Wave, Wind, and Current Power Generation
-15%
portes grátis
Wave, Wind, and Current Power Generation
Rahman, Ziaur; Lyatkher, Victor M.
John Wiley & Sons Inc
04/2022
384
Dura
Inglês
9781119829300
15 a 20 dias
666
Descrição não disponível.
Preface vii
1 Renewable Energy of the World 1
2 Conversion of the Energy of Currents 59
3 Collinear Units and Their Modifications 95
4 Orthogonal Power Units 159
4.1 High Speed Orthogonal Turbines in the Infinite Flow 159
4.2 Efficiency Turbine with Different Parameters 163
4.3 One and Two Blades Turbines 173
4.4 Double-Acting Turbine 184
4.5 Many Blades Turbines with Large Diameter and Control Position of Blades 187
4.6 General 192
References 193
5 Turbines with Transverse Turbulent Energy Transfer 195
5.1 Introduction 195
5.2 Efficiency of Ordinal VAWT - Brake of Flow Within the Aggregate 201
5.3 New Design with Turbulent Vertical Mixing of Streams 202
5.4 Conclusion 215
References 215
6 Damless Hydropower and Tidal Power Plants 217
7 Tidal Power as Basis for Hydrogen Energetic 231
Conclusion 254
References 255
8 High Jet Power Plant 257
References 281
9 Power Unit with a Controlled Thrust Vector - The Base for a Vehicle of Absolute Cross-Country Capability 283
Conclusion 290
References 290
Conclusion General 290
10 High Altitude Turbine (HAT): The Future of Wind Energy 293
Harnessing the Wind Energy 293
Basic Architecture of HAT 295
Air Borne Module (ABM) 296
Tether 298
The Conversion Unit 300
Ground-Based Power Generation 300
On-Board Power Generation 302
Dirigible-Based Rotors (DBR) 303
The Launcher and Landing System 304
Balance-of-Station 304
Comparison of HAT with Conventional Wind Turbine (CWT) 304
Multidimensional Scope of HAT 306
Probable Drawbacks 307
Commercial Endeavors 308
Case Study 309
References 315
Application 1 Development and Adaptation of a Mathematical Model for a Two-Dimensional Calculation of the Flow Around an NACA0021 Airfoil Moving Along a Circular Track 319
Index 355
1 Renewable Energy of the World 1
2 Conversion of the Energy of Currents 59
3 Collinear Units and Their Modifications 95
4 Orthogonal Power Units 159
4.1 High Speed Orthogonal Turbines in the Infinite Flow 159
4.2 Efficiency Turbine with Different Parameters 163
4.3 One and Two Blades Turbines 173
4.4 Double-Acting Turbine 184
4.5 Many Blades Turbines with Large Diameter and Control Position of Blades 187
4.6 General 192
References 193
5 Turbines with Transverse Turbulent Energy Transfer 195
5.1 Introduction 195
5.2 Efficiency of Ordinal VAWT - Brake of Flow Within the Aggregate 201
5.3 New Design with Turbulent Vertical Mixing of Streams 202
5.4 Conclusion 215
References 215
6 Damless Hydropower and Tidal Power Plants 217
7 Tidal Power as Basis for Hydrogen Energetic 231
Conclusion 254
References 255
8 High Jet Power Plant 257
References 281
9 Power Unit with a Controlled Thrust Vector - The Base for a Vehicle of Absolute Cross-Country Capability 283
Conclusion 290
References 290
Conclusion General 290
10 High Altitude Turbine (HAT): The Future of Wind Energy 293
Harnessing the Wind Energy 293
Basic Architecture of HAT 295
Air Borne Module (ABM) 296
Tether 298
The Conversion Unit 300
Ground-Based Power Generation 300
On-Board Power Generation 302
Dirigible-Based Rotors (DBR) 303
The Launcher and Landing System 304
Balance-of-Station 304
Comparison of HAT with Conventional Wind Turbine (CWT) 304
Multidimensional Scope of HAT 306
Probable Drawbacks 307
Commercial Endeavors 308
Case Study 309
References 315
Application 1 Development and Adaptation of a Mathematical Model for a Two-Dimensional Calculation of the Flow Around an NACA0021 Airfoil Moving Along a Circular Track 319
Index 355
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Water power; wind power; turbulent flow; hydraulic modelling; high jet; tidal power; wind mills; jet streams; Renewable energy; Conversion of the energy of currents; Collinear units and their modifications; Orthogonal power units; High speed orthogonal turbines; infinite flow; Efficiency turbines; One blade turbines; two blade turbines; Double-acting turbines; Many blades turbines; blade position; blade control; transverse turbulent energy transfer; ordinal VAWT; brake of flow; Damless; hydro power plants; tidal power plants; damless power plants; hydrogen energetics; high jet power plant; thrust vector; flow calculation; airfoil; circular track
Preface vii
1 Renewable Energy of the World 1
2 Conversion of the Energy of Currents 59
3 Collinear Units and Their Modifications 95
4 Orthogonal Power Units 159
4.1 High Speed Orthogonal Turbines in the Infinite Flow 159
4.2 Efficiency Turbine with Different Parameters 163
4.3 One and Two Blades Turbines 173
4.4 Double-Acting Turbine 184
4.5 Many Blades Turbines with Large Diameter and Control Position of Blades 187
4.6 General 192
References 193
5 Turbines with Transverse Turbulent Energy Transfer 195
5.1 Introduction 195
5.2 Efficiency of Ordinal VAWT - Brake of Flow Within the Aggregate 201
5.3 New Design with Turbulent Vertical Mixing of Streams 202
5.4 Conclusion 215
References 215
6 Damless Hydropower and Tidal Power Plants 217
7 Tidal Power as Basis for Hydrogen Energetic 231
Conclusion 254
References 255
8 High Jet Power Plant 257
References 281
9 Power Unit with a Controlled Thrust Vector - The Base for a Vehicle of Absolute Cross-Country Capability 283
Conclusion 290
References 290
Conclusion General 290
10 High Altitude Turbine (HAT): The Future of Wind Energy 293
Harnessing the Wind Energy 293
Basic Architecture of HAT 295
Air Borne Module (ABM) 296
Tether 298
The Conversion Unit 300
Ground-Based Power Generation 300
On-Board Power Generation 302
Dirigible-Based Rotors (DBR) 303
The Launcher and Landing System 304
Balance-of-Station 304
Comparison of HAT with Conventional Wind Turbine (CWT) 304
Multidimensional Scope of HAT 306
Probable Drawbacks 307
Commercial Endeavors 308
Case Study 309
References 315
Application 1 Development and Adaptation of a Mathematical Model for a Two-Dimensional Calculation of the Flow Around an NACA0021 Airfoil Moving Along a Circular Track 319
Index 355
1 Renewable Energy of the World 1
2 Conversion of the Energy of Currents 59
3 Collinear Units and Their Modifications 95
4 Orthogonal Power Units 159
4.1 High Speed Orthogonal Turbines in the Infinite Flow 159
4.2 Efficiency Turbine with Different Parameters 163
4.3 One and Two Blades Turbines 173
4.4 Double-Acting Turbine 184
4.5 Many Blades Turbines with Large Diameter and Control Position of Blades 187
4.6 General 192
References 193
5 Turbines with Transverse Turbulent Energy Transfer 195
5.1 Introduction 195
5.2 Efficiency of Ordinal VAWT - Brake of Flow Within the Aggregate 201
5.3 New Design with Turbulent Vertical Mixing of Streams 202
5.4 Conclusion 215
References 215
6 Damless Hydropower and Tidal Power Plants 217
7 Tidal Power as Basis for Hydrogen Energetic 231
Conclusion 254
References 255
8 High Jet Power Plant 257
References 281
9 Power Unit with a Controlled Thrust Vector - The Base for a Vehicle of Absolute Cross-Country Capability 283
Conclusion 290
References 290
Conclusion General 290
10 High Altitude Turbine (HAT): The Future of Wind Energy 293
Harnessing the Wind Energy 293
Basic Architecture of HAT 295
Air Borne Module (ABM) 296
Tether 298
The Conversion Unit 300
Ground-Based Power Generation 300
On-Board Power Generation 302
Dirigible-Based Rotors (DBR) 303
The Launcher and Landing System 304
Balance-of-Station 304
Comparison of HAT with Conventional Wind Turbine (CWT) 304
Multidimensional Scope of HAT 306
Probable Drawbacks 307
Commercial Endeavors 308
Case Study 309
References 315
Application 1 Development and Adaptation of a Mathematical Model for a Two-Dimensional Calculation of the Flow Around an NACA0021 Airfoil Moving Along a Circular Track 319
Index 355
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Water power; wind power; turbulent flow; hydraulic modelling; high jet; tidal power; wind mills; jet streams; Renewable energy; Conversion of the energy of currents; Collinear units and their modifications; Orthogonal power units; High speed orthogonal turbines; infinite flow; Efficiency turbines; One blade turbines; two blade turbines; Double-acting turbines; Many blades turbines; blade position; blade control; transverse turbulent energy transfer; ordinal VAWT; brake of flow; Damless; hydro power plants; tidal power plants; damless power plants; hydrogen energetics; high jet power plant; thrust vector; flow calculation; airfoil; circular track
