Ps2113 Distributed Generation and Microgrid 2013 14

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    FACULTY OF ENGINEERING AND TECHNOLOGY

    SRM UNIVERSITY

    KATTANKULATHUR

    DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGG

    LESSON PLAN

    Subject Code: PS2113

    SubjectName:DISTRIBUTED GENERATION AND MICROGRID

    Branch: M.Tech. POWER SYSTEMS

    Year: I

    Semester: II Sem.

    Staff Name: D.SATTIANADAN

    Duration: 2013 14 [EVEN]

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    Sl.no Topic Hours

    required

    REFERENCE

    BOOKS

    1. Conventional power generation: advantages and disadvantages,Energy crises

    1 R6

    2. Non-conventional energy (NCE) resources 1 R63. review of Solar PV, 1 R3,R64. Wind Energy systems, 1 R45. Fuel Cells 1 R66. micro-turbines 1 R67. biomass 1 R58. Tidal sources. 1 R69. Concept of distributed generations, topologies, selection of

    sources, regulatory standards/ framework

    2 R6

    10. Standards for interconnecting Distributed resources to electricpower systems: IEEE 1547. DG installation classes, security issues

    in DG implementations.

    3 R6

    11. Energy storage elements: Batteries 1 R612. ultra-capacitors 1 R613. flywheels 1 R614. Captive power plants 1 R615. Requirements for grid interconnection 1 R616. limits on operational parameters 1 R617. voltage, frequency, THD, response to grid abnormal operating

    conditions, islanding issues.

    3 R6

    18. Impact of grid integration with NCE sources on existing powersystem: reliability, stability and power quality issues

    4 R6

    19. Concept and definition of microgrid, 1 Ref.paper (IEEE)20. microgrid drivers and benefits, review of sources of microgrids,

    typical structure and configuration of a microgrid, AC and DC

    microgrids,

    3 Ref.paper

    21. Power Electronics interfaces in DC and AC microgrids,communication infrastructure, modes of operation and control of

    microgrid: grid connected and islanded mode,

    4 Ref.paper, R1, R2

    22. Active and reactive power control, protection issues, anti-islandingschemes: passive, active and communication based techniques.

    3 Ref.paper, R1, R2

    23. Power quality issues in microgrids- 2 Ref.paper, R1, R224. Modelling and Stability analysis of Microgrid 2 Ref.paper, R1, R225. regulatory standards 1 Ref.paper, R1, R226. Microgrid economics 2 Ref.paper, R1, R227. Introduction to smart microgrids. 1 Ref.paper, R1, R2

    REFERENCE BOOKS:

    1. AmirnaserYezdani, and Reza Iravani, Voltage Source Converters in Power Systems: Modeling,Control and Applications, IEEE John Wiley Publications,2009.

    2. DorinNeacsu, Power Switching Converters: Medium and High Power, CRC Press, Taylor & Francis,2006.

    3. Chetan Singh Solanki, Solar Photo Voltaics, PHI learning Pvt. Ltd., New Delhi, 2009.4. J.F. Manwell, Wind Energy Explained, theory design and applications, J.G. McGowan Wiley

    publication, 2002.

    5. D. D. Hall and R. P. Grover, Biomass Regenerable Energy, John Wiley, New York, 1987.6. John Twidell and Tony Weir, Renewable Energy Resources Tyalor and Francis Publications, 2005