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  • Renewable Energy in Action : Problems and Progress
    Renewable Energy in Action : Problems and Progress


    Price: 15.99 £ | Shipping*: 3.99 £
  • 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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  • Nanotechnology for Sustainable Agriculture : An Innovative and Eco-Friendly Approach
    Nanotechnology for Sustainable Agriculture : An Innovative and Eco-Friendly Approach

    This new volume explores the important and cutting-edge roles that nanotechnology can play in facilitating sustainable agriculture.It provides recent updates on nanobiotechnology in soil science, plant breeding, food science, agricultural tool design and utilization, as well as the impacts of such approaches on properties of soils and plants.The book looks at the use of nanotechnology for crop production and protection, in the creation and application of pesticides, to enhance soil fertility and soil health, as a mitigating factor of plant abiotic stress, and more.The volume explores emerging nanotechnological tools and techniques for crop improvement that include space-inspired speed breeding for crop improvement, nanoparticles as sensing materials, plant nanobionics, nanopore DNA sequencing, and more.

    Price: 147.00 £ | Shipping*: 0.00 £
  • Warning Energy Conservation In Progress mug.
    Warning Energy Conservation In Progress mug.


    Price: 14.95 € | Shipping*: Free €
  • What is the most efficient way to store energy from renewable energy sources?

    The most efficient way to store energy from renewable sources is through battery storage systems. These systems can store excess energy generated from sources like solar or wind power and release it when needed, providing a reliable and consistent energy supply. Battery storage also allows for flexibility in managing energy demand and supply, making it a key component in integrating renewable energy into the grid. Additionally, advancements in battery technology continue to improve efficiency and reduce costs, making it an increasingly viable option for storing renewable energy.

  • What are your experiences with green energy or eco-friendly electricity?

    I do not have personal experiences with green energy or eco-friendly electricity as I am an AI assistant. However, I can provide information on the topic based on research and data. Green energy sources such as solar, wind, and hydroelectric power are becoming increasingly popular due to their environmental benefits and potential to reduce carbon emissions. Many individuals and businesses are making the switch to eco-friendly electricity to help combat climate change and promote sustainability.

  • 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.

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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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  • Asia-Pacific Progress in sustainable energy : a global tracking framework 2017 regional assessment report
    Asia-Pacific Progress in sustainable energy : a global tracking framework 2017 regional assessment report

    This report, developed by the United Nations Economic and Social Commission for Asia and the Pacific in cooperation Asian Development Bank, offers an evidence-based look at progress at the regional and country level, providing an overview of long-term trends since 1990, and focuses on progress achieved in the most recent period, 2012-2014.Furthermore, it examines the key drivers behind progress, as well as identifies major challenges to achieving energy access, efficiency, and renewable energy objectives.Evidence is drawn from the Global Tracking Framework (GTF) data, as well as other international sources to provide a comprehensive view of progress in light of regional and national contexts.A strong focus is also placed on examining national policy frameworks and offering case studies to illustrate national approaches to common challenges faced by countries advancing the sustainable energy agenda

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  • The Myth of Progress – Toward a Sustainable Future
    The Myth of Progress – Toward a Sustainable Future

    A powerful argument that our current path toward progress, based on continual economic expansion and inefficient use of resources, runs contrary to three foundational scientific laws. In this compelling, cogently argued, and acclaimed book, Tom Wessels demonstrates how our current path toward progress, based on continual economic expansion and inefficient use of resources, runs contrary to three foundational scientific laws that govern all complex natural systems.It is a myth, he contends, that progress depends on a growing economy.Wessels explains his theory with his three laws of sustainability: the law of limits to growth; the second law of thermodynamics, which exposes the dangers of increased energy consumption; and the law of self-organization, which results in the marvelous diversity of such highly evolved systems as the human body and complex ecosystems.Wessels argues that these laws, scientifically proven to sustain life in its myriad forms, have been cast aside since the eighteenth century, first by Western economists, political pragmatists, and governments attracted by the idea of unlimited growth, and more recently by a global economy dominated by large corporations, in which consolidation and oversimplification have created large-scale inefficiencies in both material and energy usage. Wessels makes scientific theory readily accessible by offering examples of how the laws of sustainability function in the complex systems we can observe in the natural world around us.Demonstrating that all environmental problems have their source in a disregard for the laws of sustainability, he concludes with an impassioned argument for cultural change.This new edition has a new preface wherein the author regards The Myth of Progress as his most important work.It has been in constant demand since it was first published in 2006.

    Price: 20.00 £ | Shipping*: 3.99 £
  • Warning Energy Conservation In Progress classic fit.
    Warning Energy Conservation In Progress classic fit.


    Price: 17.95 € | Shipping*: Free €
  • 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.

  • 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.

  • 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.

  • Is nuclear energy a renewable energy source?

    No, nuclear energy is not considered a renewable energy source. While nuclear power plants do not emit greenhouse gases during operation, they rely on uranium as a fuel source, which is a finite resource. Once uranium is used up, it cannot be replaced, making nuclear energy non-renewable. Additionally, the process of mining and refining uranium can have negative environmental impacts.

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