January 25, 2021

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Building Integrated Photovoltaic Thermal Systems

Building Integrated Photovoltaic Thermal Systems
Author : Basant Agrawal,Gopal Nath Tiwari
Publisher : Royal Society of Chemistry
Release Date : 2011
Category : Science
Total pages :434
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Solar photovoltaics is one of the most promising renewable energy technologies, producing electricity on site directly from the solar radiation without harming the environment and depletion of materials. The Building Integrated Photovoltaic Thermal (BIPVT) system is a technology which merges PV and thermal systems, simultaneously providing both electric and thermal energy. Through this combination more energy is generated per unit surface area in comparison to the standalone photovoltaics system. Benefits of the BIPVT system include significantly increased electrical performance, faster payback than traditional systems, negligible impact on the environment and the product is easier and less expensive to install with low maintenance required. This book describes the recent developments in PV technologies, solar radiation available on the earth, various BIPVT systems and their applications, energy and exergy analysis, carbondioxide migration and credit earned, life cycle cost analysis and life cycle conversion efficiency. Presently there is no single book which covers all the basic and the advanced concepts related to the implementation of solar energy for the passive heating and cooling of the building. In addition to the basic concepts, the book includes the technology advances, modelling and analysis and ongoing research in the area of BIPVT. Key features of book include: -Solar heating and cooling concepts -Thermal comfort -Performance analysis of BIPVT system -Worldwide case studies -Energy payback period -Techno-economics and sustainability of the system The book, written by experts in the field with years of research and teaching, is intended for the specialists, scientists and people involved in research in the disciplines of renewable energy, energy studies, building energy or carbon credit. For the practicing professional, advanced senior or graduate student with work experience, the book should be used as part of an integrative program enabling them to make deep linkages and thus better decisions in the professional world.

Building Integrated Photovoltaic Thermal Systems

Building Integrated Photovoltaic Thermal Systems
Author : Basant Agrawal,Gopal Nath Tiwari
Publisher : Royal Society of Chemistry
Release Date : 2010-11-01
Category : Science
Total pages :318
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Solar photovoltaics is one of the most promising renewable energy technologies, producing electricity on site directly from the solar radiation without harming the environment and depletion of materials. The Building Integrated Photovoltaic Thermal (BIPVT) system is a technology which merges PV and thermal systems, simultaneously providing both electric and thermal energy. Through this combination more energy is generated per unit surface area in comparison to the standalone photovoltaics system. Benefits of the BIPVT system include significantly increased electrical performance, faster payback than traditional systems, negligible impact on the environment and the product is easier and less expensive to install with low maintenance required. This book describes the recent developments in PV technologies, solar radiation available on the earth, various BIPVT systems and their applications, energy and exergy analysis, carbondioxide migration and credit earned, life cycle cost analysis and life cycle conversion efficiency. Presently there is no single book which covers all the basic and the advanced concepts related to the implementation of solar energy for the passive heating and cooling of the building. In addition to the basic concepts, the book includes the technology advances, modelling and analysis and ongoing research in the area of BIPVT. Key features of book include: -Solar heating and cooling concepts -Thermal comfort -Performance analysis of BIPVT system -Worldwide case studies -Energy payback period -Techno-economics and sustainability of the system The book, written by experts in the field with years of research and teaching, is intended for the specialists, scientists and people involved in research in the disciplines of renewable energy, energy studies, building energy or carbon credit. For the practicing professional, advanced senior or graduate student with work experience, the book should be used as part of an integrative program enabling them to make deep linkages and thus better decisions in the professional world.

Building Integrated Photovoltaic Thermal Systems

Building Integrated Photovoltaic Thermal Systems
Author : Huiming Yin,Mehdi Zadshir,Frank Pao
Publisher : Academic Press
Release Date : 2021-06-15
Category : Science
Total pages :500
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Building Integrated Photovoltaic Thermal Systems: Fundamentals, Designs and Applications is a thorough reference in the fundamentals of Building Integrated Photovolatics (BIPV) and Building Integrated Photovoltaic Thermal Systems (BIPVT). Looking at various applications, system designs, manufacturing and installation of building integrated photovoltaics, this book provides a comprehensive understanding of all system components, long term performance and testing and commercialization of BIPV systems. By addressing potential obstacles with current BIPV systems, such as photovoltaic efficiency bottlenecks and product heat harvesting, the authors not only cover fundamentals and design philosophy of current technology but introduce a hybrid system looking at building integrated thermal electric roofing to provide readers with potential solutions in tackling these common challenges. The topics covered in this book are useful for scientists and engineers in the fields of photovoltaics, electrical and civil engineering, material science as well as researchers and specialists in the areas of sustainable energy harvesting, solar, 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 and offers unique solutions to overcome them

Building-Integrated Solar Energy Systems

Building-Integrated Solar Energy Systems
Author : Robert E. Parkin
Publisher : CRC Press
Release Date : 2017-01-06
Category : Technology & Engineering
Total pages :588
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This book presents techniques for building and optimizing structures with integrated solar energy systems. It describes active solar systems such as photovoltaics and parabolic concentrators as well as passive solar systems and covers optimal materials to use, daylighting, shading, solar blinds, rock and water energy storage and more. It discusses the best ways to site a solar structure considering exposure, elevation, slope, clearance, wind protection, etc. The book includes numerous full-color figures and more than 100 MATLAB® files.

Building-integrated Solar Technology

Building-integrated Solar Technology
Author : Gerd Becker
Publisher : DETAIL Green Books
Release Date : 2017
Category : Electronic books
Total pages :144
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It's already impossible to imagine energy-efficient construction without photovoltaics and solar thermal. Yet, the EU-wide introduction of low energy standards for new buildings stipulates that buildings must meet their energy needs in whole or in part from the sun by 2021 at the latest. The integration of solar systems into buildings is no longer just a technical matter, but also a structural and aesthetic challenge. This book provides the necessary expertise for this purpose. In addition to basic physics and technological developments in photovoltaics and solar thermal, the publication offers abundant advice from architects on how to successfully integrate solar systems into buildings. A number of chapters address the economical and ecological deployment of solar technology as well as issues of building laws and the preservation of listed buildings. Illustrated and expanded by numerous photos and detailed project documentation, "Building-Integrated Solar Technology" not only demonstrates the tremendous variety of construction tasks and integration possibilities, but also shows that self-sustaining buildings in terms of energy can also become a powerful architectural and cultural asset.

Photovoltaic/Thermal (PV/T) Systems

Photovoltaic/Thermal (PV/T) Systems
Author : Ali H. A. Al-Waeli,Hussein A. Kazem,Miqdam Tariq Chaichan,Kamaruzzaman Sopian
Publisher : Springer Nature
Release Date : 2019-10-25
Category : Technology & Engineering
Total pages :282
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This book provides the most up-to-date information on hybrid solar cell and solar thermal collectors, which are commonly referred to as Photovoltaic/Thermal (PV/T) systems. PV/T systems convert solar radiation into thermal and electrical energy to produce electricity, utilize more of the solar spectrum, and save space by combining the two structures to cover lesser area than two systems separately. Research in this area is growing rapidly and is highlighted within this book. The most current methods and techniques available to aid in overall efficiency, reduce cost and improve modeling and system maintenance are all covered. In-depth chapters present the background and basic principles of the technology along with a detailed review of the most current literature. Moreover, the book details design criteria for PV/T systems including residential, commercial, and industrial applications. Provides an objective and decisive source for the supporters of green and renewable source of energy Discusses and evaluates state-of-the-art PV/T system designs Proposes and recommends potential designs for future research on this topic

Solar Technologies for Buildings

Solar Technologies for Buildings
Author : Ursula Eicker
Publisher : John Wiley & Sons
Release Date : 2006-08-14
Category : Technology & Engineering
Total pages :336
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A complete overview of solar technologies relevant to the built environment, including solar thermal energy for heating and cooling, passive solar energy for daylighting and heating supply, and photovoltaics for electricity production Provides practical examples and calculations to enable component and system simulation e.g. Calculation of U-values, I-V curve parameters and radiance distribution modelling Discusses the new trends in thermal energy use, including the architectural integration of collector systems, integrated ventilation photovoltaics facades and solar powered absorption cooling systems Coverage of cutting-edge applications such as active and passive cooling techniques and results from ongoing research projects

Architectural Integration and Design of Solar Thermal Systems

Architectural Integration and Design of Solar Thermal Systems
Author : Maria Cristina Munari Probst,Christian Roecker
Publisher : EPFL Press
Release Date : 2011
Category : Architectural design
Total pages :171
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Although solar thermal systems are technologically mature and cost effective, they have not yet been sufficiently used in building design to play an adequate role in the reduction of fossil fuel consumption. One main hindrance to adoption is the generally low architectural design quality of the building integration of these thermal systems. Starting from a definition of architectural integration quality and related criteria, this book is intended to help both architects and manufacturers improve their design work.

Designing with Solar Power

Designing with Solar Power
Author : Deo Prasad,Mark Snow
Publisher : Routledge
Release Date : 2014-04-23
Category : Architecture
Total pages :252
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Designing with Solar Power is the result of international collaborative research and development work carried out within the framework of the International Energy Agency's Photovoltaic Power Systems Programme (PVPS) and performed within its Task 7 on 'Photovoltaic power systems in the built environment'. Each chapter of this precisely detailed and informative book has been prepared by an international expert in a specific area related to the development, use and application of building-integrated photovoltaics (BiPV). Chapters not only cover the basics of solar power and electrical concepts, but also investigate the ways in which photovoltaics can be integrated into the design and creation of buildings equipped for the demands of the 21st century. The potential for BiPV, in both buildings and other structures, is explored together with broader issues such as market deployment, and international marketing and government strategies. In addition, more than 20 contemporary international case studies describe in detail how building-integrated photovoltaics have been applied to new and existing buildings, and discuss the architectural and technical quality, and the success of various strategies. Packed with photographs and illustrations, this book is an invaluable companion for architects, builders, designers, engineers, students and all involved with the exciting possibilities of building-integrated photovoltaics.

Solar and Heat Pump Systems for Residential Buildings

Solar and Heat Pump Systems for Residential Buildings
Author : Jean-Christophe Hadorn
Publisher : John Wiley & Sons
Release Date : 2015-09-08
Category : Technology & Engineering
Total pages :274
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The combination of heat pumps and solar components is a recent development and has great potential for improving the energy efficiency of house and hot water heating systems. As a consequence, it can enhance the energy footprint of a building substantially. This work compares different systems, analyses their performance and illustrates monitoring techniques. It helps the reader to design, simulate and assess solar and heat pump systems. Good examples of built systems are discussed in detail and advice is given on how to design the most efficient system. This book is the first one about this combination of components and presents the state of the art of this technology. It is based on a joint research project of two programmes of the International Energy Agency: the Solar Heating and Cooling Programme (SHC) and the Heat Pump Programme. More than 50 experts from 13 countries have participated in this research.

Building-Integrated Photovoltaic Systems (BIPVS)

Building-Integrated Photovoltaic Systems (BIPVS)
Author : Andrés Julián Aristizábal Cardona,Carlos Arturo Páez Chica,Daniel Hernán Ospina Barragán
Publisher : Springer
Release Date : 2018-01-02
Category : Science
Total pages :141
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This book discusses building-integrated photovoltaic systems (BIPV) and provides solutions for solving problems related to designing, sizing and monitoring a BIPV that has been used to replace conventional building materials in parts of the building envelope such as the roof, skylights or facades. The book begins by introducing the basics to readers interested in learning about this technology and then outlines in an accessible way, a practical development plan for the installation and monitoring of these systems in residential, industrial, and commercial buildings. Chapters discuss the needs of installing, designing, and sizing and provide a financial analysis for a successful implementation of a BIPV system. This book is a useful tool for renewable energy designers, energy contractors, architects, government institutions, and those in the academic community who are interested in seamlessly integrating solar panels into the construction phase of new building projects or retrofitted into existing buildings.

Cold Climate HVAC 2018

Cold Climate HVAC 2018
Author : Dennis Johansson,Hans Bagge,Åsa Wahlström
Publisher : Springer
Release Date : 2018-12-12
Category : Architecture
Total pages :1095
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This volume presents the proceedings of the 9th Cold Climate HVAC conference, which was held in Kiruna, Sweden in 2018. The conference highlighted key technologies and processes that allow scientists, designers, engineers, manufacturers and other decision makers in cold climate regions to achieve good indoor environmental quality (IEQ) with a minimum use of energy and other resources. The conference addressed various technical, economic and social aspects of buildings and HVAC systems in new and renovated buildings. This proceedings volume gathers peer-reviewed papers by a diverse and international range of authors and showcases perspectives and practices in cold climate building design from around the globe. The following major aspects, which include both fundamental and theoretical research as well as applications and case studies, are covered: (1) Energy and power efficiency and low-energy buildings; (2) Renovating buildings; (3) Efficient HVAC components; (4) Heat pumps and geothermal systems; (5) Municipal and city energy systems; (6) Construction management; (7) Buildings in operation; (8) Building simulation; (9) Reference data; (10) Transdisciplinary connections and social aspects; (11) Indoor environments and health; (12) Moisture safety and water damage; (13) Codes, regulations, standards and policies; and (14) Other aspects of buildings in cold climates.

Solar Energy Engineering

Solar Energy Engineering
Author : Soteris A. Kalogirou
Publisher : Academic Press
Release Date : 2013-10-25
Category : Science
Total pages :840
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Energy policy promoting sustainable development is transforming global energy markets. Solar power, the most abundant of all renewable resources, is crucial to greater achieving energy security and sustainability. This new edition of Solar Energy Engineering: Processes and Systems from Prof. Soteris Kalogirou, a renowned expert with over thirty years of experience in renewable energy systems and applications, includes revised and updated chapters on all areas of solar energy engineering from the fundamentals to the highest level of current research. The book includes high interest topics such as solar collectors, solar water heating, solar space heating and cooling, industrial process heat, solar desalination, photovoltaic technology, solar thermal power systems, modeling of solar energy systems and includes a new chapter on wind energy systems. As solar energy’s vast potential environmental and socioeconomic benefits are broadly recognized, the second edition of Solar Energy Engineering: Processes and Systems will provide professionals and students with a resource on the basic principles and applications of solar energy systems and processes and can be used as a reference guide to practicing engineers who want to understand how solar systems operate and how to design the systems. Written by one of the world’s most renowned experts in solar energy with over thirty years of experience in renewable and particularly solar energy applications Provides updated chapters including new sections detailing solar collectors, uncertainties in solar collector performance testing, building-integrated photovoltaics (BIPV), thermosiphonic systems performance prediction and solar updraft tower systems Includes a new chapter on wind energy systems Packed with reference tables and schematic diagrams for the most commonly used systems

A Comprehensive Guide to Solar Energy Systems

A Comprehensive Guide to Solar Energy Systems
Author : Trevor M. Letcher,Vasilis M. Fthenakis
Publisher : Academic Press
Release Date : 2018-05-17
Category : Science
Total pages :540
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A Comprehensive Guide to Solar Energy Systems: With Special Focus on Photovoltaic Systems, the most advanced and research focused text on all aspects of solar energy engineering, is a must have edition on the present state of solar technology, integration and worldwide distribution. In addition, the book provides a high-level assessment of the growth trends in photovoltaics and how investment, planning and economic infrastructure can support those innovations. Each chapter includes a research overview with a detailed analysis and new case studies that look at how recent research developments can be applied. Written by some of the most forward-thinking professionals, this book is an invaluable reference for engineers. Contains analysis of the latest high-level research and explores real world application potential in relation to developments Uses system international (SI) units and imperial units throughout to appeal to global engineers Offers measurable data written by a world expert in the field on the latest developments in this fast moving and vital subject

Experimental Investigation of a Building Integrated Photovoltaic/thermal Roof Collector Combined with a Liquid Desiccant Enhanced Indirect Evaporative Cooling System

Experimental Investigation of a Building Integrated Photovoltaic/thermal Roof Collector Combined with a Liquid Desiccant Enhanced Indirect Evaporative Cooling System
Author : Anonim
Publisher : Unknown
Release Date : 2015
Category :
Total pages :129
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Highlights: Novel solar thermal collector for liquid desiccant air conditioning was introduced. Low cost poly heat exchanger loop underneath the photovoltaic modules was proposed. The ability of the combined system was experimentally investigated. Water temperature in the loop could reach up to 35.5 °C during the tests. This tri-gen system can supply 3 kW heating, 5.2 kW cooling and 10.3 MW h/year power. Abstract: Large consumption of limited conventional fossil fuel resources, economic and environmental problems associated with the global warming and climate change have emphasized the immediate need to transition to renewable energy resources. Solar thermal applications along with renewable energy based cooling practices have attracted considerable interest towards sustainable solutions promising various technical, economic and environmental benefits. This study introduces a new concept on solar thermal energy driven liquid desiccant based dew point cooling system that integrates several green technologies; including photovoltaic modules, polyethylene heat exchanger loop and a combined liquid desiccant dehumidification-indirect evaporative air conditioning unit. A pilot scale experimental set-up was developed and tested to investigate the performance of the proposed system and influence of the various parameters such as weather condition, air flow and regeneration temperature. A cost effective, easy-to-make polyethylene heat exchanger loop was employed underneath PV panels for heat generation. In addition, a liquid desiccant enhanced dew point cooling unit was utilized to provide air conditioning through dehumidification of humid air and indirect evaporative cooling. The experimental results show that the proposed tri-generation system is capable of providing about 3 kW of heating, 5.2 kW of cooling power and 10.3 MW h/year power generation, respectively. The findings confirm the potential of the examined technology, and elucidate the specific conclusions for the practice of such systems.