Wave, Wind, and Current Power Generation. Victor M. Lyatkher

      1  Cover

      2  Title Page

      3  Copyright

      4  Preface

      5  1 Renewable Energy of the World

      6  2 Conversion of the Energy of Currents

      7  3 Collinear Units and Their Modifications

      8  4 Orthogonal Power Units 4.1 High Speed Orthogonal Turbines in the Infinite Flow 4.2 Efficiency Turbine with Different Parameters 4.3 One and Two Blades Turbines 4.4 Double-Acting Turbine 4.5 Many Blades Turbines with Large Diameter and Control Position of Blades 4.6 General

      9  5 Turbines with Transverse Turbulent Energy Transfer 5.1 Introduction 5.2 Efficiency of Ordinal VAWT – Brake of Flow Within the Aggregate 5.3 New Design with Turbulent Vertical Mixing of Streams 5.4 Conclusion

      10  6 Damless Hydropower and Tidal Power Plants

      11  7 Tidal Power as Basis for Hydrogen Energetic

      12  8 High Jet Power Plant

      13  9 Power Unit with a Controlled Thrust Vector – The Base for a Vehicle of Absolute Cross-Country Capability

      14  10 High Altitude Turbine (HAT): The Future of Wind Energy

      15  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*

      16  Index

      17  Also of Interest

      18  End User License Agreement

      1 Chapter 1Table 1.1 Countries where the installed capacity of the wind farm exceeds 1,000 ...Table 1.2Table 1.3Table 1.4 Maximum power (kW)/optimal speed (rpm) six-tier a single blade turbine...

      2 Chapter 3Table 3.1 The values of the integral J characterizing the relative unit drag.Table 3.2Table 3.3 Maximum values of power factors.Table 3.4Table 3.5Table 3.6Table 3.7Table 3.8

      3 Chapter 4Table 4.1 Test results of a single-blade wind turbine in the TsAGI wind tunnel.

      4 Chapter 5Table 5.1

      5 Chapter 6Table 6.1Table 6.2

      1 Chapter 1Fig. 1.1 Charles Brush’s Wind Turbine. Cleveland City, USA, 1888.Fig. 1.2 High-speed wind power unit. 100 kW. Balaclava City, Crimea, USSR, 1931.Fig. 1.3 Hydraulic unit MCT in repair and maintenance position. Devon Coast, 200...Fig. 1.4 Tidal power plant project based on the unit at Hammerfest strom.Fig. 1.5 Layout of damless tidal power plants in England.Fig. 1.6 Anglesey Coastal 11 MW Tidal Power Plant Project with 1.5 MW MCT Turbin...Fig. 1.7 Average annual wind flows over the United States at 50 m above the eart...Fig. 1.8 Distribution of installed wind farm capacity among several US states.Fig. 1.9 Total U.S. Wind Farm Capacity at the End of the Year.Fig. 1.10 One of the first large wind farms in the United States is Tehachapi Pa...Fig. 1.11 A 3 MW floating wind turbine with a rotor diameter of 90 m. Norway, 20...Fig. 1.12 A Vestas modern serial wind turbine. Power capacity: 1800 kW.Fig. 1.13 Relative time of using the installed capacity of the wind turbine of 6...Fig. 1.14 A TMZ serial wind turbine, Moscow (“Raduga” Scientific Production Asso...Fig. 1.15 Energy characteristic of the NEG Micon wind turbine. The rotor diamete...Fig. 1.16 Energy characteristics of the wind turbine of the “Electropribor” Cent...Fig. 1.17 Energy characteristics of a WTIC wind turbine (USA).Fig. 1.18 Orthogonal wind turbines designed according to the Darrieus scheme (19...Fig. 1.19 A 3.8 MW EOLE orthogonal wind turbine at Cap Chat cape on the southern...Fig. 1.20 Wind turbines 6 m (left) and 25 m (right) in diameter with variable ro...Fig.