EE6009 - POWER ELECTRONICS FOR RENEWABLE ENERGY SYSTEMS (Syllabus) 2013-regulation Anna University

EE6009 - POWER ELECTRONICS FOR RENEWABLE ENERGY SYSTEMS (Syllabus) 2013-regulation Anna University

EE6009

POWER ELECTRONICS FOR RENEWABLE ENERGY SYSTEMS

 LPTC
3003

OBJECTIVES:
• To Provide knowledge about the stand alone and grid connected renewable energy systems.
• To equip with required skills to derive the criteria for the design of power converters for renewable energy applications.
• To analyse and comprehend the various operating modes of wind electrical generators and solar energy systems.
• To design different power converters namely AC to DC, DC to DC and AC to AC converters for renewable energy systems.
• To develop maximum power point tracking algorithms.

UNIT I

INTRODUCTION

9
Environmental aspects of electric energy conversion: impacts of renewable energy generation on environment (cost-GHG Emission) - Qualitative study of different renewable energy resources: Solar, wind, ocean, Biomass, Fuel cell, Hydrogen energy systems and hybrid renewable energy systems.

UNIT II

ELECTRICAL MACHINES FOR RENEWABLE ENERGY CONVERSION

9
Reference theory fundamentals-principle of operation and analysis: IG, PMSG, SCIG and DFIG.


UNIT III

POWER CONVERTERS

9
Solar: Block diagram of solar photo voltaic system -Principle of operation: line commutated converters (inversion-mode) - Boost and buck-boost converters- selection of inverter, battery sizing, array sizing Wind: Three phase AC voltage controllers- AC-DC-AC converters: uncontrolled rectifiers, PWM Inverters, Grid Interactive Inverters-matrix converters.

UNIT IV

ANALYSIS OF WIND AND PV SYSTEMS

9
Stand alone operation of fixed and variable speed wind energy conversion systems and solar system- Grid connection Issues -Grid integrated PMSG, SCIG Based WECS, grid Integrated solar system

UNIT V

HYBRID RENEWABLE ENERGY SYSTEMS

9
Need for Hybrid Systems- Range and type of Hybrid systems- Case studies of Wind-PV Maximum Power Point Tracking (MPPT).

TOTAL : 45 PERIODS

OUTCOMES:
• Ability to understand and analyze power system operation, stability, control and protection.
• Ability to handle the engineering aspects of electrical energy generation and utilization.

TEXT BOOKS:
1. S. N. Bhadra, D.Kastha, S.Banerjee, “Wind Electrical Systems”, Oxford University Press, 2005.
2. B.H.Khan Non-conventional Energy sources Tata McGraw-hill Publishing Company, New Delhi,2009.

REFERENCES
1. Rashid .M. H “power electronics Hand book”, Academic press, 2001.
2. Ion Boldea, “Variable speed generators”, Taylor & Francis group, 2006.
3. Rai. G.D, “Non conventional energy sources”, Khanna publishes, 1993.
4. Gray, L. Johnson, “Wind energy system”, prentice hall linc, 1995.
5. Andrzej M. Trzynnadlowski, ‘Introduction to Modern Power Electronics’, Second edition, wiley India Pvt. Ltd, 2012.
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