PTEE3035 Grid Integrating Techniques and Challenges Syllabus:
PTEE3035 Grid Integrating Techniques and Challenges Syllabus – Anna University Part time Regulation 2023
COURSE OBJECTIVES:
To study about the present power Scenario
To model a micro grid system
To model power converter for grid interconnection
To integrate wind energy conversion system with grid
To simulate power converters like three phase inverters and DC-DC converters
UNIT I PRESENT POWER SCENARIO IN INDIA
Introduction – Thermal Power Plant , Components of Thermal Power Plant , Major Thermal Power Plants in India- Gas-Based Power Generation – Nuclear Power Plants -Hydropower Generation – Pumped Storage Plants – Solar Power – Wind Energy – Power plants India
UNIT II POWER GRIDS
Introduction -Electric Power ,Background , The Construction of a Power Grid System , Basic Concepts of Power Grids -Load Models – Transformers in Electric Power Grids – Modelling a Microgrid System
UNIT III MODELING OF CONVERTERS IN POWER GRID DISTRIBUTED GENERATION SYSTEMS
Introduction – Single-Phase DC/AC Inverters with Two Switches, Three-Phase DC/AC Inverters, Pulse Width Modulation Methods, The Triangular, The Identity Method, Analysis of DC/AC Three-Phase Inverters. Micro grid of Renewable Energy Systems- DC/DC Converters in Green Energy -Pulse Width Modulation -Sizing of an Inverter for Microgrid Operation, Sizing of a Rectifier for Microgrid Operation, The Sizing of DC/DC Converters for Micro grid
UNIT IV WIND ENERGY SYSTEM GRID INTEGRATION
Introduction- Significance of Electrical Power Quality in Wind Power System- Integration Issues in Grid-Connected Wind Energy- Effect of Power Quality Issues, Importance of Custom Power Devices- Power Quality Point of View.
UNIT V GRID INTER CONNECTION
Grid Code requirements-Grid integration of WECS-Grid Integration of PV systems
30 PERIODS
LAB COMPONENT 30 PERIODS
1. Develop a model for the control of DC micro grid for non linear loads
2. Simulation study of three phase inverters with fixed and sine PWM techniques, Simulation and Design of buck/boost converters.
3. Simulate a Grid Connected Wind Energy System with STATCOM and investigate the improvement in power quality.
TOTAL: 30+30 = 60 PERIODS
COURSE OUTCOMES:
Upon completion of the course, Students able to
CO1 Review the power sector scenario in India.
CO2 Model a microgrid system
CO3 Model a converter for power grid distributed system.
CO4 Integrate wind energy system.
CO5 Simulate three phase inverter with fixed and sine PWM.
TEXT BOOKS:
1. Brian D’Andrade “The Power Grid”, Academic Press, 1st Edition, 2017.
2. Yang Han, “Modeling and Control of Power Electronic Converters for Microgrid Applications”, Springer, 1st Edition 2022.
3. Siegfried Heier, “Grid Integration of Wind Energy: Onshore and Offshore Conversion Systems”, John Wiley & Sons, Ltd, 2014, 3rd Edition.
REFERENCES:
1. Integration of Renewable Energy Sources with Smart Grid, M. Kathiresh, A. Mahaboob Subahani, and G.R. Kanaga chidambaresan, Scrivener & Wiley, 2021, 1st Edition.
2. Control and Operation of Grid-Connected Wind Energy Systems, Ali M. Eltamaly, Almoataz Y. Abdelaziz, Ahmed G. Abo-Khalil, Springer 2021, 1st Edition.
3. Design of smart power grid renewable energy systems, Third Edition, Ali Keyhani, Wiley 2019.
4. Power Electronic Converters, Teuvo Suntio, Tuomas Messo, Joonas Puukko, Wiley 2017, 1st Edition.
5. Fundamentals of Power Electronics with MATLAB, Randall Shaffer, Laxmi publications, 2013, 2nd Edition.
6. Power Conversion and Control of Wind Energy Systems, Bin Wu, 2011, Wiley-IEEE, 1st Edition.
7. Wind Power Integration – Connection and System Operational Aspects, Brendan Fox, 2014, IET, 2nd Edition.
8. Renewable Energy Devices and Systems with Simulations in MATLAB and ANSYS, Frede Blaabjerg, Dan M. Ionel, CRC press, 2017, 1st Edition.