Verfügbarkeit: Wind turbines :

Wind turbines :: types, economics and development /

Gespeichert in:

Bibliographische Detailangaben
Weitere Verfasser:	Martin, Gerard (HerausgeberIn), Roux, Jeremie (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York : Nova Science Publishers, Inc., [2010]
Schriftenreihe:	Energy science, engineering and technology series.
Schlagworte:	Wind turbines. Éoliennes. wind turbines. TECHNOLOGY & ENGINEERING > Electrical. Wind turbines
Online-Zugang:	Volltext
Beschreibung:	1 online resource.
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781613242001 161324200X

Internformat

MARC


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245	0	0	\|a Wind turbines : \|b types, economics and development / \|c Gerard Martin and Jeremie Roux, editors.
264		1	\|a New York : \|b Nova Science Publishers, Inc., \|c [2010]
300			\|a 1 online resource.
336			\|a text \|b txt \|2 rdacontent
337			\|a computer \|b c \|2 rdamedia
338			\|a online resource \|b cr \|2 rdacarrier
490	1		\|a Energy science, engineering and technology series
504			\|a Includes bibliographical references and index.
588			\|a Description based on print version record.
546			\|a English.
505	0		\|a WIND TURBINES: TYPES, ECONOMICSAND DEVELOPMENT; WIND TURBINES: TYPES, ECONOMICSAND DEVELOPMENT; CONTENTS; PREFACE; PREDICTING VERTICAL AXIS WIND TURBINEBEHAVIOUR: EFFECTS OF BLADE CONFIGURATIONON FLOW DISTRIBUTION AND POWER OUTPUT; Abstract; Nomenclature; Greek Symbols; Introduction; 2. Wind Energy; 2.1. Advantages of Wind Power; 2.2. Growth in Wind Power Capacity; 2.3. Importance of Policies and Incentives for Wind Energy; 3. Wind Turbines; 3.1. Types of Wind Turbines; 3.2. Applications; 3.3. Comparison of Wind Turbine Types; 4. Vertical Axis Wind Turbines; 4.1. Origins.
505	8		\|a 4.2. Darrieus Lift-Based Vawt4.3. Savonius Drag-Based VAWT; 4.4. Recent Developments in Drag-Based VAWTs; 4.5. Zephyr and Pacwind VAWTs; 5. Aerodynamics and Performance; 5.1. Aerodynamic Theory and Performance Characteristics; 5.1.1. Lift Force; 5.1.2. Drag Force; 5.1.3. Reynolds Number; 5.1.4. Blade Solidity; 5.1.5. Tip Speed Ratio; 5.1.6. Bezt Number; 5.2. Rotor Performance Parameters; 5.3. Blade Element Theory; 5.4. Torque and Power; 5.5. Single Stream-Tube Model; 5.6. Computational Fluid Dynamics; 6. Zephyr Turbine Design and Modification; 7. Numerical Simulations.
505	8		\|a 7.1. Numerical Methodology7.2. Computational Procedure; 7.2.1. Mathematical Formulation; 7.2.2. Governing Equations; 7.2.3. Discretization of Governing Equations and Domain; 7.3. Numerical Model; 7.4. Power and Efficiency; 8. Results and Discussion; 8.1. Performance Results; 8.2. Torque and Power; 8.3. Power Coefficient; 8.4. Effects of Geometry Modification; 8.5. Grid Sensitivity; 8.6. Comparison of Zephyr and Pacwind Turbines; 8.7. Lift and Drag Coefficients; 8.8. Velocity and Pressure Profiles; 9. Conclusions; Acknowledgments; References.
505	8		\|a DEVELOPMENTS IN THE CONCEPT AND SCALEOF WIND TURBINES FOR OFFSHORE APPLICATIONAbstract; Introduction; Offshore Wing Energy: The Driver for Turbine Change; A Brief History; The Consequences of Going Offshore; Surface Conditions; Wind Climate; Air Conditions; Biological Environment; Societal Environment; The Roots for Upscaling and Change of Offshore Wind Turbines; Upscaling; Introduction; Similarity Rules: A First-Order Assessment of Scale Effects; Principles of Similarity Rules; Mass; Power, Energy Yield and Rated Power; Structural Properties; Upscaling of Turbines and Components in Practice.
505	8		\|a Discussion of Similarity Rules Versus Upscaling in PracticeEvolution of Technology; Introduction; Changes to Components of Realised Turbines; Adjustment to the Environment; Purpose of Change; Future Developments; Further Upscaling; Conceptual Variation; Introduction; Drive Train: Gearbox and Generator; Control: Advanced and Smart or Simple and Robust; Tip Speed; Number of Blades; Upwind / Downwind; More Radical New Concepts; Introduction; Aerogenerator; Wind Energy Marine Unit-WEMU; Conclusion; Acknowledgments; References; MODELLING WIND FARMS FOR POWER SYSTEMSIMULATIONS; Abstract.
650		0	\|a Wind turbines. \|0 http://id.loc.gov/authorities/subjects/sh85002717
650		6	\|a Éoliennes.
650		7	\|a wind turbines. \|2 aat
650		7	\|a TECHNOLOGY & ENGINEERING \|x Electrical. \|2 bisacsh
650		7	\|a Wind turbines \|2 fast
700	1		\|a Martin, Gerard, \|e editor.
700	1		\|a Roux, Jeremie, \|e editor.
758			\|i has work: \|a Wind turbines types, economics and development (Text) \|1 https://id.oclc.org/worldcat/entity/E39PCY3CjGrRfCXp4Wvp4WPRcd \|4 https://id.oclc.org/worldcat/ontology/hasWork
776	0	8	\|i Print version: \|t Wind turbines \|d New York : Nova Science, c2010. \|z 1607418495 (hardcover) \|w (DLC) 2009024635
830		0	\|a Energy science, engineering and technology series. \|0 http://id.loc.gov/authorities/names/no2009115408
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Datensatz im Suchindex

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contents	WIND TURBINES: TYPES, ECONOMICSAND DEVELOPMENT; WIND TURBINES: TYPES, ECONOMICSAND DEVELOPMENT; CONTENTS; PREFACE; PREDICTING VERTICAL AXIS WIND TURBINEBEHAVIOUR: EFFECTS OF BLADE CONFIGURATIONON FLOW DISTRIBUTION AND POWER OUTPUT; Abstract; Nomenclature; Greek Symbols; Introduction; 2. Wind Energy; 2.1. Advantages of Wind Power; 2.2. Growth in Wind Power Capacity; 2.3. Importance of Policies and Incentives for Wind Energy; 3. Wind Turbines; 3.1. Types of Wind Turbines; 3.2. Applications; 3.3. Comparison of Wind Turbine Types; 4. Vertical Axis Wind Turbines; 4.1. Origins. 4.2. Darrieus Lift-Based Vawt4.3. Savonius Drag-Based VAWT; 4.4. Recent Developments in Drag-Based VAWTs; 4.5. Zephyr and Pacwind VAWTs; 5. Aerodynamics and Performance; 5.1. Aerodynamic Theory and Performance Characteristics; 5.1.1. Lift Force; 5.1.2. Drag Force; 5.1.3. Reynolds Number; 5.1.4. Blade Solidity; 5.1.5. Tip Speed Ratio; 5.1.6. Bezt Number; 5.2. Rotor Performance Parameters; 5.3. Blade Element Theory; 5.4. Torque and Power; 5.5. Single Stream-Tube Model; 5.6. Computational Fluid Dynamics; 6. Zephyr Turbine Design and Modification; 7. Numerical Simulations. 7.1. Numerical Methodology7.2. Computational Procedure; 7.2.1. Mathematical Formulation; 7.2.2. Governing Equations; 7.2.3. Discretization of Governing Equations and Domain; 7.3. Numerical Model; 7.4. Power and Efficiency; 8. Results and Discussion; 8.1. Performance Results; 8.2. Torque and Power; 8.3. Power Coefficient; 8.4. Effects of Geometry Modification; 8.5. Grid Sensitivity; 8.6. Comparison of Zephyr and Pacwind Turbines; 8.7. Lift and Drag Coefficients; 8.8. Velocity and Pressure Profiles; 9. Conclusions; Acknowledgments; References. DEVELOPMENTS IN THE CONCEPT AND SCALEOF WIND TURBINES FOR OFFSHORE APPLICATIONAbstract; Introduction; Offshore Wing Energy: The Driver for Turbine Change; A Brief History; The Consequences of Going Offshore; Surface Conditions; Wind Climate; Air Conditions; Biological Environment; Societal Environment; The Roots for Upscaling and Change of Offshore Wind Turbines; Upscaling; Introduction; Similarity Rules: A First-Order Assessment of Scale Effects; Principles of Similarity Rules; Mass; Power, Energy Yield and Rated Power; Structural Properties; Upscaling of Turbines and Components in Practice. Discussion of Similarity Rules Versus Upscaling in PracticeEvolution of Technology; Introduction; Changes to Components of Realised Turbines; Adjustment to the Environment; Purpose of Change; Future Developments; Further Upscaling; Conceptual Variation; Introduction; Drive Train: Gearbox and Generator; Control: Advanced and Smart or Simple and Robust; Tip Speed; Number of Blades; Upwind / Downwind; More Radical New Concepts; Introduction; Aerogenerator; Wind Energy Marine Unit-WEMU; Conclusion; Acknowledgments; References; MODELLING WIND FARMS FOR POWER SYSTEMSIMULATIONS; Abstract.
ctrlnum	(OCoLC)1162569397
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dewey-hundreds	600 - Technology (Applied sciences)
dewey-ones	621 - Applied physics
dewey-raw	621.31/2136
dewey-search	621.31/2136
dewey-sort	3621.31 42136
dewey-tens	620 - Engineering and allied operations
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
format	Electronic eBook
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series	Energy science, engineering and technology series.
series2	Energy science, engineering and technology series
spelling	Wind turbines : types, economics and development / Gerard Martin and Jeremie Roux, editors. New York : Nova Science Publishers, Inc., [2010] 1 online resource. text txt rdacontent computer c rdamedia online resource cr rdacarrier Energy science, engineering and technology series Includes bibliographical references and index. Description based on print version record. English. WIND TURBINES: TYPES, ECONOMICSAND DEVELOPMENT; WIND TURBINES: TYPES, ECONOMICSAND DEVELOPMENT; CONTENTS; PREFACE; PREDICTING VERTICAL AXIS WIND TURBINEBEHAVIOUR: EFFECTS OF BLADE CONFIGURATIONON FLOW DISTRIBUTION AND POWER OUTPUT; Abstract; Nomenclature; Greek Symbols; Introduction; 2. Wind Energy; 2.1. Advantages of Wind Power; 2.2. Growth in Wind Power Capacity; 2.3. Importance of Policies and Incentives for Wind Energy; 3. Wind Turbines; 3.1. Types of Wind Turbines; 3.2. Applications; 3.3. Comparison of Wind Turbine Types; 4. Vertical Axis Wind Turbines; 4.1. Origins. 4.2. Darrieus Lift-Based Vawt4.3. Savonius Drag-Based VAWT; 4.4. Recent Developments in Drag-Based VAWTs; 4.5. Zephyr and Pacwind VAWTs; 5. Aerodynamics and Performance; 5.1. Aerodynamic Theory and Performance Characteristics; 5.1.1. Lift Force; 5.1.2. Drag Force; 5.1.3. Reynolds Number; 5.1.4. Blade Solidity; 5.1.5. Tip Speed Ratio; 5.1.6. Bezt Number; 5.2. Rotor Performance Parameters; 5.3. Blade Element Theory; 5.4. Torque and Power; 5.5. Single Stream-Tube Model; 5.6. Computational Fluid Dynamics; 6. Zephyr Turbine Design and Modification; 7. Numerical Simulations. 7.1. Numerical Methodology7.2. Computational Procedure; 7.2.1. Mathematical Formulation; 7.2.2. Governing Equations; 7.2.3. Discretization of Governing Equations and Domain; 7.3. Numerical Model; 7.4. Power and Efficiency; 8. Results and Discussion; 8.1. Performance Results; 8.2. Torque and Power; 8.3. Power Coefficient; 8.4. Effects of Geometry Modification; 8.5. Grid Sensitivity; 8.6. Comparison of Zephyr and Pacwind Turbines; 8.7. Lift and Drag Coefficients; 8.8. Velocity and Pressure Profiles; 9. Conclusions; Acknowledgments; References. DEVELOPMENTS IN THE CONCEPT AND SCALEOF WIND TURBINES FOR OFFSHORE APPLICATIONAbstract; Introduction; Offshore Wing Energy: The Driver for Turbine Change; A Brief History; The Consequences of Going Offshore; Surface Conditions; Wind Climate; Air Conditions; Biological Environment; Societal Environment; The Roots for Upscaling and Change of Offshore Wind Turbines; Upscaling; Introduction; Similarity Rules: A First-Order Assessment of Scale Effects; Principles of Similarity Rules; Mass; Power, Energy Yield and Rated Power; Structural Properties; Upscaling of Turbines and Components in Practice. Discussion of Similarity Rules Versus Upscaling in PracticeEvolution of Technology; Introduction; Changes to Components of Realised Turbines; Adjustment to the Environment; Purpose of Change; Future Developments; Further Upscaling; Conceptual Variation; Introduction; Drive Train: Gearbox and Generator; Control: Advanced and Smart or Simple and Robust; Tip Speed; Number of Blades; Upwind / Downwind; More Radical New Concepts; Introduction; Aerogenerator; Wind Energy Marine Unit-WEMU; Conclusion; Acknowledgments; References; MODELLING WIND FARMS FOR POWER SYSTEMSIMULATIONS; Abstract. Wind turbines. http://id.loc.gov/authorities/subjects/sh85002717 Éoliennes. wind turbines. aat TECHNOLOGY & ENGINEERING Electrical. bisacsh Wind turbines fast Martin, Gerard, editor. Roux, Jeremie, editor. has work: Wind turbines types, economics and development (Text) https://id.oclc.org/worldcat/entity/E39PCY3CjGrRfCXp4Wvp4WPRcd https://id.oclc.org/worldcat/ontology/hasWork Print version: Wind turbines New York : Nova Science, c2010. 1607418495 (hardcover) (DLC) 2009024635 Energy science, engineering and technology series. http://id.loc.gov/authorities/names/no2009115408 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=358097 Volltext
spellingShingle	Wind turbines : types, economics and development / Energy science, engineering and technology series. WIND TURBINES: TYPES, ECONOMICSAND DEVELOPMENT; WIND TURBINES: TYPES, ECONOMICSAND DEVELOPMENT; CONTENTS; PREFACE; PREDICTING VERTICAL AXIS WIND TURBINEBEHAVIOUR: EFFECTS OF BLADE CONFIGURATIONON FLOW DISTRIBUTION AND POWER OUTPUT; Abstract; Nomenclature; Greek Symbols; Introduction; 2. Wind Energy; 2.1. Advantages of Wind Power; 2.2. Growth in Wind Power Capacity; 2.3. Importance of Policies and Incentives for Wind Energy; 3. Wind Turbines; 3.1. Types of Wind Turbines; 3.2. Applications; 3.3. Comparison of Wind Turbine Types; 4. Vertical Axis Wind Turbines; 4.1. Origins. 4.2. Darrieus Lift-Based Vawt4.3. Savonius Drag-Based VAWT; 4.4. Recent Developments in Drag-Based VAWTs; 4.5. Zephyr and Pacwind VAWTs; 5. Aerodynamics and Performance; 5.1. Aerodynamic Theory and Performance Characteristics; 5.1.1. Lift Force; 5.1.2. Drag Force; 5.1.3. Reynolds Number; 5.1.4. Blade Solidity; 5.1.5. Tip Speed Ratio; 5.1.6. Bezt Number; 5.2. Rotor Performance Parameters; 5.3. Blade Element Theory; 5.4. Torque and Power; 5.5. Single Stream-Tube Model; 5.6. Computational Fluid Dynamics; 6. Zephyr Turbine Design and Modification; 7. Numerical Simulations. 7.1. Numerical Methodology7.2. Computational Procedure; 7.2.1. Mathematical Formulation; 7.2.2. Governing Equations; 7.2.3. Discretization of Governing Equations and Domain; 7.3. Numerical Model; 7.4. Power and Efficiency; 8. Results and Discussion; 8.1. Performance Results; 8.2. Torque and Power; 8.3. Power Coefficient; 8.4. Effects of Geometry Modification; 8.5. Grid Sensitivity; 8.6. Comparison of Zephyr and Pacwind Turbines; 8.7. Lift and Drag Coefficients; 8.8. Velocity and Pressure Profiles; 9. Conclusions; Acknowledgments; References. DEVELOPMENTS IN THE CONCEPT AND SCALEOF WIND TURBINES FOR OFFSHORE APPLICATIONAbstract; Introduction; Offshore Wing Energy: The Driver for Turbine Change; A Brief History; The Consequences of Going Offshore; Surface Conditions; Wind Climate; Air Conditions; Biological Environment; Societal Environment; The Roots for Upscaling and Change of Offshore Wind Turbines; Upscaling; Introduction; Similarity Rules: A First-Order Assessment of Scale Effects; Principles of Similarity Rules; Mass; Power, Energy Yield and Rated Power; Structural Properties; Upscaling of Turbines and Components in Practice. Discussion of Similarity Rules Versus Upscaling in PracticeEvolution of Technology; Introduction; Changes to Components of Realised Turbines; Adjustment to the Environment; Purpose of Change; Future Developments; Further Upscaling; Conceptual Variation; Introduction; Drive Train: Gearbox and Generator; Control: Advanced and Smart or Simple and Robust; Tip Speed; Number of Blades; Upwind / Downwind; More Radical New Concepts; Introduction; Aerogenerator; Wind Energy Marine Unit-WEMU; Conclusion; Acknowledgments; References; MODELLING WIND FARMS FOR POWER SYSTEMSIMULATIONS; Abstract. Wind turbines. http://id.loc.gov/authorities/subjects/sh85002717 Éoliennes. wind turbines. aat TECHNOLOGY & ENGINEERING Electrical. bisacsh Wind turbines fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85002717
title	Wind turbines : types, economics and development /
title_auth	Wind turbines : types, economics and development /
title_exact_search	Wind turbines : types, economics and development /
title_full	Wind turbines : types, economics and development / Gerard Martin and Jeremie Roux, editors.
title_fullStr	Wind turbines : types, economics and development / Gerard Martin and Jeremie Roux, editors.
title_full_unstemmed	Wind turbines : types, economics and development / Gerard Martin and Jeremie Roux, editors.
title_short	Wind turbines :
title_sort	wind turbines types economics and development
title_sub	types, economics and development /
topic	Wind turbines. http://id.loc.gov/authorities/subjects/sh85002717 Éoliennes. wind turbines. aat TECHNOLOGY & ENGINEERING Electrical. bisacsh Wind turbines fast
topic_facet	Wind turbines. Éoliennes. wind turbines. TECHNOLOGY & ENGINEERING Electrical. Wind turbines
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=358097
work_keys_str_mv	AT martingerard windturbinestypeseconomicsanddevelopment AT rouxjeremie windturbinestypeseconomicsanddevelopment

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