Monday, 3 April 2023

Wind and solar energy-mid semester syllabus-april-2023(3160917)

 GOVERNMENT ENGINEERING COLLEGE, BHARUCH

ELECTRICAL ENGINEERING DEPARTMENT

SUBJECT: WIND AND SOLAR ENERGY

SUBJECT CODE: 3160917

Mid Semester exam-April-2023

                 

Chapter no

Content

1

Module 1: Physics of Wind Power History of wind power, Indian and Global statistics, Wind physics, Betz limit, Tip speed ratio, stall and pitch control, Wind speed statistics-probability distributions, Wind speed and power-cumulative distribution functions.

2

Module 2: Wind generator topologies Review of modern wind turbine technologies, Fixed and Variable speed wind turbines, Induction Generators, Doubly-Fed Induction Generators and their characteristics, Permanent Magnet Synchronous Generators, Power electronics converter, Generator-Converter configurations, Converter Control.

3

Module 3: The Solar Resource Introduction, solar radiation spectra, solar geometry, Earth Sun angles, observer Sun angles, solar day length, Estimation of solar energy availability.

4

Module 4: Solar photovoltaic Solar Cell fundamentals, Technologies-Amorphous, monocrystalline, polycrystalline; V-I characteristics of a PV cell, PV module, array; Power Electronic Converters for Solar Systems, Maximum Power Point Tracking (MPPT) algorithms, Converter Control, Solar PV applications, Grid-Connected System and Standalone system, Solar Water Pumps, Solar street lights, Battery sizing.

5

Module 5: Network Integration Issues Overview of grid code technical requirements, Fault ride-through for wind farms - real and reactive power regulation, voltage and frequency operating limits, solar PV and wind farm behavior during grid disturbances, Power quality issues, Power system interconnection experiences in the world. Hybrid and isolated operations of solar PV and wind systems

 

Sr. No.

CO Statement

1.

Demonstrate the importance of renewable energy source and various applications of solar and wind systems.

2.

Do the preliminary analysis related to wind energy systems.

3.

Do the preliminary analysis and design of solar PV and solar thermal systems.

4.

Identify the power electronic converters for solar PV and wind energy systems.

5.

Describe the issues related to the renewable energy in the electrical utility network.

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