Название: Wave, Wind, and Current Power Generation
Автор: Victor M. Lyatkher
Издательство: John Wiley & Sons Limited
Жанр: Физика
isbn: 9781119829447
isbn:
5 Chapter 5Fig. 5.1 Scheme of currents in a turbine zone.Fig. 5.2 Efficiency of the power unit CP modelled by a flat permeable plate, dep...Fig. 5.3 Torque moment from one blade orthogonal wind turbine. D=1.4m, chord b =...Fig. 5.4 Power of straight blade hydro turbines with length L = 5.4m, Blades GAW...Fig. 5.5 Distribution of loadings on the route of blades (at the left) and the s...Fig. 5.6 Zones of 2% of distortion of the field of speeds at different angle of ...Fig. 5.7 Multiblades wind power system on the tower from usually HAWT.Fig. 5.8 Averaged power of windmill D=50m with one blade NASA0021, b=1m, L=3m as...Fig. 5.9 The first one-sided windmill with large relative diameter. Doubki, USSR...Fig. 5.10 Radical lowering of friction in support. The node (5) - at the left is...Fig. 5.11 Carts with blades move on the ring route. Above - a fragment of the pa...Fig. 5.12 Blades on a rigid ring, but the ring itself chooses a position of dyna...Fig. 5.13 Models of multi-blade rotors with linear generators on tests in big wi...Fig. 5.14 Results of tests of hydro turbines. D=2.7m, b=0.12m, L=0.36m, U=2.30-2...Fig. 5.15 General view of the power unit 2.5. 1, 2) the blades focused in opposi...Fig. 5.16 The linear generator with opposite moving of rings.Fig. 5.17 A general view of the model prepared to test in a wind tunnel.Fig. 5.18 The special orientation design for the counter-rotating turbines.Fig. 5.19 The load on a single blade of the 6-blade unit at a flow rate of 3.5 m...Fig. 5.20 The flow velocity module at the blade track points that are distanced ...Fig. 5.21 The windmill is going on the pontoon in dry dock and afloat delivered ...
6 Chapter 6Fig. 6.1 Six tier balanced turbine with one blade in each tier.Fig. 6.2 Turbine common views.Fig. 6.3 Completely balanced turbine concerning the central point of contact.Fig. 6.4 One blade on a disk with the balance weight.Fig. 6.5 Profile and general view of the blade of the turbine.Fig. 6.6 Fragment of an aluminum shaft.Fig. 6.7 Turbine power P opposite speed relation.Fig. 6.8 The generator with the constant magnets ГВ-2/650-110-12Г ( «Erga», Kalu...Fig. 6.9 From left - a comparison of passport (1) and experimental (2) data. Rig...Fig. 6.10 Rotational speed of the turbine (1) and the voltage on the generator (...Fig. 6.11 Rotational speed of the turbine (1) and power at the generator termina...Fig. 6.12 Rotational speed of the turbine (1) and power at the generator termina...Fig. 6.13Fig. 6.14 Scheme of micro-hydroelectric power station 1) turbine (2.7 × 0.64 m2)...Fig. 6.15 Completely balanced turbine with 2 blades on each tier.Fig. 6.16 Efficiency of two blades machine. Solidity 0.2.Fig. 6.17 Efficiency curve. Solidity 0.3.Fig. 6.18 Short hydro-turbine diameter of 1.6 m and a height of 0.9 m with 3 bla...
7 Chapter 7Fig. 7.1 The tidal parameters in the basin of TPP.Fig. 7.2 General view of the orthogonal multi blade power unit. The top of the c...Fig. 7.3 Cross section of the rings.Fig. 7.4 The model of multi-blade rotor in the hydraulic channel.Fig. 7.5 The efficiency factor of the rotor of a multiblade hydropower unit acco...Fig. 7.6 The power factor of the multi blade turbine CN in the function of the r...Fig. 7.7 The tidal power station in the eastern part of Bay of Fundy (Minas Basi...Fig. 7.8 TPP without the dam near Auckland. 1- TPP general, capacity up to 1.3GW...Fig. 7.9 The tidal power station in the narrowness of Tugursky Bay. The width of...Fig. 7.10 The water levels and flow speeds in Tugur and Lindholm (solid lines) s...Fig. 7.11 The tidal power station in the northern part of Penzhenskaya Bay. The ...Fig. 7.12 The conditional cross section (a) and the unit of the turbines (b), lo...Fig. 7.13 Total power from two TPP. In the inside straight α = 0.2.Fig. 7.14 The bays of Iceland to build TPP with basis power.
8 Chapter 8Fig. 8.1 Isolines of mean streams of wind power (kW/sq.m) over Moscow.Fig. 8.2 Wind power density (kW/m2) that was exceeded 5%, 32%, 50%, 68%, and 95%...Fig. 8.3 The blocks of High-Altitude Wind Power Plant.Fig. 8.4 High-Altitude Wind Power Plant (HAWPP) with 3 blocks included Orthogona...Fig. 8.5 Maximum efficiency of a frame two-bladed rotor with a solidity 0.3 reac...Fig. 8.6 The relative loads acting on one tier of two-bladed turbine. ReV= 8.5×1...Fig. 8.7 Left-. Longitudinal section of plant blades (one layer). The Max. lifti...Fig. 8.8 Coefficient of a lifting force of a wing on tests in water as an angle ...Fig. 8.9 Options of an arrangement of a crack for giving of a jet, b = 200 mm, a...Fig. 8.10 Option 1. Jet on shady side at the end of a wing.Fig. 8.11 At negative corners a jet on the shaded party. Jet influence at small ...Fig. 8.12 Jet influence at large numbers Strukhal.Fig. 8.13 Option 2 – a jet at the beginning of a wing. Small numbers Strukhalya....Fig. 8.14 Option 2. Large numbers Strukhal. The jet on shady side of a profile c...Fig. 8.15 General view of model and Scheme of giving of a stream. On the opposit...Fig. 8.16 The turbine model with hollow blades and shaft.Fig. 8.17 1) sock of the blade, 2) an alignment of the greatest thickness o the ...Fig. 8.18 Example of the blade’s profile (top)1,2 - nozzles, forming a wall jets...Fig. 8.19 Sections of channels supplying air to blade surface for circulation co...
9 Chapter 9Fig. 9.1 General view of the car with spirals (up) and a section along the spira...Fig. 9.2 Fragment of a spiral turbine in a single-blade rotor variant. The blade...Fig. 9.3 High maneuverability vehicle that does not require expensive equipment.Fig. 9.4 Geometric parameters and flow diagram of the wing profile.Fig. 9.5 Components of the blade load in the absence of a jet.Fig. 9.6 Components of the load on the blade under the action of the jet on the ...Fig. 9.7 Two rotors with parallel axes above the roof of the vehicle.Fig. 9.8 Turbines with straight blades approximating the spiral.Fig. 9.9 Arrangement of turbine blades with compensation of centrifugal forces.
10 Chapter 10Fig. 10.1 Jet stream.Fig. СКАЧАТЬ