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EEE 501: RENEWABLE ENERGY TECHNOLOGIES
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| bet | 25/48 | | Sana | 02.01.2024 | | Hajmi | 327 Kb. | | #129611 |
Bog'liq BACHELOR OF SCIENCE ELECTRICAL ELECTRONICS ENGINEERINGEEE 501: RENEWABLE ENERGY TECHNOLOGIES
Introduction to renewable energy sources. Quantification of solar and wind energy sites. Photo-voltaic energy conversion. Maximum power point tracking. Principles of wind energy conversion (wind farms and maximum power point tracking). Modelling and simulation of photo-voltaic (PV) and wind energy generators. PV applications: grid connected and solar home systems. System sizing. Energy storage, batteries, fuel cells, flywheels, configuration and design. Micro-hydro systems and design principles. Grid interfacing of renewable energy systems. Hybrid systems for remote area power supplies. Solar water pumping. Economics of renewable energy systems. Case studies of renewable energy systems.
EEE 502: POWER SYSTEMS ANALYSIS
Fundamentals of Power System: Concepts of real and reactive powers, complex power, transmission capacity, load characteristics, per unit representation of power system.
Load Flow Analysis: Static load flow equations, network model formulation, solutions by Gauss-Siedal and Newton-Raphson method, effect of regulating transformers.
Power System Stability: Steady State Stability, transient stability, swing equation, equal area criterion for stability improvements of transient stability.
Economic Operation of Power System: Distribution of load between units within a plant, transmission loss as a function of plant generation, calculation of loss coefficients, distribution of load between plants, optimal scheduling of hydro thermal system.
Control Problem: Basic control of generator, small signal analysis, Automatic voltage regulator (AVR) exciter type and modeling generator modeling, static performance of AVR loop, Dynamic response of AVR loop, Automatic load frequency control, Turbine speed governing system and modeling, generator load model, block diagram representation of isolated power system, steady state analysis,' Dynamic response, proportional plus integral control.
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