Development of form-adaptive airfoil profiles for wind turbine application:
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Schlagworte: | |
| Online-Zugang: | kostenfrei |
| Beschreibung: | ""6.2.2. Closure for Turbulent Flow Equations"" |
| Beschreibung: | 1 Online-Ressource (212 Seiten) |
| ISBN: | 3737603758 9783737603751 |
| Zugangseinschränkungen: | Open Access |
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| 245 | 1 | 0 | |a Development of form-adaptive airfoil profiles for wind turbine application |c Irfan Ahmed |
| 264 | 0 | |a Kassel |b Kassel University Press GmbH |c 2017 | |
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| 500 | |a ""6.2.2. Closure for Turbulent Flow Equations"" | ||
| 505 | 8 | |a Front cover -- Title page -- Imprint -- Acknowledgement -- Kurzfassung -- Abstract -- Contents -- List of Figures -- List of Tables -- Nomenclature -- 1. Introduction -- 1.1. Preface -- 1.2. Motivation -- 1.3. State of the Art -- 1.3.1. Flow Control over Airfoil -- 1.3.2. Control Systems inWind Turbine -- 1.3.3. Airfoil Profiles forWind Turbine Blades -- 1.3.4. Blade Material -- 1.3.5. Shape Adaption Techniques -- 1.3.6. Actuator Concepts -- 1.3.7. Numerical Simulation of Fluid-Structure Interaction -- 1.3.8. Numerical Design-and Analysis-Tools | |
| 505 | 8 | |a 1.3.9. Experimental Techniques2. Conceptual Investigation of the Shape-Adaptive Airfoil Profile -- 2.1. Definition of Profile Geometry -- 2.2. Leading- and Trailing-Edge Camber Adaption -- 2.2.1. Coupled Bending of the Profile Skins -- 2.2.2. Airfoil Skin Adaption -- 2.3. System of Equations -- 2.4. Flow Simulation -- 2.4.1. Spatial Discretization -- 2.4.2. Governing Equations -- 2.5. Structural Simulation -- 2.5.1. Geometry Definition -- 2.5.2. Spatial Discretization and Pre-Processing -- 2.5.3. Governing Equations | |
| 505 | 8 | |a 2.6. Simulation of Fluid-Structure Interaction (FSI)2.6.1. FSI Coupling Scheme -- 2.6.2. FSI Coupling Constraints -- 3. Concept of the Actuator -- 3.1. Actuation Concepts -- 3.2. Constraints of Shape Adaption -- 3.3. Wind Turbine Blade Structure -- 3.4. Actuation Methods -- 3.5. Material Selection -- 3.5.1. Material Selection for the Actuators -- 3.5.2. Material Selection for the Airfoil Skins -- 3.6. Model of Flexible Structure -- 3.6.1. Airfoil Skin Morphing -- 3.6.2. Coupled Bending of the Profile Skins -- 4. Design of the Shape-Adaptive Airfoil | |
| 505 | 8 | |a 4.1. Shape-Adaptive Airfoil with Coupled Bending of the Profile Skins4.1.1. Pre-Investigation of the Shape-Adaptive Airfoil System -- 4.1.2. Design of the Actuation System -- 4.1.3. Construction -- 4.2. Shape-Adaptive Airfoil with Skin Adaption -- 4.2.1. Pre-Investigation of the Airfoil Shape -- 4.2.2. Design and Installation of Shape Adaption System -- 5. Experimental Investigations -- 5.1. Wind Tunnel Setup -- 5.1.1. Test Rig -- 5.1.2. Instrumentation and Data Acquisition -- 5.2. Measurement Points -- 5.3. Measurement Systems -- 5.3.1. 5-Hole Probe | |
| 505 | 8 | |a 5.3.2. PIV Measurement5.4. Analysis of Experimental Investigations -- 5.4.1. Flow-Field Analysis via PIV Measurement -- 5.4.2. Regulation of Inflow Boundary Conditions -- 5.4.3. 5-Hole Probe Measurement for NACA 0012 Airfoil -- 5.4.4. 5-Hole Probe Measurement for Shape-Adaptive Airfoil with Coupled Bending of the Profile Skins -- 5.4.5. 5-Hole Probe Measurement for Shape-Adaptive Airfoil with Skin Adaption -- 6. Numerical Investigations -- 6.1. Definition of the Test Section -- 6.2. Governing Equations -- 6.2.1. Reynolds-Favre Averaging | |
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Datensatz im Suchindex
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| author | Ahmed, Irfan |
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| bvnumber | BV048279186 |
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| contents | Front cover -- Title page -- Imprint -- Acknowledgement -- Kurzfassung -- Abstract -- Contents -- List of Figures -- List of Tables -- Nomenclature -- 1. Introduction -- 1.1. Preface -- 1.2. Motivation -- 1.3. State of the Art -- 1.3.1. Flow Control over Airfoil -- 1.3.2. Control Systems inWind Turbine -- 1.3.3. Airfoil Profiles forWind Turbine Blades -- 1.3.4. Blade Material -- 1.3.5. Shape Adaption Techniques -- 1.3.6. Actuator Concepts -- 1.3.7. Numerical Simulation of Fluid-Structure Interaction -- 1.3.8. Numerical Design-and Analysis-Tools 1.3.9. Experimental Techniques2. Conceptual Investigation of the Shape-Adaptive Airfoil Profile -- 2.1. Definition of Profile Geometry -- 2.2. Leading- and Trailing-Edge Camber Adaption -- 2.2.1. Coupled Bending of the Profile Skins -- 2.2.2. Airfoil Skin Adaption -- 2.3. System of Equations -- 2.4. Flow Simulation -- 2.4.1. Spatial Discretization -- 2.4.2. Governing Equations -- 2.5. Structural Simulation -- 2.5.1. Geometry Definition -- 2.5.2. Spatial Discretization and Pre-Processing -- 2.5.3. Governing Equations 2.6. Simulation of Fluid-Structure Interaction (FSI)2.6.1. FSI Coupling Scheme -- 2.6.2. FSI Coupling Constraints -- 3. Concept of the Actuator -- 3.1. Actuation Concepts -- 3.2. Constraints of Shape Adaption -- 3.3. Wind Turbine Blade Structure -- 3.4. Actuation Methods -- 3.5. Material Selection -- 3.5.1. Material Selection for the Actuators -- 3.5.2. Material Selection for the Airfoil Skins -- 3.6. Model of Flexible Structure -- 3.6.1. Airfoil Skin Morphing -- 3.6.2. Coupled Bending of the Profile Skins -- 4. Design of the Shape-Adaptive Airfoil 4.1. Shape-Adaptive Airfoil with Coupled Bending of the Profile Skins4.1.1. Pre-Investigation of the Shape-Adaptive Airfoil System -- 4.1.2. Design of the Actuation System -- 4.1.3. Construction -- 4.2. Shape-Adaptive Airfoil with Skin Adaption -- 4.2.1. Pre-Investigation of the Airfoil Shape -- 4.2.2. Design and Installation of Shape Adaption System -- 5. Experimental Investigations -- 5.1. Wind Tunnel Setup -- 5.1.1. Test Rig -- 5.1.2. Instrumentation and Data Acquisition -- 5.2. Measurement Points -- 5.3. Measurement Systems -- 5.3.1. 5-Hole Probe 5.3.2. PIV Measurement5.4. Analysis of Experimental Investigations -- 5.4.1. Flow-Field Analysis via PIV Measurement -- 5.4.2. Regulation of Inflow Boundary Conditions -- 5.4.3. 5-Hole Probe Measurement for NACA 0012 Airfoil -- 5.4.4. 5-Hole Probe Measurement for Shape-Adaptive Airfoil with Coupled Bending of the Profile Skins -- 5.4.5. 5-Hole Probe Measurement for Shape-Adaptive Airfoil with Skin Adaption -- 6. Numerical Investigations -- 6.1. Definition of the Test Section -- 6.2. Governing Equations -- 6.2.1. Reynolds-Favre Averaging |
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| index_date | 2024-07-03T20:00:49Z |
| indexdate | 2024-07-10T09:34:01Z |
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| owner | DE-355 DE-BY-UBR |
| owner_facet | DE-355 DE-BY-UBR |
| physical | 1 Online-Ressource (212 Seiten) |
| psigel | ZDB-4-EOAC |
| publishDateSearch | 2017 |
| publishDateSort | 2017 |
| record_format | marc |
| spelling | Ahmed, Irfan Verfasser aut Development of form-adaptive airfoil profiles for wind turbine application Irfan Ahmed Kassel Kassel University Press GmbH 2017 1 Online-Ressource (212 Seiten) txt rdacontent c rdamedia cr rdacarrier ""6.2.2. Closure for Turbulent Flow Equations"" Front cover -- Title page -- Imprint -- Acknowledgement -- Kurzfassung -- Abstract -- Contents -- List of Figures -- List of Tables -- Nomenclature -- 1. Introduction -- 1.1. Preface -- 1.2. Motivation -- 1.3. State of the Art -- 1.3.1. Flow Control over Airfoil -- 1.3.2. Control Systems inWind Turbine -- 1.3.3. Airfoil Profiles forWind Turbine Blades -- 1.3.4. Blade Material -- 1.3.5. Shape Adaption Techniques -- 1.3.6. Actuator Concepts -- 1.3.7. Numerical Simulation of Fluid-Structure Interaction -- 1.3.8. Numerical Design-and Analysis-Tools 1.3.9. Experimental Techniques2. Conceptual Investigation of the Shape-Adaptive Airfoil Profile -- 2.1. Definition of Profile Geometry -- 2.2. Leading- and Trailing-Edge Camber Adaption -- 2.2.1. Coupled Bending of the Profile Skins -- 2.2.2. Airfoil Skin Adaption -- 2.3. System of Equations -- 2.4. Flow Simulation -- 2.4.1. Spatial Discretization -- 2.4.2. Governing Equations -- 2.5. Structural Simulation -- 2.5.1. Geometry Definition -- 2.5.2. Spatial Discretization and Pre-Processing -- 2.5.3. Governing Equations 2.6. Simulation of Fluid-Structure Interaction (FSI)2.6.1. FSI Coupling Scheme -- 2.6.2. FSI Coupling Constraints -- 3. Concept of the Actuator -- 3.1. Actuation Concepts -- 3.2. Constraints of Shape Adaption -- 3.3. Wind Turbine Blade Structure -- 3.4. Actuation Methods -- 3.5. Material Selection -- 3.5.1. Material Selection for the Actuators -- 3.5.2. Material Selection for the Airfoil Skins -- 3.6. Model of Flexible Structure -- 3.6.1. Airfoil Skin Morphing -- 3.6.2. Coupled Bending of the Profile Skins -- 4. Design of the Shape-Adaptive Airfoil 4.1. Shape-Adaptive Airfoil with Coupled Bending of the Profile Skins4.1.1. Pre-Investigation of the Shape-Adaptive Airfoil System -- 4.1.2. Design of the Actuation System -- 4.1.3. Construction -- 4.2. Shape-Adaptive Airfoil with Skin Adaption -- 4.2.1. Pre-Investigation of the Airfoil Shape -- 4.2.2. Design and Installation of Shape Adaption System -- 5. Experimental Investigations -- 5.1. Wind Tunnel Setup -- 5.1.1. Test Rig -- 5.1.2. Instrumentation and Data Acquisition -- 5.2. Measurement Points -- 5.3. Measurement Systems -- 5.3.1. 5-Hole Probe 5.3.2. PIV Measurement5.4. Analysis of Experimental Investigations -- 5.4.1. Flow-Field Analysis via PIV Measurement -- 5.4.2. Regulation of Inflow Boundary Conditions -- 5.4.3. 5-Hole Probe Measurement for NACA 0012 Airfoil -- 5.4.4. 5-Hole Probe Measurement for Shape-Adaptive Airfoil with Coupled Bending of the Profile Skins -- 5.4.5. 5-Hole Probe Measurement for Shape-Adaptive Airfoil with Skin Adaption -- 6. Numerical Investigations -- 6.1. Definition of the Test Section -- 6.2. Governing Equations -- 6.2.1. Reynolds-Favre Averaging Open Access EbpS Éoliennes Profils aérodynamiques Aerofoils TECHNOLOGY & ENGINEERING Engineering (General) wind turbines Wind turbines Fluid-Struktur-Wechselwirkung (DE-588)4314754-9 gnd rswk-swf Windturbine (DE-588)4189962-3 gnd rswk-swf Leistungsbewertung (DE-588)4167271-9 gnd rswk-swf Rotorblatt (DE-588)4286652-2 gnd rswk-swf Numerische Strömungssimulation (DE-588)4690080-9 gnd rswk-swf Aeroelastizität (DE-588)4202469-9 gnd rswk-swf Windkraftwerk (DE-588)4128839-7 gnd rswk-swf Profilumströmung (DE-588)4175828-6 gnd rswk-swf Profil Aerodynamik (DE-588)4126393-5 gnd rswk-swf Schaufelform (DE-588)4225772-4 gnd rswk-swf Electronic books (DE-588)4113937-9 Hochschulschrift gnd-content Windkraftwerk (DE-588)4128839-7 s Windturbine (DE-588)4189962-3 s Rotorblatt (DE-588)4286652-2 s Schaufelform (DE-588)4225772-4 s Aeroelastizität (DE-588)4202469-9 s Profil Aerodynamik (DE-588)4126393-5 s Profilumströmung (DE-588)4175828-6 s Fluid-Struktur-Wechselwirkung (DE-588)4314754-9 s Numerische Strömungssimulation (DE-588)4690080-9 s Leistungsbewertung (DE-588)4167271-9 s DE-604 Erscheint auch als Druck-Ausgabe Ahmed, Irfan Development of Form-Adaptive Airfoil Profiles for Wind Turbine Application Kassel : Kassel University Press GmbH, ©2017 9783737603744 https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1663479 Verlag kostenfrei Volltext |
| spellingShingle | Ahmed, Irfan Development of form-adaptive airfoil profiles for wind turbine application Front cover -- Title page -- Imprint -- Acknowledgement -- Kurzfassung -- Abstract -- Contents -- List of Figures -- List of Tables -- Nomenclature -- 1. Introduction -- 1.1. Preface -- 1.2. Motivation -- 1.3. State of the Art -- 1.3.1. Flow Control over Airfoil -- 1.3.2. Control Systems inWind Turbine -- 1.3.3. Airfoil Profiles forWind Turbine Blades -- 1.3.4. Blade Material -- 1.3.5. Shape Adaption Techniques -- 1.3.6. Actuator Concepts -- 1.3.7. Numerical Simulation of Fluid-Structure Interaction -- 1.3.8. Numerical Design-and Analysis-Tools 1.3.9. Experimental Techniques2. Conceptual Investigation of the Shape-Adaptive Airfoil Profile -- 2.1. Definition of Profile Geometry -- 2.2. Leading- and Trailing-Edge Camber Adaption -- 2.2.1. Coupled Bending of the Profile Skins -- 2.2.2. Airfoil Skin Adaption -- 2.3. System of Equations -- 2.4. Flow Simulation -- 2.4.1. Spatial Discretization -- 2.4.2. Governing Equations -- 2.5. Structural Simulation -- 2.5.1. Geometry Definition -- 2.5.2. Spatial Discretization and Pre-Processing -- 2.5.3. Governing Equations 2.6. Simulation of Fluid-Structure Interaction (FSI)2.6.1. FSI Coupling Scheme -- 2.6.2. FSI Coupling Constraints -- 3. Concept of the Actuator -- 3.1. Actuation Concepts -- 3.2. Constraints of Shape Adaption -- 3.3. Wind Turbine Blade Structure -- 3.4. Actuation Methods -- 3.5. Material Selection -- 3.5.1. Material Selection for the Actuators -- 3.5.2. Material Selection for the Airfoil Skins -- 3.6. Model of Flexible Structure -- 3.6.1. Airfoil Skin Morphing -- 3.6.2. Coupled Bending of the Profile Skins -- 4. Design of the Shape-Adaptive Airfoil 4.1. Shape-Adaptive Airfoil with Coupled Bending of the Profile Skins4.1.1. Pre-Investigation of the Shape-Adaptive Airfoil System -- 4.1.2. Design of the Actuation System -- 4.1.3. Construction -- 4.2. Shape-Adaptive Airfoil with Skin Adaption -- 4.2.1. Pre-Investigation of the Airfoil Shape -- 4.2.2. Design and Installation of Shape Adaption System -- 5. Experimental Investigations -- 5.1. Wind Tunnel Setup -- 5.1.1. Test Rig -- 5.1.2. Instrumentation and Data Acquisition -- 5.2. Measurement Points -- 5.3. Measurement Systems -- 5.3.1. 5-Hole Probe 5.3.2. PIV Measurement5.4. Analysis of Experimental Investigations -- 5.4.1. Flow-Field Analysis via PIV Measurement -- 5.4.2. Regulation of Inflow Boundary Conditions -- 5.4.3. 5-Hole Probe Measurement for NACA 0012 Airfoil -- 5.4.4. 5-Hole Probe Measurement for Shape-Adaptive Airfoil with Coupled Bending of the Profile Skins -- 5.4.5. 5-Hole Probe Measurement for Shape-Adaptive Airfoil with Skin Adaption -- 6. Numerical Investigations -- 6.1. Definition of the Test Section -- 6.2. Governing Equations -- 6.2.1. Reynolds-Favre Averaging Éoliennes Profils aérodynamiques Aerofoils TECHNOLOGY & ENGINEERING Engineering (General) wind turbines Wind turbines Fluid-Struktur-Wechselwirkung (DE-588)4314754-9 gnd Windturbine (DE-588)4189962-3 gnd Leistungsbewertung (DE-588)4167271-9 gnd Rotorblatt (DE-588)4286652-2 gnd Numerische Strömungssimulation (DE-588)4690080-9 gnd Aeroelastizität (DE-588)4202469-9 gnd Windkraftwerk (DE-588)4128839-7 gnd Profilumströmung (DE-588)4175828-6 gnd Profil Aerodynamik (DE-588)4126393-5 gnd Schaufelform (DE-588)4225772-4 gnd |
| subject_GND | (DE-588)4314754-9 (DE-588)4189962-3 (DE-588)4167271-9 (DE-588)4286652-2 (DE-588)4690080-9 (DE-588)4202469-9 (DE-588)4128839-7 (DE-588)4175828-6 (DE-588)4126393-5 (DE-588)4225772-4 (DE-588)4113937-9 |
| title | Development of form-adaptive airfoil profiles for wind turbine application |
| title_auth | Development of form-adaptive airfoil profiles for wind turbine application |
| title_exact_search | Development of form-adaptive airfoil profiles for wind turbine application |
| title_exact_search_txtP | Development of form-adaptive airfoil profiles for wind turbine application |
| title_full | Development of form-adaptive airfoil profiles for wind turbine application Irfan Ahmed |
| title_fullStr | Development of form-adaptive airfoil profiles for wind turbine application Irfan Ahmed |
| title_full_unstemmed | Development of form-adaptive airfoil profiles for wind turbine application Irfan Ahmed |
| title_short | Development of form-adaptive airfoil profiles for wind turbine application |
| title_sort | development of form adaptive airfoil profiles for wind turbine application |
| topic | Éoliennes Profils aérodynamiques Aerofoils TECHNOLOGY & ENGINEERING Engineering (General) wind turbines Wind turbines Fluid-Struktur-Wechselwirkung (DE-588)4314754-9 gnd Windturbine (DE-588)4189962-3 gnd Leistungsbewertung (DE-588)4167271-9 gnd Rotorblatt (DE-588)4286652-2 gnd Numerische Strömungssimulation (DE-588)4690080-9 gnd Aeroelastizität (DE-588)4202469-9 gnd Windkraftwerk (DE-588)4128839-7 gnd Profilumströmung (DE-588)4175828-6 gnd Profil Aerodynamik (DE-588)4126393-5 gnd Schaufelform (DE-588)4225772-4 gnd |
| topic_facet | Éoliennes Profils aérodynamiques Aerofoils TECHNOLOGY & ENGINEERING wind turbines Wind turbines Fluid-Struktur-Wechselwirkung Windturbine Leistungsbewertung Rotorblatt Numerische Strömungssimulation Aeroelastizität Windkraftwerk Profilumströmung Profil Aerodynamik Schaufelform Hochschulschrift |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1663479 |
| work_keys_str_mv | AT ahmedirfan developmentofformadaptiveairfoilprofilesforwindturbineapplication |