics including bio alcohol, biodiesel, biohydrogen, biomethane, biohythane, jet fuel, drop-in fuel, bioelectricity, bio-oil, biomass to biofuel, carbon capture, and more. Each chapter provides an in-depth examination of a specific biofuel type, discussing the underlying science, production processes, challenges, and its potential applications.The title draws examples from the latest research and advancements in the field, including cutting-edge technologies, methodologies, and case studies.It covers advances in fermentation strategies and commercial scale implementation of microbial technology for biofuel production along with comprehensive information on bio alcohol, biodiesel, biohydrogen, biomethane etc.The book explores practical applications of microbial biofuels and uses real life examples and case studies.Moreover, the book addresses sustainability and environmental benefits of using renewable energy. The title is an ideal read for graduate students and researchers specialising in bioenergy and chemical engineering.

    Price: 120.00 £ | Shipping*: 0.00 £
  • Renewable Energy
    Renewable Energy

    This new series gives readers an insight into one of the most important issues in today's world climate change.Through accessible language and an engaging design children can explore the issues related to climate change and discover what effect humanity is having on the planet.|This new series gives readers an insight into one of the most important issues in today's world climate change.Through accessible language and an engaging design children can explore the issues related to climate change and discover what effect humanity is having on the planet.

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  • Smart Cities: Power Electronics, Renewable Energy, and Internet of Things : Power Electronics, Renewable Energy, and Internet of Things
    Smart Cities: Power Electronics, Renewable Energy, and Internet of Things : Power Electronics, Renewable Energy, and Internet of Things

    This book discusses the integration of power electronics, renewable energy, and the Internet of Things (IoT) from the perspective of smart cities in a single volume.The text will be helpful for senior undergraduate, graduate students and academic researchers in diverse engineering fields including electrical, electronics and communication, and computers.The book:Covers the integration of power electronics, energy harvesting, and the IoT for smart city applicationsDiscusses concepts of power electronics and the IoT in electric vehicles for smart citiesExamines the integration of power electronics in renewable energy for smart citiesDiscusses important concepts of energy harvesting including solar energy harvesting, maximum power point tracking (MPPT) controllers, and switch-mode power supplies (SMPS)Explores IoT connectivity technologies such as long-term evolution (LTE), narrow band NB-IoT, long-range (LoRa), Bluetooth, and ZigBee (IEEE Standard 802.15.4) for low data rate wireless personal communication applicationsThe text provides the knowledge about applications, technologies, and standards of power electronics, renewable energy, and IoT for smart cities.It will serve as an ideal reference text for senior undergraduate, graduate students and academic researchers in the fields of electrical engineering, electronics and communication engineering, computer engineering, civil engineering, and environmental engineering.

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  • What are renewable and non-renewable energy sources?

    Renewable energy sources are those that can be replenished naturally and are not depleted when used, such as solar, wind, hydro, and geothermal energy. These sources are sustainable and have minimal impact on the environment. Non-renewable energy sources, on the other hand, are finite and cannot be replenished in a short period of time, such as fossil fuels like coal, oil, and natural gas. These sources are not sustainable and contribute to environmental pollution and climate change.

  • Will the basic income system be permanently financially sustainable?

    It is difficult to predict whether the basic income system will be permanently financially sustainable, as it depends on various factors such as the overall economic conditions, tax policies, and government budgeting. The success of the basic income system will also depend on its implementation and the ability to generate enough revenue to support it. Additionally, the impact of automation and technological advancements on the job market could also affect the financial sustainability of the basic income system. Overall, it will require careful planning and monitoring to ensure its long-term financial viability.

  • Are renewable resources the same as sustainable resources?

    Renewable resources and sustainable resources are related concepts but not exactly the same. Renewable resources are those that can be replenished naturally over time, such as sunlight, wind, and water. Sustainable resources, on the other hand, refer to resources that are managed in a way that meets current needs without compromising the ability of future generations to meet their own needs. While renewable resources are often considered sustainable, not all sustainable resources are necessarily renewable, as some non-renewable resources can be managed in a way that ensures their long-term availability.

  • System or Pure Power power supply?

    When choosing between a System or Pure Power power supply, it ultimately depends on your specific needs and preferences. A System power supply is designed to provide stable and reliable power for your system components, ensuring smooth operation and longevity. On the other hand, a Pure Power power supply focuses on delivering clean and efficient power with minimal noise and interference, which can be beneficial for high-performance systems or sensitive components. Consider your system requirements and budget to determine which type of power supply would be the best fit for your setup.

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