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Photovoltaics / Konrad Mertens
Titre : Photovoltaics : fundamentals, technology and practice / Type de document : texte imprimé Auteurs : Konrad Mertens Editeur : Wiley Autre Editeur : Chichester : Wiley Importance : 280p Format : 24cm ISBN/ISSN/EAN : 978-1-118-63416-5 Note générale : Publisher: Wiley; 1 edition (February 10, 2014)
Language: English
ISBN-10: 1118634160
ISBN-13: 978-1118634165
Product Dimensions: 7 x 0.8 x 9.9 inchesMots-clés : Photovoltaics fundamentals, technology and practice radioation physics solar cells technologies generators technology metrology Index. décimale : 621.0 Résumé : Starting with the basic principles of solar energy, this practical text explains the fundamentals of semiconductor physics and the structure and functioning of the solar cell. It describes current measurement techniques for solar modules, and the planning and operation of grid-connected and off-grid PV systems.
Key features:
clarifies the technical and economic perspectives of PV energy generation, whilst providing an overview on the current economic status
discusses the future development of PV, including efficient promotion instruments and price development
each chapter contains various exercises and descriptive examples, with operation results from concrete PV plants
an accompanying website hosting exercise solutions, links to further PV references, and free downloads of the figures and additional software www.textbook-pv.org
This is an essential text for renewable energy students, technicians and engineers wanting to know how solar cells work and how to design a complete PV plant. It is also a useful resource for PV installers, planners, operators, consultants, financers, potential energy investors and politicians.Photovoltaics : fundamentals, technology and practice / [texte imprimé] / Konrad Mertens . - [S.l.] : Wiley : Chichester : Wiley, [s.d.] . - 280p ; 24cm.
ISBN : 978-1-118-63416-5
Publisher: Wiley; 1 edition (February 10, 2014)
Language: English
ISBN-10: 1118634160
ISBN-13: 978-1118634165
Product Dimensions: 7 x 0.8 x 9.9 inches
Mots-clés : Photovoltaics fundamentals, technology and practice radioation physics solar cells technologies generators technology metrology Index. décimale : 621.0 Résumé : Starting with the basic principles of solar energy, this practical text explains the fundamentals of semiconductor physics and the structure and functioning of the solar cell. It describes current measurement techniques for solar modules, and the planning and operation of grid-connected and off-grid PV systems.
Key features:
clarifies the technical and economic perspectives of PV energy generation, whilst providing an overview on the current economic status
discusses the future development of PV, including efficient promotion instruments and price development
each chapter contains various exercises and descriptive examples, with operation results from concrete PV plants
an accompanying website hosting exercise solutions, links to further PV references, and free downloads of the figures and additional software www.textbook-pv.org
This is an essential text for renewable energy students, technicians and engineers wanting to know how solar cells work and how to design a complete PV plant. It is also a useful resource for PV installers, planners, operators, consultants, financers, potential energy investors and politicians.Exemplaires (1)
Code-barres Cote Support Localisation Section Disponibilité ST2149 621.04/69.1 Ouvrage Faculté des Sciences et de la Technologie 600 - Technologie (Sciences appliquées) Exclu du prêt Photovoltaics / Heinrich Haberlin
Titre : Photovoltaics : system design and practice Type de document : texte imprimé Auteurs : Heinrich Haberlin ; Herbert Eppel Editeur : Hoboken, N.J. : Wiley Année de publication : 2012 Importance : 1 texte électronique (xxix, 701 p.) Présentation : ill., fichiers HTML et PDF Format : 24 *17cm ISBN/ISSN/EAN : 978-1-119-97699-8 Note générale : ASIN : B006V879UO
Éditeur : Wiley; 1er édition (5 janvier 2012)
Langue : Anglais
Taille du fichier : 155228 KB
Synthèse vocale : Activée
Confort de lecture : Activé
X-Ray : Non activéeLangues : Anglais (eng) Mots-clés : Photovoltaics propeties of solar radiation solar cells their design engineering operating principles solar modules solar generators energy systems protecting pv instalations against lightning normalized representation of energy performance characteristics of selected pv appendis A calculation Index. décimale : 621.3 Résumé : With the explosive growth in PV (photovoltaic) installations globally, the sector continues to benefit from important improvements in manufacturing technology and the increasing efficiency of solar cells, this timely handbook brings together all the latest design, layout and construction methods for entire PV plants in a single volume.
Coverage includes procedures for the design of both stand-alone and grid-connected systems as well as practical guidance on typical operational scenarios and problems encountered for optimum PV plant performance.
This comprehensive resource will benefit electrical engineer and other electrical professionals in PV systems, especially designers and installers of PV plants or the product manufacturing and testing supply chain. Advanced students on renewable energy courses will find this useful background reading and it will be an invaluable desk reference for PV plant builders and owners.Note de contenu : In Wiley online library Titre de l'écran-titre (visionné le 31 juillet 2012) Traduit de l'allemand Photovoltaics : system design and practice [texte imprimé] / Heinrich Haberlin ; Herbert Eppel . - Hoboken, N.J. : Wiley, 2012 . - 1 texte électronique (xxix, 701 p.) : ill., fichiers HTML et PDF ; 24 *17cm.
ISBN : 978-1-119-97699-8
ASIN : B006V879UO
Éditeur : Wiley; 1er édition (5 janvier 2012)
Langue : Anglais
Taille du fichier : 155228 KB
Synthèse vocale : Activée
Confort de lecture : Activé
X-Ray : Non activée
Langues : Anglais (eng)
Mots-clés : Photovoltaics propeties of solar radiation solar cells their design engineering operating principles solar modules solar generators energy systems protecting pv instalations against lightning normalized representation of energy performance characteristics of selected pv appendis A calculation Index. décimale : 621.3 Résumé : With the explosive growth in PV (photovoltaic) installations globally, the sector continues to benefit from important improvements in manufacturing technology and the increasing efficiency of solar cells, this timely handbook brings together all the latest design, layout and construction methods for entire PV plants in a single volume.
Coverage includes procedures for the design of both stand-alone and grid-connected systems as well as practical guidance on typical operational scenarios and problems encountered for optimum PV plant performance.
This comprehensive resource will benefit electrical engineer and other electrical professionals in PV systems, especially designers and installers of PV plants or the product manufacturing and testing supply chain. Advanced students on renewable energy courses will find this useful background reading and it will be an invaluable desk reference for PV plant builders and owners.Note de contenu : In Wiley online library Titre de l'écran-titre (visionné le 31 juillet 2012) Traduit de l'allemand Réservation
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Exemplaires (2)
Code-barres Cote Support Localisation Section Disponibilité ST685 621.3/132.1 Ouvrage Faculté des Sciences et de la Technologie 600 - Technologie (Sciences appliquées) Exclu du prêt ST686 621.3/132.2 Ouvrage Faculté des Sciences et de la Technologie 600 - Technologie (Sciences appliquées) Disponible Organic photovoltaics / C. J. Brabec ; Ullrich Scherf ; Vladimir A. Dʹi͡akonov ; Dechan Angmo
Titre : Organic photovoltaics : materials, device physics, and manufacturing technologies / Type de document : texte imprimé Auteurs : C. J. Brabec ; Ullrich Scherf ; Vladimir A. Dʹi͡akonov ; Dechan Angmo Mention d'édition : Second edition. Importance : 1 ressource en ligne Présentation : fichiers HTML et PDF ISBN/ISSN/EAN : 978-3-527-65691-2 Note générale : 642 pages
Editeur : Wiley VCH; Édition : 2nd Edition (16 avril 2014)
Langue : Anglais
ISBN-10 : 3527332251
ISBN-13 : 978-3527332250
Dimensions du produit : 17,8 x 3,6 x 25 cmMots-clés : organic polymer photovoltaics High-performance molecular fullerene-based semiconductors solar cells metal oxide solide flexible substrate Index. décimale : 621.04 Energie Renouvelable Résumé : The versatility of organic photovoltaics is already well known and this completely revised,
updated, and enlarged edition of a classic provides an up–to–date overview of this hot
topic.
The proven structure of the successful first edition, divided into the three key aspects
of successful device design: materials, device physics, and manufacturing technologies,
has been retained. Important aspects such as printing technologies, substrates, and electrode
systems are covered. The result is a balanced, comprehensive text on the fundamentals
as well as the latest results in the area that will set R&D trends for years to come.
With its combination of both academic and commercial technological views, this is
an optimal source of information for scientists, engineers, and graduate students already
actively working in this field, and looking for comprehensive summaries on specific topics.
Quatrième de couverture
The versatility of organic photovoltaics is already well known and this completely revised, updated, and enlarged edition of a classic provides an up–to–date overview of this hot topic.
The proven structure of the successful first edition, divided into the three key aspects of successful device design: materials, device physics, and manufacturing technologies, has been retained. Important aspects such as printing technologies, substrates, and electrode systems are covered. The result is a balanced, comprehensive text on the fundamentals as well as the latest results in the area that will set R&D trends for years to come.
With its combination of both academic and commercial technological views, this is an optimal source of information for scientists, engineers, and graduate students already actively working in this field, and looking for comprehensive summaries on specific topics.
Biographie de l'auteur
Christoph J. Brabec is full professor at the University of Erlangen–Nürnberg, Germany heading the chair i–MEET "materials for electronics and energy technology" at the department of material science. After completing his PhD in 1995, he joined the group of Prof. Alan Heeger at the University of Santa Barbara, USA, for a sabbatical in 1996, and continued to work on the opto–electronic properties of organic semiconductors as assistant professor at the University of Linz with Prof. Serdar Sariciftci. In 1998, he became senior scientist at the Christian Doppler Laboratory working on organic solar cells, which he left in 2001 to join Siemens Corporate Technology as project leader for organic semiconductor devices. From 2004 on he became headed the printed photovoltaics programme at Konarka Technologies as director and later on as CTO, before he joined Erlangen university in 2009. He finished his habilitation in physical chemistry at the Johannes Kepler University of Linz in 2003, and is author or co–author of more than 250 papers and inventor or co–inventor of over 100 patents. He is co–chair of the editorial board of the Wiley–VCH journal "Advanced Energy Materials".
Ullrich Scherf is full professor for Macromolecular Chemistry at Bergische Universität Wuppertal, Germany, and director of the interdisciplinary research cluster "Institute for Polymer Technology". He studied chemistry at Friedrich–Schiller–Universität Jena, Germany, obtaining his PhD in 1988 and subsequently spent one postdoctoral year with Heinz Penzlin, Saxonian Academy of Sciences, Jena. He joined the Klaus Müllen group at Max Planck Institute for Polymer Research in Mainz in 1990 and completed his habilitation in 1996 on polyarylenetype ladder polymers. Ullrich Scherf was Professor for Polymer Chemistry at Potsdam University (2000–02) and, since 2002, Professor for Macromolecular Chemistry at Wuppertal University. He has authored or co–authored more than 500 refereed journal papers.
Vladimir Dyakonov is full professor of experimental physics at the University of Würzburg, Germany, and scientific director of the Bavarian Centre of Applied Energy Research (ZAE Bayern) in Würzburg. He obtained his diploma degree in physics from the University of Saint Petersburg, Russia his PhD from the A. F. Ioffe–Institute in Russia and his habilitation degree from the University of Oldenburg, Germany, in 1986, 1996 and 2001, respectively. From 1996 to 1998, he worked as a post–doctoral fellow at the universities of Antwerp,Note de contenu : Notice chargée pour fin de repérage Organic photovoltaics : materials, device physics, and manufacturing technologies / [texte imprimé] / C. J. Brabec ; Ullrich Scherf ; Vladimir A. Dʹi͡akonov ; Dechan Angmo . - Second edition. . - [s.d.] . - 1 ressource en ligne : fichiers HTML et PDF.
ISBN : 978-3-527-65691-2
642 pages
Editeur : Wiley VCH; Édition : 2nd Edition (16 avril 2014)
Langue : Anglais
ISBN-10 : 3527332251
ISBN-13 : 978-3527332250
Dimensions du produit : 17,8 x 3,6 x 25 cm
Mots-clés : organic polymer photovoltaics High-performance molecular fullerene-based semiconductors solar cells metal oxide solide flexible substrate Index. décimale : 621.04 Energie Renouvelable Résumé : The versatility of organic photovoltaics is already well known and this completely revised,
updated, and enlarged edition of a classic provides an up–to–date overview of this hot
topic.
The proven structure of the successful first edition, divided into the three key aspects
of successful device design: materials, device physics, and manufacturing technologies,
has been retained. Important aspects such as printing technologies, substrates, and electrode
systems are covered. The result is a balanced, comprehensive text on the fundamentals
as well as the latest results in the area that will set R&D trends for years to come.
With its combination of both academic and commercial technological views, this is
an optimal source of information for scientists, engineers, and graduate students already
actively working in this field, and looking for comprehensive summaries on specific topics.
Quatrième de couverture
The versatility of organic photovoltaics is already well known and this completely revised, updated, and enlarged edition of a classic provides an up–to–date overview of this hot topic.
The proven structure of the successful first edition, divided into the three key aspects of successful device design: materials, device physics, and manufacturing technologies, has been retained. Important aspects such as printing technologies, substrates, and electrode systems are covered. The result is a balanced, comprehensive text on the fundamentals as well as the latest results in the area that will set R&D trends for years to come.
With its combination of both academic and commercial technological views, this is an optimal source of information for scientists, engineers, and graduate students already actively working in this field, and looking for comprehensive summaries on specific topics.
Biographie de l'auteur
Christoph J. Brabec is full professor at the University of Erlangen–Nürnberg, Germany heading the chair i–MEET "materials for electronics and energy technology" at the department of material science. After completing his PhD in 1995, he joined the group of Prof. Alan Heeger at the University of Santa Barbara, USA, for a sabbatical in 1996, and continued to work on the opto–electronic properties of organic semiconductors as assistant professor at the University of Linz with Prof. Serdar Sariciftci. In 1998, he became senior scientist at the Christian Doppler Laboratory working on organic solar cells, which he left in 2001 to join Siemens Corporate Technology as project leader for organic semiconductor devices. From 2004 on he became headed the printed photovoltaics programme at Konarka Technologies as director and later on as CTO, before he joined Erlangen university in 2009. He finished his habilitation in physical chemistry at the Johannes Kepler University of Linz in 2003, and is author or co–author of more than 250 papers and inventor or co–inventor of over 100 patents. He is co–chair of the editorial board of the Wiley–VCH journal "Advanced Energy Materials".
Ullrich Scherf is full professor for Macromolecular Chemistry at Bergische Universität Wuppertal, Germany, and director of the interdisciplinary research cluster "Institute for Polymer Technology". He studied chemistry at Friedrich–Schiller–Universität Jena, Germany, obtaining his PhD in 1988 and subsequently spent one postdoctoral year with Heinz Penzlin, Saxonian Academy of Sciences, Jena. He joined the Klaus Müllen group at Max Planck Institute for Polymer Research in Mainz in 1990 and completed his habilitation in 1996 on polyarylenetype ladder polymers. Ullrich Scherf was Professor for Polymer Chemistry at Potsdam University (2000–02) and, since 2002, Professor for Macromolecular Chemistry at Wuppertal University. He has authored or co–authored more than 500 refereed journal papers.
Vladimir Dyakonov is full professor of experimental physics at the University of Würzburg, Germany, and scientific director of the Bavarian Centre of Applied Energy Research (ZAE Bayern) in Würzburg. He obtained his diploma degree in physics from the University of Saint Petersburg, Russia his PhD from the A. F. Ioffe–Institute in Russia and his habilitation degree from the University of Oldenburg, Germany, in 1986, 1996 and 2001, respectively. From 1996 to 1998, he worked as a post–doctoral fellow at the universities of Antwerp,Note de contenu : Notice chargée pour fin de repérage Exemplaires (1)
Code-barres Cote Support Localisation Section Disponibilité ST3756 621.04/74.1 Ouvrage Faculté des Sciences et de la Technologie 600 - Technologie (Sciences appliquées) Exclu du prêt Polymers for energy storage and conversion / Vikas Mittal
Titre : Polymers for energy storage and conversion Type de document : texte imprimé Auteurs : Vikas Mittal Importance : xiv, 253 pages Présentation : illustrations Format : 25 cm ISBN/ISSN/EAN : 978-1-118-34454-5 Mots-clés : Polymers for energy storage and conversion hydrogel electrolytes lithium batteries organic quantum molecular photovoltaics solvent inorgaic hybrid solar semi-conducting energy gasstorage Index. décimale : 541 Résumé : Polymers are increasingly finding applications in the areas of energy storage and conversion. A number of recent advances in the control of the polymer molecular structure which allows the polymer properties to be more finely tuned have led to these advances and new applications. Polymers for Energy Storage and Conversion assimilates these advances in the form of a comprehensive text that includes the synthesis and properties of a large number of polymer systems for applications in areas such as lithium batteries, photovoltaics, and solar cells.
Polymers for Energy Storage and Conversion:
Introduces the structure and properties of polymer hydrogel with respect to its applications for low to intermediate temperature polymer electrolyte–based fuel cells
Describes PVAc–based polymer blend electrolytes for lithium batteries
Reviews lithium polymer batteries based on ionic liquids
Proposes the concept of the solar cell with organic multiple quantum dots (MQDs)
Discusses solvent effects in polymer–based organic photovoltaic devices
Provides an overview of the properties of the polymers that factor into their use for solar power, whether for niche applications or for large–scale harvesting
Reviews the use of macroporous organic polymers as promising materials for energy gas storage
Readership
Materials scientists working with energy materials, polymer engineers, chemists, and other scientists and engineers working with photovoltaics and batteries as well as in the solar and renewable energy sectoNote de contenu : Éditeur : John Wiley & Sons (21 juin 2013)
Langue : : Anglais
Relié : 272 pages
ISBN-10 : 1118344545
ISBN-13 : 978-1118344545
Poids de l'article : 518 g
Dimensions : 16 x 1.78 x 24.26 cmPolymers for energy storage and conversion [texte imprimé] / Vikas Mittal . - [s.d.] . - xiv, 253 pages : illustrations ; 25 cm.
ISBN : 978-1-118-34454-5
Mots-clés : Polymers for energy storage and conversion hydrogel electrolytes lithium batteries organic quantum molecular photovoltaics solvent inorgaic hybrid solar semi-conducting energy gasstorage Index. décimale : 541 Résumé : Polymers are increasingly finding applications in the areas of energy storage and conversion. A number of recent advances in the control of the polymer molecular structure which allows the polymer properties to be more finely tuned have led to these advances and new applications. Polymers for Energy Storage and Conversion assimilates these advances in the form of a comprehensive text that includes the synthesis and properties of a large number of polymer systems for applications in areas such as lithium batteries, photovoltaics, and solar cells.
Polymers for Energy Storage and Conversion:
Introduces the structure and properties of polymer hydrogel with respect to its applications for low to intermediate temperature polymer electrolyte–based fuel cells
Describes PVAc–based polymer blend electrolytes for lithium batteries
Reviews lithium polymer batteries based on ionic liquids
Proposes the concept of the solar cell with organic multiple quantum dots (MQDs)
Discusses solvent effects in polymer–based organic photovoltaic devices
Provides an overview of the properties of the polymers that factor into their use for solar power, whether for niche applications or for large–scale harvesting
Reviews the use of macroporous organic polymers as promising materials for energy gas storage
Readership
Materials scientists working with energy materials, polymer engineers, chemists, and other scientists and engineers working with photovoltaics and batteries as well as in the solar and renewable energy sectoNote de contenu : Éditeur : John Wiley & Sons (21 juin 2013)
Langue : : Anglais
Relié : 272 pages
ISBN-10 : 1118344545
ISBN-13 : 978-1118344545
Poids de l'article : 518 g
Dimensions : 16 x 1.78 x 24.26 cmExemplaires (1)
Code-barres Cote Support Localisation Section Disponibilité ST9590 541/13.1 Ouvrage Faculté des Sciences et de la Technologie 500 - Sciences de la nature et Mathématiques Exclu du prêt Renewable Energies and CO2 / Ricardo Guerrero-Lemus
[périodique]
Titre : Renewable Energies and CO2 : Cost Analysis, Environmental Impacts and Technological Trends- 2012 Edition Type de document : texte imprimé Auteurs : Ricardo Guerrero-Lemus, Auteur ; J.M. Martínez-Duart, Auteur Editeur : London : Springer Année de publication : 2013 Importance : 380 p. Présentation : ill.fig., couv. ill. Format : 24 cm. ISBN/ISSN/EAN : 978-1-4471-4384-0 Prix : 103,38 € Note générale : ASIN : B00A9YH5P0
Éditeur : Springer; 2013e édition (14 septembre 2012)
Langue : Anglais
Taille du fichier : 23978 KB
Synthèse vocale : Activée
Lecteur d’écran : Pris en charge
Confort de lecture : Activé
X-Ray : Non activée
Word Wise : Activé
Nombre de pages de l'édition imprimée : 397 pagesLangues : Anglais (eng) Mots-clés : énergie renouvelable co2 renewable fuels renewable sources biofuels hydrogen photovoltaics solar power wind power hydropower geothermal energy ocean energy nuclear fusion smart grids carbon capture Index. décimale : 621.04 Energie Renouvelable Résumé : Providing up-to-date numerical data across a range of topics related to renewable energy technologies, Renewable Energies and CO2 offers a one-stop source of key information to engineers, economists and all other professionals working in the energy and climate change sectors. The most relevant up-to-date numerical data are exposed in 201 tables and graphs, integrated in terms of units and methodology, and covering topics such as energy system capacities and lifetimes, production costs, energy payback ratios, carbon emissions, external costs, patents and literature statistics.
The data are first presented and then analyzed to project potential future grid, heat and fuel parity scenarios, as well as future technology tendencies in different energy technological areas. Innovative highlights and descriptions of preproduction energy systems and components from the past four years have been gathered from selected journals and international energy departments from G20 countries.
As the field develops, readers are invited and encouraged to contact the authors for feedback and comments. The ongoing data collection and analysis will be used – after proper acknowledgment of contributors - to develop new editions. In this way, it is ensured that Renewable Energies and CO2 will remain an up-to-date resource for all those working with or involved in renewable energy, climate change, energy storage, carbon capture and smart grids.
Biographie de l'auteur
Prof. Ricardo Guerrero-Lemus obtained his PhD at the Universidad Autónoma de Madrid in 1996. He is the Director of the Master in Renewable Energies at Universidad de La Laguna (2006 - ) and Associated Research Professor and Visiting Scholar of the Texas Sustainable Energy Research Institute (San Antonio, U.S.). He has also joined the Chair in Renewable Energy and Climate Change (2008 - ) of the Applied Economics Studies Foundation (Madrid, Spain). He is also board member of the Energy Council of the Canary Islands Government. He has been on economic and technological research activities under the Focus- Abengoa Foundation. He has been board member of different industrial parks in Spain and of the Instituto Tecnológico de Energías Renovables (ITER, SA) in Tenerife. His activities also include leading a group of professors from different universities and managers of energy companies for consulting activities. He is also leading two research groups, one focused in the development of low cost silicon based solar cells and solar cells processing (in close collaboration with the Fraunhofer Institute für Solare Energiesysteme) and another research group in improving energy efficiency in commercial buildings. He is author of about 60 articles (mainly in energy subjects) in reputed scientific journals, one book in Biofuels, and is external reviewer of the Spanish Evaluation and Prospective Agency (ANEP).
Prof. J.M. Martínez-Duart obtained his Master Degree in Physics at the University of Michigan and his PhD, both, at the universities of Madrid and Pennsylvania. He has been teaching and doing research at the following centers: Penn State University, Rensselaer Polytechnic Institute, IBM Watson Research Center and at Universidad Autónoma where he has been Professor of Physics since 1980. During this time he has been Director of the Solid State Physics Institute (CSIC, Madrid), and Director of the Applied Physics Department (Univ. Autónoma). He has also been the President of the European Materials Research Society during the period 2000-2001, holding now the position of Senator in the Executive Committee. His main scientific interests are related to the electronic and optical properties of materials, surfaces, thin films, nanostructured materials, and renewable energies. At present, he is the President of the Energy Group of the Spanish Physical Royal Society and belongs to the Energy Group Committee of the European Physical SocietyNote de contenu : index [périodique] Renewable Energies and CO2 : Cost Analysis, Environmental Impacts and Technological Trends- 2012 Edition [texte imprimé] / Ricardo Guerrero-Lemus, Auteur ; J.M. Martínez-Duart, Auteur . - London : Springer, 2013 . - 380 p. : ill.fig., couv. ill. ; 24 cm.
ISBN : 978-1-4471-4384-0 : 103,38 €
ASIN : B00A9YH5P0
Éditeur : Springer; 2013e édition (14 septembre 2012)
Langue : Anglais
Taille du fichier : 23978 KB
Synthèse vocale : Activée
Lecteur d’écran : Pris en charge
Confort de lecture : Activé
X-Ray : Non activée
Word Wise : Activé
Nombre de pages de l'édition imprimée : 397 pages
Langues : Anglais (eng)
Mots-clés : énergie renouvelable co2 renewable fuels renewable sources biofuels hydrogen photovoltaics solar power wind power hydropower geothermal energy ocean energy nuclear fusion smart grids carbon capture Index. décimale : 621.04 Energie Renouvelable Résumé : Providing up-to-date numerical data across a range of topics related to renewable energy technologies, Renewable Energies and CO2 offers a one-stop source of key information to engineers, economists and all other professionals working in the energy and climate change sectors. The most relevant up-to-date numerical data are exposed in 201 tables and graphs, integrated in terms of units and methodology, and covering topics such as energy system capacities and lifetimes, production costs, energy payback ratios, carbon emissions, external costs, patents and literature statistics.
The data are first presented and then analyzed to project potential future grid, heat and fuel parity scenarios, as well as future technology tendencies in different energy technological areas. Innovative highlights and descriptions of preproduction energy systems and components from the past four years have been gathered from selected journals and international energy departments from G20 countries.
As the field develops, readers are invited and encouraged to contact the authors for feedback and comments. The ongoing data collection and analysis will be used – after proper acknowledgment of contributors - to develop new editions. In this way, it is ensured that Renewable Energies and CO2 will remain an up-to-date resource for all those working with or involved in renewable energy, climate change, energy storage, carbon capture and smart grids.
Biographie de l'auteur
Prof. Ricardo Guerrero-Lemus obtained his PhD at the Universidad Autónoma de Madrid in 1996. He is the Director of the Master in Renewable Energies at Universidad de La Laguna (2006 - ) and Associated Research Professor and Visiting Scholar of the Texas Sustainable Energy Research Institute (San Antonio, U.S.). He has also joined the Chair in Renewable Energy and Climate Change (2008 - ) of the Applied Economics Studies Foundation (Madrid, Spain). He is also board member of the Energy Council of the Canary Islands Government. He has been on economic and technological research activities under the Focus- Abengoa Foundation. He has been board member of different industrial parks in Spain and of the Instituto Tecnológico de Energías Renovables (ITER, SA) in Tenerife. His activities also include leading a group of professors from different universities and managers of energy companies for consulting activities. He is also leading two research groups, one focused in the development of low cost silicon based solar cells and solar cells processing (in close collaboration with the Fraunhofer Institute für Solare Energiesysteme) and another research group in improving energy efficiency in commercial buildings. He is author of about 60 articles (mainly in energy subjects) in reputed scientific journals, one book in Biofuels, and is external reviewer of the Spanish Evaluation and Prospective Agency (ANEP).
Prof. J.M. Martínez-Duart obtained his Master Degree in Physics at the University of Michigan and his PhD, both, at the universities of Madrid and Pennsylvania. He has been teaching and doing research at the following centers: Penn State University, Rensselaer Polytechnic Institute, IBM Watson Research Center and at Universidad Autónoma where he has been Professor of Physics since 1980. During this time he has been Director of the Solid State Physics Institute (CSIC, Madrid), and Director of the Applied Physics Department (Univ. Autónoma). He has also been the President of the European Materials Research Society during the period 2000-2001, holding now the position of Senator in the Executive Committee. His main scientific interests are related to the electronic and optical properties of materials, surfaces, thin films, nanostructured materials, and renewable energies. At present, he is the President of the Energy Group of the Spanish Physical Royal Society and belongs to the Energy Group Committee of the European Physical SocietyNote de contenu : index Renewable Energies and CO2 / Ricardo Guerrero-Lemus
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