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Fundamentals of Building Energy Dynamics assesses how and why buildings use energy, and how energy use and peak demand can be reduced. It provides a basis for integrating energy efficiency and solar approaches in ways that will allow building owners and designers to balance the need to minimize initial costs, operating costs, and life-cycle costs with need to maintain reliable building operations and enhance environmental quality both inside and outside the building. Chapters trace the development of building energy systems and analyze the demand side of solar applications as a means for determining what portion of a building's energy requirements can potentially be met by solar energy. Following the introduction, the book provides an overview of energy usepatterns in the aggregate U.S. building population. Chapter 3 surveys work onthe energy flows in an individual building and shows how these flows interact to influence overall energy use. Chapter 4 presents the analytical methods, techniques, and tools developed to calculate and analyze energy use in buildings, while chapter 5 provides an extensive survey of the energy conservation and management strategies developed in the post-energy crisis period. The approach taken is a commonsensical one, starting with the proposition that the purpose of buildings is to house human activities, and that conservation measures that negatively affect such activities are based on false economies. The goal is to determine rational strategies for the design of new buildings, and the retrofit of existing buildings to bring them up to modern standards of energy use. The energy flows examined are both large scale (heating systems) and small scale (choices among appliances). Solar Heat Technologies: Fundamentals and Applications, Volume 4
This unique volume offers insights from renowned experts in energy efficient building from the world over, providing a multi-faceted overview of the state-of-the-art in energy efficient architecture. It opens by defining what constitutes a sustainable building, suggesting bases for sorely needed benchmarks, then explains the most important techniques and tools available to engineers and architects exploring green building technologies. It covers such pivotal issues as daylighting, LED lighting, integrating renewables such as solar thermal and cooling, retrofitting, LEED and similar certification efforts, passive houses, net-zero and close-zero structures, water recycling, and much more. Highlighting best practices for commercial buildings and private homes, in widely varied climates and within vastly different socio-economic contexts, this illustrated reference will guide architects and engineers in making sustainable choices in building materials and methods. - Explains the best methods and materials to support energy efficient building - Features case studies by experts from a dozen countries, demonstrating how sustainable architecture can be achieved in varied climates and economies - Covers both new constructions and retrofitting of existing structures
Thanks to economic incentives such as tax credits, green building has become a booming trend in the construction industry. This title is intended for electrical engineers, construction managers, construction and building inspectors.
3rd International Conference on Design, Materials and Manufacturing (3rd ICDMM) Selected, peer reviewed papers from the 3rd International Conference on Design, Materials and Manufacturing (ICDMM 2018), August 11-13, 2018, Okinawa, Japan
An important consideration for energy-efficient buildings is their primary energy requirements over the entire life cycle. How to determine this? What integrative factors influence the performance of a healthy and sustainable building? This, while it may be important for clients and architects to know, is frequently not very transparent. This book has been written to assist with clarifying target criteria and expanding horizons when it comes to ecological buildings. It is meant as a handbook and source of reference for clients, architects, planners and building operators, to provide them with pertinent information about their design, construction and operation: how to do this in the most energy-efficient and economical manner? Also, there is feedback and documentation about prominent buildings like the Hamburg Dockland or the Landesbank Baden-Wuerttemberg in Stuttgart. They provide excellent architectural examples for detailed construction and design solutions. Further, there are insightful interviews with architects and clients about many important buildings, which help turn this book into an integrated source of reference for sustainable architecture. - A Guideline for Planning, Construction and Operation of sustainable Buildings - A source of reference for clients, architects, planners and building operators - Innovative architectural examples with sustainable concepts and design
Building Integrated Photovoltaic Thermal Systems: Fundamentals, Designs, and Applications presents various applications, system designs, manufacturing, and installation techniques surrounding how to build integrated photovoltaics. This book provides a comprehensive understanding of all system components, long-term performance and testing, and the commercialization of building integrated photovoltaic thermal (BIPVT) systems. By addressing potential obstacles with current photovoltaic (PV) systems, such as efficiency bottlenecks and product heat harvesting, the authors not only cover the fundamentals and design philosophy of the BIPVT technology, but also introduce a hybrid system for building integrated thermal electric roofing. Topics covered in Building Integrated Photovoltaic Thermal Systems are useful for scientists and engineers in the fields of photovoltaics, electrical and civil engineering, materials science, sustainable energy harvesting, solar energy, and renewable energy production. - Contains system integration methods supported by industry developments - Includes real-life examples and functional projects as case studies for comparison - Covers system design challenges, offering unique solutions
This edited volume presents chapters on the dynamics of global climate change and global warming in the Middle East. In this region, it should be noted that even slightly warmer weather can result in an increased demand of energy along with its lower supply, as well as lower labor productivity. This text focuses on modeling, simulation, system dynamics, and agent-based modeling in dealing with these issues. The latest decision making tools, techniques, and innovative solutions used to overcome these challenges are presented. Many distinguished researchers contribute their work herein. The audience for this volume includes policy makers, researchers, and students unified by the common goal of making better decisions in the sustainable production and consumption of energy. The practical orientation of the chapters within each part is intended to suit the practitioners: managers and decision makers in the energy sector of the Middle East region.
The text begins by discussing the sustainable buildings, energy efficient technologies, advanced materials, advances in renewable energy for building sector, green intelligent infrastructure, policies on sustainable infrastructure, and life cycle assessment. It further presents design considerations, challenges, and applications of net zero energy buildings with a global perspective. The book covers renewable energy technologies for energy-efficient buildings. This book: Discusses the importance of developing new materials for Energy and Heat Transfer Optimization in sustainable buildings and Life Cycle Assessment of Sustainable Building Materials. Investigates the city gas system, sustainable smart cities infrastructure, and Data Mining Techniques in Green Building for Evaluation of energy Cost, Grades and Adoption. Highlights the development and application Net Zero Energy Buildings, Energy Policies and Infrastructure Requirements, Building Performance Prediction & Optimization, and Energy Planning and Thermal Comfort in Buildings Presents renewable energy policies, Social, Economic, and Environmental Issues Associated with Sustainable Buildings, and Emerging Trends in Smart Green Building Technologies. Covers Energy-Efficient Urban Infrastructure, Earth-Air Heat Exchanger, and Retrofitting of existing buildings to achieve energy efficient buildings. It is primarily written for senior undergraduates, graduate students, and academic researchers in the fields of energy engineering, environmental science and engineering, materials science, mechanical engineering, and civil engineering.
This book analyzes the current approaches to energy management in India that is based on a carbon-intensive pathway, which if continued, may have serious implications for climate change mitigation with severe consequences for human health and survival. India, being a signatory to the United Nations Framework Convention on Climate Change (UNFCCC), the Kyoto Protocol, and the Paris Agreement, is committed to reducing greenhouse gas emissions; however, the country’s dilemmas are whether to prioritize environment over economy or vice versa and also whether economic growth can be sustained by relying on carbon-intensive development. Those are explored in this book. The Indian economy is poised for a big leap in the near future, and the topmost priority of the government is to ensure energy security, accessibility, and affordability for nearly 1.5 billion people. Currently, 70% of India’s electricity generation comes from coal- and oil-based thermal power plants, and only 12–15% of energy is generated from renewable sources. Experts are of the view that the demand for coal and gas power generation will continue to rise and is expected to reach the equivalent of nearly 2 billion t of oil by 2030. The annual consumption of natural gas is expected to increase fourfold to 200 billion m3 a year in the near future, and its share in the primary energy basket of coal, oil, and gas will rise from 6.5% to 15% by 2030. This will not only cause a significant drain on foreign reserves but will also pose an enormous challenge to policymakers and scientists. This book serves as a useful guide in shaping India’s future energy policy.