الفهرس الالي لمكتبة كلية العلوم و علوم التكنولوجيا
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Titre : The total synthesis of natural products Type de document : texte imprimé Auteurs : John ApSimon, Auteur Editeur : Chichester, U.K. : Wiley Année de publication : 1981 Importance : vol. 4 (610 p.) Présentation : ill. Format : 24 cm ISBN/ISSN/EAN : 978-0-471-05460-3 Note générale : Editor: 1973- John ApSimon; 2000- David Goldsmith. Some volumes also have distinctive titles.
Langues : Anglais (eng) Mots-clés : synthesis of insect pheromones total synthesis of ionophores synthesis of prostaglandins synthesis of monoterpenes Index. décimale : 547 Chimie Organique Résumé : Sommaire :
1- The synthesis of insect pheromones
2- The total synthesis of ionophores
3- The synthesis of prostaglandins
4- The synthesis of monoterpenesNote de contenu : index The total synthesis of natural products [texte imprimé] / John ApSimon, Auteur . - Chichester, U.K. : Wiley, 1981 . - vol. 4 (610 p.) : ill. ; 24 cm.
ISBN : 978-0-471-05460-3
Editor: 1973- John ApSimon; 2000- David Goldsmith. Some volumes also have distinctive titles.
Langues : Anglais (eng)
Mots-clés : synthesis of insect pheromones total synthesis of ionophores synthesis of prostaglandins synthesis of monoterpenes Index. décimale : 547 Chimie Organique Résumé : Sommaire :
1- The synthesis of insect pheromones
2- The total synthesis of ionophores
3- The synthesis of prostaglandins
4- The synthesis of monoterpenesNote de contenu : index Réservation
Réserver ce document
Exemplaires (2)
Code-barres Cote Support Localisation Section Disponibilité ST7830 547/68.1 Ouvrage Faculté des Sciences et de la Technologie 500 - Sciences de la nature et Mathématiques Exclu du prêt ST7831 547/68.2 Ouvrage Faculté des Sciences et de la Technologie 500 - Sciences de la nature et Mathématiques Disponible
Titre : Chemistry and technology of emulsion polymerisation Type de document : texte imprimé Auteurs : Alex van Herk, Auteur Mention d'édition : Second edition. Editeur : Chichester, U.K. : Wiley Année de publication : 2013 Importance : xxii, 347 pages Présentation : illustrations Format : 26 cm ISBN/ISSN/EAN : 978-1-119-95372-2 Prix : 74,21 € Note générale : ASIN : B00CU9R4XU
Éditeur : Wiley; $ {number}nd édition (13 mai 2013)
Langue : Anglais
Taille du fichier : 6518 KB
Synthèse vocale : Activée
Lecteur d’écran : Pris en charge
Confort de lecture : Activé
X-Ray : Non activée
Word Wise : Non activé
Nombre de pages de l'édition imprimée : 595 pagesLangues : Anglais (eng) Mots-clés : Chemistry and technology of emulsion polymerisation polymerisation emulsion particle porphologie colloidal aspects molecules including analysis Index. décimale : 668.9 Polymères Résumé : Chemistry and Technology of Emulsion Polymerisation 2e provides a practical and intuitive explanation of emulsion polymerization, in combination with both conventional and controlled radical polymerization. For those working in industry, coupling theory with everyday practice can be difficult. By carefully explaining the principles of the reaction, based on well-designed experimental investigation, the book explains how the principles relate to practical application.
The second edition of this book includes a new chapter on morphology of latex particles, a rapidly progressing area where modelling the thermodynamic and kinetic aspects of phase separation and morphology has developed into a mature and powerful tool to predict and control morphology of latex particles.
Another area that is rapidly progressing is the application of controlled radical polymerisation in emulsion polymerization. Controlled radical polymerisation is used in aiding encapsulation of inorganic particles like pigment particles and clay platelets. These latest developments are included in the second edition.
New to this edition:
Morphology of latex particles
Extended coverage of controlled radical polymerisation in latex production
Updates to all other chapters
Emulsion polymerisation is a complex process, governed by the interplay of both chemical and physical
properties including polymerisation kinetics and dispersion stability. Successful industrial application relies
on understanding and controlling those properties. By carefully explaining the principles of the reaction,
based on well–designed experimental investigation, this book provides a practical and intuitive approach
to emulsion polymerisation. In the development of industrial processes, coupling that understanding
with everyday practice can be a further difficult step, so the book emphasises a clear, comprehensive and straightforward discussion to illustrate how the principles relate to practical application.
Written primarily for research chemists, technologists and engineers in the polymer, fine and specialty
chemicals industries, this second edition of Chemistry and Technology of Emulsion Polymerisation is also
an excellent resource for those in government laboratories or studying emulsion polymerisation at MSc or
PhD level.
Biographie de l'auteur
Alex van Herk is Senior researcher at the Institute of Chemical and Engineering Sciences, an A∗Star institute in Singapore and part time Professor in Polymer Reaction Engineering at the Eindhoven University of Technology, NetherlandsNote de contenu : Réf.
indexChemistry and technology of emulsion polymerisation [texte imprimé] / Alex van Herk, Auteur . - Second edition. . - Chichester, U.K. : Wiley, 2013 . - xxii, 347 pages : illustrations ; 26 cm.
ISBN : 978-1-119-95372-2 : 74,21 €
ASIN : B00CU9R4XU
Éditeur : Wiley; $ {number}nd édition (13 mai 2013)
Langue : Anglais
Taille du fichier : 6518 KB
Synthèse vocale : Activée
Lecteur d’écran : Pris en charge
Confort de lecture : Activé
X-Ray : Non activée
Word Wise : Non activé
Nombre de pages de l'édition imprimée : 595 pages
Langues : Anglais (eng)
Mots-clés : Chemistry and technology of emulsion polymerisation polymerisation emulsion particle porphologie colloidal aspects molecules including analysis Index. décimale : 668.9 Polymères Résumé : Chemistry and Technology of Emulsion Polymerisation 2e provides a practical and intuitive explanation of emulsion polymerization, in combination with both conventional and controlled radical polymerization. For those working in industry, coupling theory with everyday practice can be difficult. By carefully explaining the principles of the reaction, based on well-designed experimental investigation, the book explains how the principles relate to practical application.
The second edition of this book includes a new chapter on morphology of latex particles, a rapidly progressing area where modelling the thermodynamic and kinetic aspects of phase separation and morphology has developed into a mature and powerful tool to predict and control morphology of latex particles.
Another area that is rapidly progressing is the application of controlled radical polymerisation in emulsion polymerization. Controlled radical polymerisation is used in aiding encapsulation of inorganic particles like pigment particles and clay platelets. These latest developments are included in the second edition.
New to this edition:
Morphology of latex particles
Extended coverage of controlled radical polymerisation in latex production
Updates to all other chapters
Emulsion polymerisation is a complex process, governed by the interplay of both chemical and physical
properties including polymerisation kinetics and dispersion stability. Successful industrial application relies
on understanding and controlling those properties. By carefully explaining the principles of the reaction,
based on well–designed experimental investigation, this book provides a practical and intuitive approach
to emulsion polymerisation. In the development of industrial processes, coupling that understanding
with everyday practice can be a further difficult step, so the book emphasises a clear, comprehensive and straightforward discussion to illustrate how the principles relate to practical application.
Written primarily for research chemists, technologists and engineers in the polymer, fine and specialty
chemicals industries, this second edition of Chemistry and Technology of Emulsion Polymerisation is also
an excellent resource for those in government laboratories or studying emulsion polymerisation at MSc or
PhD level.
Biographie de l'auteur
Alex van Herk is Senior researcher at the Institute of Chemical and Engineering Sciences, an A∗Star institute in Singapore and part time Professor in Polymer Reaction Engineering at the Eindhoven University of Technology, NetherlandsNote de contenu : Réf.
indexExemplaires (1)
Code-barres Cote Support Localisation Section Disponibilité ST9586 668.9/07.1 Ouvrage Faculté des Sciences et de la Technologie 600 - Technologie (Sciences appliquées) Exclu du prêt
Titre : Earthquake resistant design and risk reduction Type de document : texte imprimé Auteurs : David J. Dowrick ; David J. Dowrick Mention d'édition : 2nd ed. Editeur : Chichester, U.K. : Wiley Année de publication : 2009 Importance : xvi, 530 p. Présentation : ill., maps Format : 26 cm ISBN/ISSN/EAN : 978-0-470-77815-9 Note générale : Éditeur : Wiley–Blackwell; 2nd Edition (17 juillet 2009)
Langue : Anglais
Relié : 548 pages
ISBN-10 : 0470778156
ISBN-13 : 978-0470778159
Poids de l'article : 1.08 kg
Dimensions : 17.4 x 3.4 x 25.27 cmMots-clés : Earthquake risk site characteristics seismic hazard assessment soils structures vulnerability seismic design ground shaking Earthquake resistance retrofitting Index. décimale : 624 Génie Civil & Calcul Résumé : Earthquake Resistant Design and Risk Reduction, 2ndedition is based upon global research and development work overthe last 50 years or more, and follows the author s series ofthree books Earthquake Resistant Design, 1st and2 nd editions (1977 and 1987), and Earthquake RiskReduction (2003). Many advances have been made since the 2003edition of Earthquake Risk Reduction, and there is everysign that this rate of progress will continue apace in the years tocome. Compiled from the author s wide design and researchexperience in earthquake engineering and engineering seismology,this key text provides an excellent treatment of the complexmultidisciplinary process of earthquake resistant design and riskreduction.
New topics include the creation of low–damage structures and thespatial distribution of ground shaking near large fault ruptures.Sections on guidance for developing countries, response ofbuildings to differential settlement in liquefaction,performance–based and displacement–based design and thearchitectural aspects of earthquake resistant design are heavilyrevised.
This book:
Outlines individual national weaknesses that contribute toearthquake risk to people and property
Calculates the seismic response of soils and structures, usingthe structural continuum Subsoil Substructure Superstructure Non structure
Evaluates the effectiveness of given design and constructionprocedures for reducing casualties and financial losses
Provides guidance on the key issue of choice of structuralform
Presents earthquake resistant design methods for the main fourstructural materials steel, concrete, reinforced masonryand timber as well as for services equipment, plant andnon–structural architectural components
Contains a chapter devoted to problems involved in improving(retrofitting) the existing built environment
This book is an invaluable reference and guiding tool topractising civil and structural engineers and architects,researchers and postgraduate students in earthquake engineering andengineering seismology, local governments and risk managementofficials.
Biographie de l'auteur
David Dowrick graduated as a Civil Engineer fromAuckland University in 1958, and was awarded a Doctorate ofEngineering in 2003. He has worked both in consulting engineeringand in earthquake research, based in London and New Zealand. He nowworks part–time on earthquake research from his home in Tauranga,where he is also involved in four non–engineering committees.
Major engineering design projects include the Sydney Opera Houseroof, restoration of York Minster and the Ohaaki power stationcooling tower in New Zealand. In addition, he has advised the NewZealand Historic Places Trust on a variety of conservationprojects. Dr Dowrick is the author of over 70 publications,including four editions of books on earthquake engineering. He hasreceived five awards, four for earthquake engineering papers plusthe Institution of Civil Engineers Telford Gold Medal forhis paper on York Minster. He has been made a life member of the NZSociety for Earthquake Engineering.Note de contenu : Rev. ed. of: Earthquake risk reduction. 2003.
appendix a b
indexEarthquake resistant design and risk reduction [texte imprimé] / David J. Dowrick ; David J. Dowrick . - 2nd ed. . - Chichester, U.K. : Wiley, 2009 . - xvi, 530 p. : ill., maps ; 26 cm.
ISBN : 978-0-470-77815-9
Éditeur : Wiley–Blackwell; 2nd Edition (17 juillet 2009)
Langue : Anglais
Relié : 548 pages
ISBN-10 : 0470778156
ISBN-13 : 978-0470778159
Poids de l'article : 1.08 kg
Dimensions : 17.4 x 3.4 x 25.27 cm
Mots-clés : Earthquake risk site characteristics seismic hazard assessment soils structures vulnerability seismic design ground shaking Earthquake resistance retrofitting Index. décimale : 624 Génie Civil & Calcul Résumé : Earthquake Resistant Design and Risk Reduction, 2ndedition is based upon global research and development work overthe last 50 years or more, and follows the author s series ofthree books Earthquake Resistant Design, 1st and2 nd editions (1977 and 1987), and Earthquake RiskReduction (2003). Many advances have been made since the 2003edition of Earthquake Risk Reduction, and there is everysign that this rate of progress will continue apace in the years tocome. Compiled from the author s wide design and researchexperience in earthquake engineering and engineering seismology,this key text provides an excellent treatment of the complexmultidisciplinary process of earthquake resistant design and riskreduction.
New topics include the creation of low–damage structures and thespatial distribution of ground shaking near large fault ruptures.Sections on guidance for developing countries, response ofbuildings to differential settlement in liquefaction,performance–based and displacement–based design and thearchitectural aspects of earthquake resistant design are heavilyrevised.
This book:
Outlines individual national weaknesses that contribute toearthquake risk to people and property
Calculates the seismic response of soils and structures, usingthe structural continuum Subsoil Substructure Superstructure Non structure
Evaluates the effectiveness of given design and constructionprocedures for reducing casualties and financial losses
Provides guidance on the key issue of choice of structuralform
Presents earthquake resistant design methods for the main fourstructural materials steel, concrete, reinforced masonryand timber as well as for services equipment, plant andnon–structural architectural components
Contains a chapter devoted to problems involved in improving(retrofitting) the existing built environment
This book is an invaluable reference and guiding tool topractising civil and structural engineers and architects,researchers and postgraduate students in earthquake engineering andengineering seismology, local governments and risk managementofficials.
Biographie de l'auteur
David Dowrick graduated as a Civil Engineer fromAuckland University in 1958, and was awarded a Doctorate ofEngineering in 2003. He has worked both in consulting engineeringand in earthquake research, based in London and New Zealand. He nowworks part–time on earthquake research from his home in Tauranga,where he is also involved in four non–engineering committees.
Major engineering design projects include the Sydney Opera Houseroof, restoration of York Minster and the Ohaaki power stationcooling tower in New Zealand. In addition, he has advised the NewZealand Historic Places Trust on a variety of conservationprojects. Dr Dowrick is the author of over 70 publications,including four editions of books on earthquake engineering. He hasreceived five awards, four for earthquake engineering papers plusthe Institution of Civil Engineers Telford Gold Medal forhis paper on York Minster. He has been made a life member of the NZSociety for Earthquake Engineering.Note de contenu : Rev. ed. of: Earthquake risk reduction. 2003.
appendix a b
indexExemplaires (1)
Code-barres Cote Support Localisation Section Disponibilité ST13879 624/14.1 Ouvrage Faculté des Sciences et de la Technologie 600 - Technologie (Sciences appliquées) Exclu du prêt
Titre de série : Handbook of Clean Energy Systems, vol 1 Titre : Renewable energy Type de document : texte imprimé Auteurs : Jinyue Yen, Auteur Editeur : Chichester, U.K. : Wiley Année de publication : 2015 Importance : xxvi-735 p. Présentation : ill. couv. en coul. voluminous Format : 29x22/4 cm ISBN/ISSN/EAN : 978-1-118-38858-7 Note générale : Nombre de pages : 735
Format : Reliure occidentale
Éditeur : Wiley
Langue : Anglais
Éditeur : Jinyue Yan
Langues : Anglais (eng) Mots-clés : Biomass resources and biofuel production Bioenergy Utilization Solar Energy Wind Energy Geothermal Energy Tidal Energy Index. décimale : 621.04 Energie Renouvelable Résumé : The Handbook of Clean Energy Systems brings together an international team of experts to present a comprehensive overview of the latest research, developments and practical applications throughout all areas of clean energy systems. Consolidating information which is currently scattered across a wide variety of literature sources, the handbook covers a broad range of topics in this interdisciplinary research field including both fossil and renewable energy systems. The development of intelligent energy systems for efficient energy processes and mitigation technologies for the reduction of environmental pollutants is explored in depth, and environmental, social and economic impacts are also addressed
Table of Contents
VOLUME 1: RENEWABLE ENERGY
Editorial Board v
International Advisory Board vii
Dedication ix
Contributors for Volume 1 xxiii
Preface xxvii
Part 1 Introduction 1
1 Introduction: Renewable Energy 3
Robert F. Boehm, Hongxing Yang, and Jinyue Yan
Part 2 Biomass Resources and Biofuel Production 9
2 Global Biomass Information: From Data Generation to Application 11
Dmitry Schepaschenko, Florian Kraxner, Linda See, Sabine Fuss, Ian McCallum, Steffen Fritz, Christoph Perger, Anatoly Shvidenko, Georg Kindermann, Stefan Frank, Markus Tum, Erwin Schmid, Juraj Balković, and Kurt Günther
3 Bioenergy Potential from Forest Biomass 35
Sylvain Leduc, Georg Kindermann, Nicklas Forsell, and Florian Kraxner
4 New Energy Crops for Biofuel Production 49
Yunkai Jin, Jun Su, Chunlin Liu, and Chuanxin Sun
5 Enhanced Microbial Process in the Sustainable Fuel Production 63
Elias Hakalehto
6 Algae Biofuels 85
David Chiaramonti, Mario R. Tredici, Matteo Prussi, and Natascia Biondi
7 First-Generation Biofuels 101
Muhammad Naqvi and Jinyue Yan
8 Fuel Ethanol from Lignocellulosic Biomass 119
Chang Geun Yoo and Xuejun Pan
9 Clean and Sustainable Biodiesel Production 139
Lew P. Christopher and Hemanathan Kumar
10 Biomass Gasification and Pyrolysis 155
Sushil Adhikari and Nourredine Adoulmoumine
Part 3 Bioenergy Utilization 167
11 Biorefinery: Production of Biofuel, Heat, and Power Utilizing Biomass 169
Muhammad Naqvi and Jinyue Yan
12 Biomass for Polygeneration and District Heating 189
Marco Baratieri and Dario Prando
13 A Two-Phase Anaerobic Digestion Process for Biogas Production for Combined Heat and Power Generation for Remote Communities 213
Dongke Zhang, Mingming Zhu, Wenxu Zhou, Setyawati Yani, Zhezi Zhang, and Jinhu Wu
14 Life Cycle Assessment of Biogas Systems 231
Shaoqing Chen and Bin Chen
15 Combined Heat and Power (CHP) Generation Using Gas Engines Fueled with Pyrolysis Gases 245
Dongke Zhang, Mingming Zhu, Zhezi Zhang, and Jinhu Wu
Part 4 Solar Energy 263
16 Brief Introduction to Solar Energy Utilization 265
Robert F. Boehm
17 Basic Photovoltaic Theory 283
Yahia Baghzouz
18 Photovoltaics: Comparison of PV Cell Types 297
Lewis M. Fraas
19 Photovoltaics: Sun Tracking Systems 307
Lewis M. Fraas
20 Photovoltaics: Building-Integrated Photovoltaics 319
John R. Balfour
21 Solar Water Heating 335
Robert F. Boehm
22 Introduction: Concentrating Solar Power Systems 355
Thomas R. Mancini
23 Solar Thermal Power Systems in CSP Applications 363
Mary Jane Hale
24 Production of Hydrogen with Solar Energy 375
Joop Schoonman
Part 5 Wind Energy 399
25 Overview of Wind Energy Resource 401
John K. Kaldellis
26 Wind Energy Conversion Systems 431
Hongxing Yang, Xiaoxia Gao, Tao Ma, Xiaodong Guo, and Di Liu
27 Aerodynamics of Wind Turbine Technology 459
Theodosios Korakianitis, M. A. Rezaienia, X. Shen, E. J. Avital, A. Munjiza, P. H. Wen, and J. J. R. Williams
28 Grid Connection and Power Conditioning of Wind Farms 481
Mohit Singh, Alicia Allen, and Bri-Mathias S. Hodge
29 Offshore Wind Farms 493
Erik L. Petersen, Charlotte B. Hasager, Michael Courtney, Anand Natarajan, Torben J. Larsen, Henrik Bredmose, Gunner C. Larsen, Poul E. Sorensen, Nicolaos A. Cutululis, Niels Erik-Clausen, and Thomas Buhl
30 Stand-Alone Wind Power and Hybrid Solar–Wind Power 539
Lin Lu
31 Life Cycle Assessment of Wind Power Generation System 557
Jin Yang and Bin Chen
Part 6 Geothermal Energy 575
32 Overview of Geothermal Energy Resource 577
Ernst Huenges
33 Geothermal Reservoir Engineering 585
Malcolm A. Grant
34 Geothermal Fluids in Porous Media 597
Kewen Li, Huiyuan Bian, and Changhui Cheng
35 Direct Use of Geothermal Energy 621
Andrew Chiasson
36 Geothermal Power Generation 635
Mehdi Eghbal
37 Geothermal Heat Pumps 645
Ping Cui, Yi Man, and Zhaohong Fang
Part 7 Tidal Energy 667
38 Tidal Range 669
Andrew J. Baldock
39 Tidal Current 679
Mat Thomson and Andrew J. Baldock
Part 8 Other Renewable Energy 697
40 Distributed Energy Systems Based on Water Electrolysis Driven by Renewable Electricity 699
Dongke Zhang and Kai Zeng
41 Advances of Renewable Energy Powered Desalination 711
Essam Sh. Mohamed and G. Papadakis
42 The Potential of Crowdsourcing for the Renewable Energy Sector 721
Linda See, Florian Kraxner, Sabine Fuss, Christoph Perger, Christian Schill, Kentaro Aoki, Sylvain Leduc, Ian McCallum, Nicklas Forsell, and Steffen FritzNote de contenu : vol 1 de 6 Handbook of Clean Energy Systems, vol 1. Renewable energy [texte imprimé] / Jinyue Yen, Auteur . - Chichester, U.K. : Wiley, 2015 . - xxvi-735 p. : ill. couv. en coul. voluminous ; 29x22/4 cm.
ISBN : 978-1-118-38858-7
Nombre de pages : 735
Format : Reliure occidentale
Éditeur : Wiley
Langue : Anglais
Éditeur : Jinyue Yan
Langues : Anglais (eng)
Mots-clés : Biomass resources and biofuel production Bioenergy Utilization Solar Energy Wind Energy Geothermal Energy Tidal Energy Index. décimale : 621.04 Energie Renouvelable Résumé : The Handbook of Clean Energy Systems brings together an international team of experts to present a comprehensive overview of the latest research, developments and practical applications throughout all areas of clean energy systems. Consolidating information which is currently scattered across a wide variety of literature sources, the handbook covers a broad range of topics in this interdisciplinary research field including both fossil and renewable energy systems. The development of intelligent energy systems for efficient energy processes and mitigation technologies for the reduction of environmental pollutants is explored in depth, and environmental, social and economic impacts are also addressed
Table of Contents
VOLUME 1: RENEWABLE ENERGY
Editorial Board v
International Advisory Board vii
Dedication ix
Contributors for Volume 1 xxiii
Preface xxvii
Part 1 Introduction 1
1 Introduction: Renewable Energy 3
Robert F. Boehm, Hongxing Yang, and Jinyue Yan
Part 2 Biomass Resources and Biofuel Production 9
2 Global Biomass Information: From Data Generation to Application 11
Dmitry Schepaschenko, Florian Kraxner, Linda See, Sabine Fuss, Ian McCallum, Steffen Fritz, Christoph Perger, Anatoly Shvidenko, Georg Kindermann, Stefan Frank, Markus Tum, Erwin Schmid, Juraj Balković, and Kurt Günther
3 Bioenergy Potential from Forest Biomass 35
Sylvain Leduc, Georg Kindermann, Nicklas Forsell, and Florian Kraxner
4 New Energy Crops for Biofuel Production 49
Yunkai Jin, Jun Su, Chunlin Liu, and Chuanxin Sun
5 Enhanced Microbial Process in the Sustainable Fuel Production 63
Elias Hakalehto
6 Algae Biofuels 85
David Chiaramonti, Mario R. Tredici, Matteo Prussi, and Natascia Biondi
7 First-Generation Biofuels 101
Muhammad Naqvi and Jinyue Yan
8 Fuel Ethanol from Lignocellulosic Biomass 119
Chang Geun Yoo and Xuejun Pan
9 Clean and Sustainable Biodiesel Production 139
Lew P. Christopher and Hemanathan Kumar
10 Biomass Gasification and Pyrolysis 155
Sushil Adhikari and Nourredine Adoulmoumine
Part 3 Bioenergy Utilization 167
11 Biorefinery: Production of Biofuel, Heat, and Power Utilizing Biomass 169
Muhammad Naqvi and Jinyue Yan
12 Biomass for Polygeneration and District Heating 189
Marco Baratieri and Dario Prando
13 A Two-Phase Anaerobic Digestion Process for Biogas Production for Combined Heat and Power Generation for Remote Communities 213
Dongke Zhang, Mingming Zhu, Wenxu Zhou, Setyawati Yani, Zhezi Zhang, and Jinhu Wu
14 Life Cycle Assessment of Biogas Systems 231
Shaoqing Chen and Bin Chen
15 Combined Heat and Power (CHP) Generation Using Gas Engines Fueled with Pyrolysis Gases 245
Dongke Zhang, Mingming Zhu, Zhezi Zhang, and Jinhu Wu
Part 4 Solar Energy 263
16 Brief Introduction to Solar Energy Utilization 265
Robert F. Boehm
17 Basic Photovoltaic Theory 283
Yahia Baghzouz
18 Photovoltaics: Comparison of PV Cell Types 297
Lewis M. Fraas
19 Photovoltaics: Sun Tracking Systems 307
Lewis M. Fraas
20 Photovoltaics: Building-Integrated Photovoltaics 319
John R. Balfour
21 Solar Water Heating 335
Robert F. Boehm
22 Introduction: Concentrating Solar Power Systems 355
Thomas R. Mancini
23 Solar Thermal Power Systems in CSP Applications 363
Mary Jane Hale
24 Production of Hydrogen with Solar Energy 375
Joop Schoonman
Part 5 Wind Energy 399
25 Overview of Wind Energy Resource 401
John K. Kaldellis
26 Wind Energy Conversion Systems 431
Hongxing Yang, Xiaoxia Gao, Tao Ma, Xiaodong Guo, and Di Liu
27 Aerodynamics of Wind Turbine Technology 459
Theodosios Korakianitis, M. A. Rezaienia, X. Shen, E. J. Avital, A. Munjiza, P. H. Wen, and J. J. R. Williams
28 Grid Connection and Power Conditioning of Wind Farms 481
Mohit Singh, Alicia Allen, and Bri-Mathias S. Hodge
29 Offshore Wind Farms 493
Erik L. Petersen, Charlotte B. Hasager, Michael Courtney, Anand Natarajan, Torben J. Larsen, Henrik Bredmose, Gunner C. Larsen, Poul E. Sorensen, Nicolaos A. Cutululis, Niels Erik-Clausen, and Thomas Buhl
30 Stand-Alone Wind Power and Hybrid Solar–Wind Power 539
Lin Lu
31 Life Cycle Assessment of Wind Power Generation System 557
Jin Yang and Bin Chen
Part 6 Geothermal Energy 575
32 Overview of Geothermal Energy Resource 577
Ernst Huenges
33 Geothermal Reservoir Engineering 585
Malcolm A. Grant
34 Geothermal Fluids in Porous Media 597
Kewen Li, Huiyuan Bian, and Changhui Cheng
35 Direct Use of Geothermal Energy 621
Andrew Chiasson
36 Geothermal Power Generation 635
Mehdi Eghbal
37 Geothermal Heat Pumps 645
Ping Cui, Yi Man, and Zhaohong Fang
Part 7 Tidal Energy 667
38 Tidal Range 669
Andrew J. Baldock
39 Tidal Current 679
Mat Thomson and Andrew J. Baldock
Part 8 Other Renewable Energy 697
40 Distributed Energy Systems Based on Water Electrolysis Driven by Renewable Electricity 699
Dongke Zhang and Kai Zeng
41 Advances of Renewable Energy Powered Desalination 711
Essam Sh. Mohamed and G. Papadakis
42 The Potential of Crowdsourcing for the Renewable Energy Sector 721
Linda See, Florian Kraxner, Sabine Fuss, Christoph Perger, Christian Schill, Kentaro Aoki, Sylvain Leduc, Ian McCallum, Nicklas Forsell, and Steffen FritzNote de contenu : vol 1 de 6 Exemplaires (1)
Code-barres Cote Support Localisation Section Disponibilité ST18741 621.04/83.1 Ouvrage Faculté des Sciences et de la Technologie 600 - Technologie (Sciences appliquées) Exclu du prêt
Titre de série : Handbook of Clean Energy Systems, vol. 2 Titre : Clean Energy Conversion Technologies Type de document : texte imprimé Auteurs : Jinyue Yen, Auteur Editeur : Chichester, U.K. : Wiley Année de publication : 2015 Importance : xxiv(de 740 à 1297) Présentation : ill. couv. en coul. voluminous Format : 29x22/4 cm Note générale : Nombre de pages : 740-1297
Format : Reliure occidentale
Éditeur : Wiley
Langue : Anglais
Éditeur : Jinyue Yan
. - ISBN 978-1-118-38858-7.Langues : Anglais (eng) Mots-clés : Steam/Vapor Power Generation Gas Turbines Power Generation Reciprocating Engines Fuel Cells Cogeneration and Polygeneration Index. décimale : 621.04 Energie Renouvelable Résumé : The Handbook of Clean Energy Systems brings together an international team of experts to present a comprehensive overview of the latest research, developments and practical applications throughout all areas of clean energy systems. Consolidating information which is currently scattered across a wide variety of literature sources, the handbook covers a broad range of topics in this interdisciplinary research field including both fossil and renewable energy systems. The development of intelligent energy systems for efficient energy processes and mitigation technologies for the reduction of environmental pollutants is explored in depth, and environmental, social and economic impacts are also addressed
Table of Contents
VOLUME 2: CLEAN ENERGY CONVERSION TECHNOLOGIES
Editorial Board v
International Advisory Board vii
Dedication ix
Contributors for Volume 2 xxiii
Preface xxvii
Part 1 Introduction 737
1 Introduction: Clean Energy Conversion Technologies 739
Umberto Desideri and Jinyue Yan
Part 2 Steam/Vapor Power Generation 743
2 Steam Power Generation 745
Alberto Mirandola, Anna Stoppato, and Alberto Benato
3 Organic Rankine Cycles Including Fluid Selection 763
Vincent Lemort, S´ebastien Declaye, and Sylvain Quoilin
4 Kalina Cycles for Power Generation 797
Emmanouil Rogdakis and Periklis Lolos
Part 3 Gas Turbines Power Generation 823
5 Gas Turbines for Power and Propulsion 825
Konstantinos G. Kyprianidis, Christos Gkoudesnes, and William Camilleri
6 Gas/Steam Combined Cycles Fueled by Various Energy Sources for Large-Scale Power Production 851
Ennio Macchi, Giovanni Lozza, Matteo C. Romano, Giampaolo Manzolini, and Paolo Chiesa
7 Evaporative Gas Turbine (EvGT)/Humid Air Turbine (HAT) Cycles 887
Ashok Rao
Part 4 Reciprocating Engines 905
8 Internal Combustion Engine (ICE) Fundamentals 907
Carlo N. Grimaldi and Federico Millo
9 Spark Ignition Engines: State-of-the-Art and Current Technologies. Future Trends and Developments 939
Giovanni Cipolla and Fabio Bozza
10 Compression Ignition Engines: State-of-the-Art and Current Technologies. Future Trends and Developments 975
Francisco Payri, José-María Desantes, and Jesús Benajes
11 Homogeneous Combustion Catalysts for Efficiency Improvements and Emission Reduction in Diesel Engines 1011
Dongke Zhang, Mingming Zhu, Yu Ma, and Noel Millin
12 Internal Combustion Engine Performance and Emissions Aspects When Fueled by Conventional and Sustainable Fuels 1027
Theodosios Korakianitis, Shahid Imran, David R. Emberson, Ashand M. Namasivayam, and Roy J. Crookes
13 Internal Combustion Engine Simulation 1061
Shijin Shuai, Zhi Wang, and Hongming Xu
14 Aftertreatment Technologies: State-of-the-Art and Emerging Technologies 1083
Debora Fino, Nunzio Russo, and Samir Bensaid
Part 5 Fuel Cells 1111
15 Solid Oxide Fuel Cell (SOFC) 1113
Umberto Desideri and Linda Barelli
16 Microbial Fuel Cell for Biomass Energy Conversion 1127
Rengasamy Karthikeyan, Jin Xuan, and Michael K. H. Leung
17 Fuel Cells for Commercial Applications 1149
Joseph W. Pratt, Lennie Klebanoff, Aaron Harris, and Ryan Sookhoo
18 Materials Issues for Solid Oxide Fuel Cells Design 1165
Miguel Morales and Mercé Segarra
Part 6 Cogeneration and Polygeneration 1183
19 Combined Heat and Power 1185
Eva Thorin, Jan Sandberg, and Jinyue Yan
20 Combined Cooling, Heating, and Power (CCHP) Systems 1197
Pedro J. Mago and Amanda D. Smith
21 Polygeneration Microgrids for Residential Applications 1213
George Kyriakarakos and George Papadakis
Part 7 Other Advanced Conversion Technologies 1225
22 Advanced Heat Exchangers for Clean and Sustainable Technology 1227
Bengt Sundén and Zan Wu
23 Gasification and Combustion of Biomass: Physical Description and Mathematical Modeling 1253
Hesameddin Fatehi and Xue-Song Bai
24 High Temperature Electrolysis for Hydrogen or Syngas Production from Nuclear or Renewable Energy 1279
Yixiang Shi, Yu Luo, Wenying Li, Meng Ni, and Ningsheng CaiNote de contenu : vol 2 de 6 Handbook of Clean Energy Systems, vol. 2. Clean Energy Conversion Technologies [texte imprimé] / Jinyue Yen, Auteur . - Chichester, U.K. : Wiley, 2015 . - xxiv(de 740 à 1297) : ill. couv. en coul. voluminous ; 29x22/4 cm.
Nombre de pages : 740-1297
Format : Reliure occidentale
Éditeur : Wiley
Langue : Anglais
Éditeur : Jinyue Yan
. - ISBN 978-1-118-38858-7.
Langues : Anglais (eng)
Mots-clés : Steam/Vapor Power Generation Gas Turbines Power Generation Reciprocating Engines Fuel Cells Cogeneration and Polygeneration Index. décimale : 621.04 Energie Renouvelable Résumé : The Handbook of Clean Energy Systems brings together an international team of experts to present a comprehensive overview of the latest research, developments and practical applications throughout all areas of clean energy systems. Consolidating information which is currently scattered across a wide variety of literature sources, the handbook covers a broad range of topics in this interdisciplinary research field including both fossil and renewable energy systems. The development of intelligent energy systems for efficient energy processes and mitigation technologies for the reduction of environmental pollutants is explored in depth, and environmental, social and economic impacts are also addressed
Table of Contents
VOLUME 2: CLEAN ENERGY CONVERSION TECHNOLOGIES
Editorial Board v
International Advisory Board vii
Dedication ix
Contributors for Volume 2 xxiii
Preface xxvii
Part 1 Introduction 737
1 Introduction: Clean Energy Conversion Technologies 739
Umberto Desideri and Jinyue Yan
Part 2 Steam/Vapor Power Generation 743
2 Steam Power Generation 745
Alberto Mirandola, Anna Stoppato, and Alberto Benato
3 Organic Rankine Cycles Including Fluid Selection 763
Vincent Lemort, S´ebastien Declaye, and Sylvain Quoilin
4 Kalina Cycles for Power Generation 797
Emmanouil Rogdakis and Periklis Lolos
Part 3 Gas Turbines Power Generation 823
5 Gas Turbines for Power and Propulsion 825
Konstantinos G. Kyprianidis, Christos Gkoudesnes, and William Camilleri
6 Gas/Steam Combined Cycles Fueled by Various Energy Sources for Large-Scale Power Production 851
Ennio Macchi, Giovanni Lozza, Matteo C. Romano, Giampaolo Manzolini, and Paolo Chiesa
7 Evaporative Gas Turbine (EvGT)/Humid Air Turbine (HAT) Cycles 887
Ashok Rao
Part 4 Reciprocating Engines 905
8 Internal Combustion Engine (ICE) Fundamentals 907
Carlo N. Grimaldi and Federico Millo
9 Spark Ignition Engines: State-of-the-Art and Current Technologies. Future Trends and Developments 939
Giovanni Cipolla and Fabio Bozza
10 Compression Ignition Engines: State-of-the-Art and Current Technologies. Future Trends and Developments 975
Francisco Payri, José-María Desantes, and Jesús Benajes
11 Homogeneous Combustion Catalysts for Efficiency Improvements and Emission Reduction in Diesel Engines 1011
Dongke Zhang, Mingming Zhu, Yu Ma, and Noel Millin
12 Internal Combustion Engine Performance and Emissions Aspects When Fueled by Conventional and Sustainable Fuels 1027
Theodosios Korakianitis, Shahid Imran, David R. Emberson, Ashand M. Namasivayam, and Roy J. Crookes
13 Internal Combustion Engine Simulation 1061
Shijin Shuai, Zhi Wang, and Hongming Xu
14 Aftertreatment Technologies: State-of-the-Art and Emerging Technologies 1083
Debora Fino, Nunzio Russo, and Samir Bensaid
Part 5 Fuel Cells 1111
15 Solid Oxide Fuel Cell (SOFC) 1113
Umberto Desideri and Linda Barelli
16 Microbial Fuel Cell for Biomass Energy Conversion 1127
Rengasamy Karthikeyan, Jin Xuan, and Michael K. H. Leung
17 Fuel Cells for Commercial Applications 1149
Joseph W. Pratt, Lennie Klebanoff, Aaron Harris, and Ryan Sookhoo
18 Materials Issues for Solid Oxide Fuel Cells Design 1165
Miguel Morales and Mercé Segarra
Part 6 Cogeneration and Polygeneration 1183
19 Combined Heat and Power 1185
Eva Thorin, Jan Sandberg, and Jinyue Yan
20 Combined Cooling, Heating, and Power (CCHP) Systems 1197
Pedro J. Mago and Amanda D. Smith
21 Polygeneration Microgrids for Residential Applications 1213
George Kyriakarakos and George Papadakis
Part 7 Other Advanced Conversion Technologies 1225
22 Advanced Heat Exchangers for Clean and Sustainable Technology 1227
Bengt Sundén and Zan Wu
23 Gasification and Combustion of Biomass: Physical Description and Mathematical Modeling 1253
Hesameddin Fatehi and Xue-Song Bai
24 High Temperature Electrolysis for Hydrogen or Syngas Production from Nuclear or Renewable Energy 1279
Yixiang Shi, Yu Luo, Wenying Li, Meng Ni, and Ningsheng CaiNote de contenu : vol 2 de 6 Exemplaires (1)
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