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The world is undergoing a significant shift toward sustainability and energy efficiency, with increasing awareness of the environmental challenges posed by traditional energy sources. Among the most energy-intensive systems in homes, businesses, and industrial settings are Heating, Ventilation, and Air Conditioning (HVAC) systems. These systems account for a substantial portion of global energy consumption and are often powered by fossil fuels, contributing to greenhouse gas emissions and environmental degradation. As the demand for energy continues to grow, so does the need for more sustainable and renewable solutions. Renewable energy, particularly solar, wind, and geothermal, presents a viable alternative to traditional power sources for HVAC systems. These natural energy sources offer a cleaner, more sustainable way to heat and cool buildings, reducing both energy costs and the carbon footprint of HVAC operations. The Importance of Renewable HVAC Systems HVAC systems are essential for maintaining indoor comfort, but their energy requirements can be immense, especially in extreme climates. Traditional systems rely heavily on electricity generated from non-renewable sources, leading to significant environmental impact. Transitioning to renewable HVAC solutions not only addresses environmental concerns but also offers long-term economic benefits. Renewable energy HVAC systems are designed to harness the power of the sun, wind, and the Earth itself to provide heating, cooling, and ventilation. These systems not only reduce dependence on fossil fuels but also help stabilize energy costs in the long run. With advances in technology, renewable HVAC systems have become more efficient, reliable, and affordable, making them a practical option for a wide range of applications—from residential homes to large commercial facilities.
Textbook on the science and methods behind a global transition to 100% clean, renewable energy for science, engineering, and social science students.
- This derivative volume stemming from content included in our seminal Power Electronics Handbook takes its chapters related to renewables and establishes them at the core of a new volume dedicated to the increasingly pivotal and as yet under-published intersection of Power Electronics and Alternative Energy. While this re-versioning provides a corollary revenue stream to better leverage our core handbook asset, it does more than simply re-package existing content. Each chapter will be significantly updated and expanded by more than 50%, and all new introductory and summary chapters will be added to contextualize and tie the volume together. Therefore, unlike traditional derivative volumes, we will be able to offer new and updated material to the market and include this largely original content in our ScienceDirect Energy collection. - Due to the inherently multi-disciplinary nature of renewables, many engineers come from backgrounds in Physics, Materials, or Chemical Engineering, and therefore do not have experience working in-depth with electronics. As more and more alternative and distributed energy systems require grid hook-ups and on-site storage, a working knowledge of batteries, inverters and other power electronics components becomes requisite. Further, as renewables enjoy broadening commercial implementation, power electronics professionals are interested to learn of the challenges and strategies particular to applications in alternative energy. This book will bring each group up-to-speed with the primary issues of importance at this technological node. - This content clarifies the juncture of two key coverage areas for our Energy portfolio: alternative sources and power systems. It serves to bridge the information in our power engineering and renewable energy lists, supporting the growing grid cluster in the former and adding key information on practical implementation to the latter. - Provides a thorough overview of the key technologies, methods and challenges for implementing power electronics in alternative energy systems for optimal power generation - Includes hard-to-find information on how to apply converters, inverters, batteries, controllers and more for stand-alone and grid-connected systems - Covers wind and solar applications, as well as ocean and geothermal energy, hybrid systems and fuel cells
Fundamentals of Renewable Energy Systems goes beyond theoretical aspects of advances in renewable energy and addresses future trends. By focusing on the design of developing technologies, relevant operation and detailed background and an understanding of the application of power electronics and thermodynamics processes in renewable energy, this book provides an analysis of advancing energy systems. The book will be of interest to engineering graduates, researchers, professors and industry professionals involved in the renewable energy sector and is ideal for advanced engineering courses dealing with renewable energy, sources, thermal and electrical energy production and sustainability. With increasing focus on developing low carbon energy production, audiences need to have the engineering knowledge and practical skills to develop and implement creative solutions to engineering problems encountered with renewable energy technologies. By looking at renewable energy capture and conversion, system design and analysis, project development and implementation, each modular chapter examines recent advances in specific renewable energy systems with detailed methods, calculations and worked examples. - Includes recent techniques used to design and model different renewable energy sources (RES) - Demonstrates how to use power electronics in renewable systems - Discusses how to identify, design, integrate and operate the most suitable technologies through key problems
This handbook opens with an overview of solar radiation and how its energy can be tapped using photovoltaic cells. Other chapters cover the technology, manufacture and application of PV cells in real situations. The book ends by exploring the economic and business aspects of PV systems.
Handbook of Energy and Environmental Security educates the reader about the wider dimensions of the distinctive yet intertwined subjects of 'energy security and 'environmental security'. The book uniquely addresses these two increasingly important topics in a comprehensive and composite manner, describing the concepts and wider dimensions of energy- and environmental security in technological, economic, social and geopolitical perspectives. Divided into three main parts, the book deals with the subject of energy security in terms of its concepts, broader dimensions and allied issues, focuses on environmental security, and covers subjects in a cohesive manner, discussing their important interfaces and commonalities. Providing valuable scholarship for academics, researchers and analysts in the fields of energy and the environment, and using case studies to illustrate national and international levels, this is a valuable resource for energy- and environmental security challenges, especially in the areas of sustainable development and climate change. - Discusses the critical subjects of 'energy security' and 'environmental security' in a composite manner - Incorporates up-to-date data, case studies and comparative assessments - Energy and environmental policy frameworks are covered from the perspective of both developed and developing countries
The subjects of green energy and sustainability have never been more important, as governments around the world wrestle with the problem of how to protect the planet from the damage being caused to the environment by climate change. This book presents the proceedings of GEESD2023, the 4th International Conference on Green Energy, Environment and Sustainable Development, held in Mianyang, China from 15-17 June 2023 and online via Zoom. The conference aims to gather innovative academicians and industry experts in the fields of green energy, environment, and sustainable development in a common forum, providing a platform for the exchange of the latest research developments in related fields. This year, the call for papers attracted more than 280 submissions, 138 of which were accepted for inclusion in this collection. The process of evaluation and peer-review took place over six months and involved more than 100 TPC members and reviewers. The book is divided into 7 sections: green energy and systems; computer methods in the environment; chemistry and the environment; ecology and the rural environment; energy, environment and economy; environment and pollution; and water and mineral resources. Papers deal with the most up-to-date findings and technologies. The book provides a valuable overview of the latest research and developments and will be of interest to all those working in the fields of green energy and sustainable development.
Chapters Chapter 1: Spaces for Well-being: Designing Healthy and Human-Centric Environments Chapter 2: Pushing the Limits: Breakthroughs in Structural Design Chapter 3: The Digital Transformation: Computational Tools in Building Design Chapter4: Building for a Green Tomorrow: Advancing Sustainable Architecture Chapter 5: Materials of Tomorrow: Revolutionizing Construction Techniques Chapter 6: Evaluation of the seismic performance of suspension bridges using nonlinear modeling and solutions to deal with failures in these structures Chapter 7: Smart Cities: Transforming Urban Infrastructure Chapter 8: Beyond Boundaries: Exploring the Future of Built Environments
Microgrids provide opportunities to develop new electrical networks targeted for the needs of communities. The fourth industrial revolution is associated with the global trend toward decentralizing energy grids. Within this context, microgrids are seen as a solution to how renewable electricity can be supplied to local areas. The Fundamentals of Microgrids: Development and Implementation provides an in-depth examination of microgrid energy sources, applications, technologies, and policies. This book considers the fundamental configurations and applications for microgrids and examines their use as a means of meeting international sustainability goals. It focuses on questions and issues associated with microgrid topologies, development, implementation and regulatory issues. Distributed energy resources are defined, stand-a-lone generation systems are described and examples of typical microgrid configurations are provided. The key components of developing a business model for microgrid development are also considered. Features: Describes what microgrids are and details the basics of how they work while considering benefits of microgrids and their disadvantages. Provides answers to the fundamental questions energy managers and other professionals want to know about the basics of microgrids. Details the applications for microgrids and demystifies the types of microgrid architectures that are successful. Includes real-world examples of functioning microgrids which provide models for the development of microgrids in the future. Discusses the key considerations that must be addressed to develop a business case for microgrid development.