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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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Sustainable Development of Renewable Energy : Latest Advances in Production, Storage, and Integration
Sustainable Development of Renewable Energy, Volume One in the Advances in Renewable Energy Technologies series, looks at the production performance of renewable energy sources and emerging production processes.Chapters cover some of the most dynamic developments, best practices, and future concepts in solar energy systems, energy storage, geothermal energy, bioenergy, wind energy, fuel cells, and hydrogen production.The book also includes recent regulations and worldwide policies.By reviewing these state-of-art advances, this book provides readers with an up-to-date source on renewable energy grid integration and its importance in aiding the energy transition. This is a valuable resource for graduates, researchers, professors, and industry professionals involved in the renewable energy sector, as well as advanced engineering courses dealing with renewable energy, sources, thermal and electrical energy production, and sustainability.
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Ceramic Hydrogen Storage Materials : High Storage Density Candidates for Sustainable Green Energy
Ceramic Hydrogen Storage Materials presents the physical, chemical, physico-chemical properties of ceramics as hydrogen storage materials.It demonstrates how ceramic nanostructures can be specially designed for high surface adsorption of hydrogen and act as hydrogen batteries. Covering methods for characterizing hydrogen storage capacity, this book showcases how hydrogen has the potential to facilitate decarbonization of the electric power sector by storing energy produced from renewable sources.It addresses both ceramic oxides and non-oxides while expanding on the synthesis and characterization of zero- and one-dimensional, high-surface-area ceramic structures.This book discusses the applications of hydrogen batteries in zero-emission vehicles and hydrogen fuels for aircraft. This book will interest upper-level undergraduate energy and materials engineering students, as well as researchers studying green energy storage materials, hydrogen storage, and alternative transportation fuels.
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100% Clean, Renewable Energy and Storage for Everything
Numerous laws – including the Green New Deal – have been proposed or passed in cities, states, and countries to transition from fossil fuels to 100% clean, renewable energy in order to address climate change, air pollution, and energy insecurity.This textbook lays out the science, technology, economics, policy, and social aspects of such transitions.It discusses the renewable electricity and heat generating technologies needed; the electricity, heat, cold, and hydrogen storage technologies required; how to keep the electric power grid stable; and how to address non-energy sources of emissions.It discusses the history of the 100% Movement, which evolved from a collaboration among scientists, cultural leaders, business people, and community leaders.Finally, it discusses current progress in transitioning to 100% renewables, and the new policies needed to complete the transition.Online course supplements include lecture slides, answers to the end-of-chapter student exercises, and a list of extra resources.
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Why are pumped storage power plants particularly important in the transition to renewable energy sources?
Pumped storage power plants are particularly important in the transition to renewable energy sources because they can store excess energy generated from intermittent renewable sources such as wind and solar power. This stored energy can then be used to meet electricity demand during periods of low renewable energy production or high demand. This helps to stabilize the grid and ensure a reliable supply of electricity, making it easier to integrate more renewable energy into the power system. Additionally, pumped storage power plants can provide grid stability and help to balance the variability of renewable energy sources, making them a crucial component of a more sustainable and reliable energy system.
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What is the connection between energy storage and power?
Energy storage and power are closely connected because energy storage systems allow for the capture and storage of excess power generated during times of low demand, which can then be used to supplement power supply during times of high demand. This helps to balance the supply and demand of power, ensuring a reliable and stable energy supply. Energy storage also enables the integration of renewable energy sources, such as solar and wind, by storing excess energy generated during peak production times for use when the sun is not shining or the wind is not blowing. Overall, energy storage plays a crucial role in maintaining a consistent and reliable power supply.
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What is the relationship between energy storage and power?
Energy storage and power are closely related as energy storage systems allow for the storing of excess power generated during times of low demand, which can then be used during times of high demand. This helps to balance the supply and demand of power on the grid, ensuring a reliable and stable energy supply. Energy storage systems also play a crucial role in integrating renewable energy sources like solar and wind power, which can be intermittent in nature, by storing excess energy for use when these sources are not generating power. Ultimately, energy storage enhances the overall efficiency and reliability of power systems.
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Is it true that Germany is committed to renewable energy without having the necessary storage for it?
Yes, it is true that Germany is committed to renewable energy without having the necessary storage for it. Germany has made significant investments in renewable energy sources such as wind and solar power, but the country still lacks sufficient storage capacity to effectively store and distribute this energy. This has led to challenges in managing the intermittent nature of renewable energy sources, as well as the need to rely on traditional energy sources during periods of low renewable energy production. Germany is working on developing storage solutions, such as battery technology and power-to-gas systems, to address this issue and better integrate renewable energy into its grid.
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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.
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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
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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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How can the energy of a pumped storage power plant be calculated?
The energy of a pumped storage power plant can be calculated using the formula: Energy = Head x Flow x Efficiency x Time. - Head refers to the difference in elevation between the upper and lower reservoirs, which determines the potential energy available. - Flow is the rate at which water is pumped from the lower reservoir to the upper reservoir or released from the upper reservoir to the lower reservoir. - Efficiency takes into account the losses in the system, such as friction and heat losses. - Time represents the duration for which the power plant operates. By multiplying these factors together, the total energy output of the pumped storage power plant can be calculated.
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How can one calculate the energy of a pumped storage power plant?
The energy of a pumped storage power plant can be calculated by multiplying the power output of the plant in kilowatts (kW) by the number of hours it operates. This will give you the total energy output in kilowatt-hours (kWh). Additionally, you can calculate the potential energy stored in the plant by multiplying the volume of water stored in the upper reservoir by the height difference between the upper and lower reservoirs, the acceleration due to gravity, and the density of water. This will give you the potential energy stored in the form of gravitational potential energy.
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How does the energy conversion work in a pumped storage power plant?
In a pumped storage power plant, energy is converted and stored in the form of gravitational potential energy. During periods of low electricity demand, excess electricity is used to pump water from a lower reservoir to an upper reservoir, where it is stored. When electricity demand is high, the stored water is released back to the lower reservoir, passing through turbines which convert the gravitational potential energy of the falling water into electrical energy. This process allows the plant to store and generate electricity as needed, making it a valuable tool for balancing the grid and managing peak demand.
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What is the difference between a storage power plant and a pumped storage power plant?
A storage power plant typically refers to a facility that stores energy in the form of electricity or other energy sources for later use. This can include batteries, flywheels, or compressed air energy storage systems. On the other hand, a pumped storage power plant specifically refers to a type of hydroelectric power plant that stores energy by pumping water from a lower reservoir to an upper reservoir during times of low electricity demand, and then releasing the water back down to the lower reservoir to generate electricity during times of high demand. In essence, pumped storage power plants use the potential energy of water to store and generate electricity, while storage power plants can encompass a wider range of energy storage technologies.
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