Thermal Behavior of Photovoltaic Devices

Thermal Behavior of Photovoltaic Devices

Author: Olivier Dupré

Publisher: Springer

Published: 2016-12-02

Total Pages: 142

ISBN-13: 3319494570

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This book provides a comprehensive introduction to the thermal issues in photovoltaics. It also offers an extensive overview of the physics involved and insights into possible thermal optimizations of the different photovoltaic device technologies.In general, temperature negatively affects the efficiency of photovoltaic devices. The first chapter describes the temperature-induced losses in photovoltaic devices and reviews the strategies to overcome them. The second chapter introduces the concept of temperature coefficient, the underlying physics and some guidelines for reducing their negative impacts. Subsequent chapters offer a comprehensive and general thermal model of photovoltaic devices, and review how current and emerging technologies, mainly solar cells but also thermophotovoltaic devices, can benefit from thermal optimizations.Throughout the book, the authors argue that the energy yield of photovoltaic devices can be optimized by taking their thermal behavior and operating conditions into consideration in their design.


Book Synopsis Thermal Behavior of Photovoltaic Devices by : Olivier Dupré

Download or read book Thermal Behavior of Photovoltaic Devices written by Olivier Dupré and published by Springer. This book was released on 2016-12-02 with total page 142 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides a comprehensive introduction to the thermal issues in photovoltaics. It also offers an extensive overview of the physics involved and insights into possible thermal optimizations of the different photovoltaic device technologies.In general, temperature negatively affects the efficiency of photovoltaic devices. The first chapter describes the temperature-induced losses in photovoltaic devices and reviews the strategies to overcome them. The second chapter introduces the concept of temperature coefficient, the underlying physics and some guidelines for reducing their negative impacts. Subsequent chapters offer a comprehensive and general thermal model of photovoltaic devices, and review how current and emerging technologies, mainly solar cells but also thermophotovoltaic devices, can benefit from thermal optimizations.Throughout the book, the authors argue that the energy yield of photovoltaic devices can be optimized by taking their thermal behavior and operating conditions into consideration in their design.

Physics of the Thermal Behavior of Photovoltaic Devices

Physics of the Thermal Behavior of Photovoltaic Devices

Author: Olivier Dupré

Publisher:

Published: 2020

Total Pages: 221

ISBN-13:

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This Ph.D. thesis manuscript reports on a study about the physics of the thermal behavior of photovoltaic (PV) systems. While it is long known that the conversion efficiency of PV devices deteriorates when their temperature increases, a detailed analysis of all the mechanisms involved was not available to date in the literature. Part I of this manuscript gathers and extends the existing works on the topic in order to offer a comprehensive view of the physics involved in the temperature sensitivities of PV systems. First, temperature coefficients, which quantify the temperature dependences, are analyzed in the radiative limit (which is the fundamental limit for PV conversion). Then, the additional loss mechanisms of real PV devices are introduced and their impacts on the temperature coefficients are assessed. The existing theoretical expressions of the temperature coefficients of important solar cell parameters (namely open-circuit voltage, short-circuit current and fill factor) are reviewed. A new formulation of the temperature coefficient of the open-circuit voltage that incorporates the concept of External Radiative Efficiency (ERE) is proposed. The theoretical expressions are compared to experimental results on crystalline silicon cells from measurements made at the University of New South Wales (UNSW, Australia) and from the literature. Using the understanding of the relation between the temperature coefficients and device physics, the special cases of silicon heterojunction cells and cells made from compensated silicon are examined. Because temperature has a critical impact on the performances of PV devices, several studies aimed on the one hand at predicting the temperature of PV modules from their operating conditions and on the other hand at designing inexpensive cooling solutions. The goal of Part II of this manuscript is to propose an original approach to minimize the temperature-induced losses in PV systems. The idea is to include the operating conditions in the optimization of the system parameters in order to maximize the power produced in these conditions rather than in the Standard Test Conditions (STC). These original optimizations are based on a comprehensive thermal model of PV cells that captures all of the physical mechanisms involved in the generation of heat within the cell. Following the presentation of this thermal model, several examples of global optimization (i.e. a thermal criterion is added to the usual optical and electrical ones) are presented. Some of these examples apply to standard solar cells while others demonstrate that this kind of optimization can be applied to other PV systems such as thermophotovoltaic (TPV) converters (solar or near-field TPV). The recent trend of the PV industry towards the creation of products specifically adapted to a given use suggests that these original optimizations that take into account the system operating conditions could be implemented in the near future.


Book Synopsis Physics of the Thermal Behavior of Photovoltaic Devices by : Olivier Dupré

Download or read book Physics of the Thermal Behavior of Photovoltaic Devices written by Olivier Dupré and published by . This book was released on 2020 with total page 221 pages. Available in PDF, EPUB and Kindle. Book excerpt: This Ph.D. thesis manuscript reports on a study about the physics of the thermal behavior of photovoltaic (PV) systems. While it is long known that the conversion efficiency of PV devices deteriorates when their temperature increases, a detailed analysis of all the mechanisms involved was not available to date in the literature. Part I of this manuscript gathers and extends the existing works on the topic in order to offer a comprehensive view of the physics involved in the temperature sensitivities of PV systems. First, temperature coefficients, which quantify the temperature dependences, are analyzed in the radiative limit (which is the fundamental limit for PV conversion). Then, the additional loss mechanisms of real PV devices are introduced and their impacts on the temperature coefficients are assessed. The existing theoretical expressions of the temperature coefficients of important solar cell parameters (namely open-circuit voltage, short-circuit current and fill factor) are reviewed. A new formulation of the temperature coefficient of the open-circuit voltage that incorporates the concept of External Radiative Efficiency (ERE) is proposed. The theoretical expressions are compared to experimental results on crystalline silicon cells from measurements made at the University of New South Wales (UNSW, Australia) and from the literature. Using the understanding of the relation between the temperature coefficients and device physics, the special cases of silicon heterojunction cells and cells made from compensated silicon are examined. Because temperature has a critical impact on the performances of PV devices, several studies aimed on the one hand at predicting the temperature of PV modules from their operating conditions and on the other hand at designing inexpensive cooling solutions. The goal of Part II of this manuscript is to propose an original approach to minimize the temperature-induced losses in PV systems. The idea is to include the operating conditions in the optimization of the system parameters in order to maximize the power produced in these conditions rather than in the Standard Test Conditions (STC). These original optimizations are based on a comprehensive thermal model of PV cells that captures all of the physical mechanisms involved in the generation of heat within the cell. Following the presentation of this thermal model, several examples of global optimization (i.e. a thermal criterion is added to the usual optical and electrical ones) are presented. Some of these examples apply to standard solar cells while others demonstrate that this kind of optimization can be applied to other PV systems such as thermophotovoltaic (TPV) converters (solar or near-field TPV). The recent trend of the PV industry towards the creation of products specifically adapted to a given use suggests that these original optimizations that take into account the system operating conditions could be implemented in the near future.

Photovoltaic/Thermal (PV/T) Systems

Photovoltaic/Thermal (PV/T) Systems

Author: Ali H. A. Al-Waeli

Publisher: Springer Nature

Published: 2019-10-25

Total Pages: 282

ISBN-13: 3030278247

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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


Book Synopsis Photovoltaic/Thermal (PV/T) Systems by : Ali H. A. Al-Waeli

Download or read book Photovoltaic/Thermal (PV/T) Systems written by Ali H. A. Al-Waeli and published by Springer Nature. This book was released on 2019-10-25 with total page 282 pages. Available in PDF, EPUB and Kindle. Book excerpt: 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

Ultra-High Temperature Thermal Energy Storage, Transfer and Conversion

Ultra-High Temperature Thermal Energy Storage, Transfer and Conversion

Author: Alejandro Datas

Publisher: Woodhead Publishing

Published: 2020-09-01

Total Pages: 370

ISBN-13: 0128204214

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Ultra-High Temperature Thermal Energy Storage, Transfer and Conversion presents a comprehensive analysis of thermal energy storage systems operating at beyond 800°C. Editor Dr. Alejandro Datas and his team of expert contributors from a variety of regions summarize the main technological options and the most relevant materials and characterization considerations to enable the reader to make the most effective and efficient decisions.This book helps the reader to solve the very specific challenges associated with working within an ultra-high temperature energy storage setting. It condenses and summarizes the latest knowledge, covering fundamentals, device design, materials selection and applications, as well as thermodynamic cycles and solid-state devices for ultra-high temperature energy conversion.This book provides a comprehensive and multidisciplinary guide to engineers and researchers in a variety of fields including energy conversion, storage, cogeneration, thermodynamics, numerical methods, CSP, and materials engineering. It firstly provides a review of fundamental concepts before exploring numerical methods for fluid-dynamics and phase change materials, before presenting more complex elements such as heat transfer fluids, thermal insulation, thermodynamic cycles, and a variety of energy conversation methods including thermophotovoltaic, thermionic, and combined heat and power. Reviews the main technologies enabling ultra-high temperature energy storage and conversion, including both thermodynamic cycles and solid-state devices Includes the applications for ultra-high temperature energy storage systems, both in terrestrial and space environments Analyzes the thermophysical properties and relevant experimental and theoretical methods for the analysis of high-temperature materials


Book Synopsis Ultra-High Temperature Thermal Energy Storage, Transfer and Conversion by : Alejandro Datas

Download or read book Ultra-High Temperature Thermal Energy Storage, Transfer and Conversion written by Alejandro Datas and published by Woodhead Publishing. This book was released on 2020-09-01 with total page 370 pages. Available in PDF, EPUB and Kindle. Book excerpt: Ultra-High Temperature Thermal Energy Storage, Transfer and Conversion presents a comprehensive analysis of thermal energy storage systems operating at beyond 800°C. Editor Dr. Alejandro Datas and his team of expert contributors from a variety of regions summarize the main technological options and the most relevant materials and characterization considerations to enable the reader to make the most effective and efficient decisions.This book helps the reader to solve the very specific challenges associated with working within an ultra-high temperature energy storage setting. It condenses and summarizes the latest knowledge, covering fundamentals, device design, materials selection and applications, as well as thermodynamic cycles and solid-state devices for ultra-high temperature energy conversion.This book provides a comprehensive and multidisciplinary guide to engineers and researchers in a variety of fields including energy conversion, storage, cogeneration, thermodynamics, numerical methods, CSP, and materials engineering. It firstly provides a review of fundamental concepts before exploring numerical methods for fluid-dynamics and phase change materials, before presenting more complex elements such as heat transfer fluids, thermal insulation, thermodynamic cycles, and a variety of energy conversation methods including thermophotovoltaic, thermionic, and combined heat and power. Reviews the main technologies enabling ultra-high temperature energy storage and conversion, including both thermodynamic cycles and solid-state devices Includes the applications for ultra-high temperature energy storage systems, both in terrestrial and space environments Analyzes the thermophysical properties and relevant experimental and theoretical methods for the analysis of high-temperature materials

Building Physics and Building Energy Systems

Building Physics and Building Energy Systems

Author: Davide Astiaso Garcia

Publisher: MDPI

Published: 2021-03-19

Total Pages: 194

ISBN-13: 3036505180

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The energy transition is one of the key approaches in the effort to halt climate changes, and it has become even more essential in the light of the recent COVID-19 pandemic. Fostering the energy efficiency and the energy independence of the building sector is a focal aim to move towards a decarbonized society. In this context, building physics and building energy systems are fundamental disciplines based on applied physics applications in civil, architectural, and environmental engineering, including technical themes related to the planning of energy and the environment, diagnostic methods, and mitigating techniques. This Special Issue contains information on experimental studies in the following research topics: renewable energy sources, building energy analysis, rational use of energy, heat transmission, heating and cooling systems, thermofluid dynamics, smart energy systems, and energy service management in buildings.


Book Synopsis Building Physics and Building Energy Systems by : Davide Astiaso Garcia

Download or read book Building Physics and Building Energy Systems written by Davide Astiaso Garcia and published by MDPI. This book was released on 2021-03-19 with total page 194 pages. Available in PDF, EPUB and Kindle. Book excerpt: The energy transition is one of the key approaches in the effort to halt climate changes, and it has become even more essential in the light of the recent COVID-19 pandemic. Fostering the energy efficiency and the energy independence of the building sector is a focal aim to move towards a decarbonized society. In this context, building physics and building energy systems are fundamental disciplines based on applied physics applications in civil, architectural, and environmental engineering, including technical themes related to the planning of energy and the environment, diagnostic methods, and mitigating techniques. This Special Issue contains information on experimental studies in the following research topics: renewable energy sources, building energy analysis, rational use of energy, heat transmission, heating and cooling systems, thermofluid dynamics, smart energy systems, and energy service management in buildings.

Energy: a Continuing Bibliography with Indexes

Energy: a Continuing Bibliography with Indexes

Author:

Publisher:

Published: 1981

Total Pages: 490

ISBN-13:

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Book Synopsis Energy: a Continuing Bibliography with Indexes by :

Download or read book Energy: a Continuing Bibliography with Indexes written by and published by . This book was released on 1981 with total page 490 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Energy

Energy

Author:

Publisher:

Published: 1981

Total Pages: 378

ISBN-13:

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Book Synopsis Energy by :

Download or read book Energy written by and published by . This book was released on 1981 with total page 378 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Solar Energy Update

Solar Energy Update

Author:

Publisher:

Published: 1984

Total Pages: 680

ISBN-13:

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Book Synopsis Solar Energy Update by :

Download or read book Solar Energy Update written by and published by . This book was released on 1984 with total page 680 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Energy Research Abstracts

Energy Research Abstracts

Author:

Publisher:

Published: 1988

Total Pages: 752

ISBN-13:

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Book Synopsis Energy Research Abstracts by :

Download or read book Energy Research Abstracts written by and published by . This book was released on 1988 with total page 752 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Modelling and Design of Nanostructured Optoelectronic Devices

Modelling and Design of Nanostructured Optoelectronic Devices

Author: Jagdish A. Krishnaswamy

Publisher: Springer Nature

Published: 2022-04-02

Total Pages: 293

ISBN-13: 9811906076

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This book approaches the design of functionally superior optoelectronic devices through the use of bio-inspired nanostructures and multiscale material structures through a step-by-step approach. The book combines both the fundamental theoretical concepts involved in understanding and numerically modelling optoelectronic devices and the application of such methods in addressing challenging research problems in nanostructured optoelectronic design and fabrication. The book offers comprehensive content in optoelectronic materials and engineering and can be used as a reference material by researchers in nanostructured optoelectronic design.


Book Synopsis Modelling and Design of Nanostructured Optoelectronic Devices by : Jagdish A. Krishnaswamy

Download or read book Modelling and Design of Nanostructured Optoelectronic Devices written by Jagdish A. Krishnaswamy and published by Springer Nature. This book was released on 2022-04-02 with total page 293 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book approaches the design of functionally superior optoelectronic devices through the use of bio-inspired nanostructures and multiscale material structures through a step-by-step approach. The book combines both the fundamental theoretical concepts involved in understanding and numerically modelling optoelectronic devices and the application of such methods in addressing challenging research problems in nanostructured optoelectronic design and fabrication. The book offers comprehensive content in optoelectronic materials and engineering and can be used as a reference material by researchers in nanostructured optoelectronic design.