Dept of EEE, REC

               Biomass – Various resources – Energy contents – Technological advancements – Conversion of biomass
               in  other  form  of  energy  –  solid,  liquid  and  gases  –  Gasifiers  –  Biomass  fired  boilers  – Cofiring  –
               Generation from municipal solid waste – Issues in harnessing these sources – Hydroenergy – Feasibility
               of  small,  mini  and  micro  hydel  plants:  scheme,  layout  and  economics  –  Tidal  and  wave  energy  –
               Geothermal and Ocean-Thermal Energy Conversion (OTEC) systems – Schemes, feasibility and viability.

               UNIT V         ENERGY STORAGE AND HYBRID SYSTEM CONFIGURATIONS                      9
               Energy  storage  –  Battery  –  Types  –  Equivalent  circuit  –  Performance  characteristics  –design  –charge
               regulators – Battery management – Fly wheel - Fuel cell - Ultra capacitors – Benefits over battery.
                                                                                        TOTAL: 45 PERIODS
               OUTCOMES:
               On completion of the course, the students will be able to
                     obtain the general physical mechanism of energy conversion
                     evaluate the function of micro generation systems
                     analyze the challenges and problems associated with the use of various energy sources, including
                       fossil fuels, with regard to future supply and the environment.
                     realize the basic electrical concepts and system components
                     verify  and  organize  information  on  renewable  energy  technologies  as  a  basis  for  further
                       investigation and evaluation.
                TEXT BOOKS:
                   1.  Rai, G. D., “Non Conventional Energy Sources”, Khanna Publishers,18th edition   2017.
                   2.  Rao  S.  Paruklekar,  “Energy  Technology  –  Non  Conventional,  Renewable  and  Conventional”,
                       Khanna Publishers, 3rd edition (2009).

               REFERENCES:
                   1.  Openshaw Taylor, E., “Utilisation of Electric Energy in SI Units.”, Orient Longman Ltd,2007.
                   2.  Uppal, S.L., “Electric Power”, 13th Edition, Khanna Publishers, 2009.
                   3.  Mukund R. Patel, “Wind and Solar Power Systems”, CRC Press LLC, second edition (15 July
                       2005).

               EE17711        POWER SYSTEM SIMULATION LABORATORY                                       L T P C
                                                                                                       0  0  4  2
               OBJECTIVES:
                     To provide better understanding of power system analysis through digital simulation
                     To study the load flow programs and their application
                     To provide the knowledge about transient stability in power systems
                     To impart knowledge on functioning of protective relays
                     To learn the concept of economic dispatch of power plants

               LIST OF EXPERIMENTS:
                   1.  Computation of Parameters and Modelling of Transmission Lines.
                   2.  Formation of Bus Admittance and Impedance Matrices and Solution of Networks.
                   3.  Load Flow Analysis - I: Solution of load flow and related problems using Gauss-Seidel method.
                   4.  Load  Flow  Analysis  -  II:  Solution  of  load  flow  and  related  problems  using  Newton  Raphson
                       Method.


               Curriculum and Syllabus | B.E. Electrical and Electronics Engineering | R2017           Page 76