Dept of EEE, REC

                   5.  Fault Analysis.
                   6.  Transient  and  Small  Signal  Stability  Analysis:  Single-Machine  Infinite  Bus  System  and  Multi
                       machine Power Systems
                   7.  Simulation analysis of power system protective relays.
                   8.  Motor Starting with Electromagnetic Transients analysis.
                   9.  Load – Frequency Dynamics of Single- Area and Two-Area Power Systems.
                   10. Economic Dispatch with hydro-thermal power plants.
                   11. Simulation study on Power Line Series Compensator.
                   12. Simulation study of FACTS controllers.
                                                                                        TOTAL: 45 PERIODS

               OUTCOMES:
               On completion of the course, the students will be able to
                     analyze the power flow using Newton-Raphson method and fast decoupled method.
                     realize the concept of  contingency analysis & economic dispatch operations.
                     evaluate the  transient stability in power systems networks.
                     determine the frequency deviation  during load variations.
                     estimate the system state with FACTS controller.

               LIST OF EQUIPMENT FOR A BATCH OF 30 STUDENTS:
                   1.  Personal computers (Pentium-IV, 80GB, 512 MBRAM) – 25 Nos.
                   2.  Printer laser- 1 No.
                   3.  Dot matrix- 1 No.
                   4.  Server (Pentium IV, 80GB, 1GBRAM) (High Speed Processor) – 1 No.
                   5.  Software: any power system simulation software - 5 licenses
                   6.  Compliers: C, C++, VB, VC++ - 25 users.

               EE17712        RENEWABLE ENERGY SYSTEMS LABORATORY                                       L T  P C
                                                                                                        0  0  4  2

               OBJECTIVES:
                     To  understand  the  mathematical  model  of  renewable  energy  sources  and  analysis  of  hybrid
                       energy systems.
                     To provide the knowledge on PV-Wind modeling.
                     To study the concept of fuel cell power generations.
                     To impart knowledge on grid synchronization with renewable energy sources.
                     To learn the power System operations for remote area using software packages.

               LIST OF EXPERIMENTS:
                   1.  Modelling and simulation of Photovoltaic models.
                   2.  Simulation of  Perturb and Observe MPPT Algorithm for PV array
                   3.  Modelling and simulation of self-excited Induction generator.
                   4.  Modelling and simulation of DFIG.
                   5.  Modelling and simulation of permanent magnet synchronous generator.
                   6.  Experimental validation of self-excited Induction generator.
                   7.  Modelling and simulation of Fuel Cell.


               Curriculum and Syllabus | B.E. Electrical and Electronics Engineering | R2017           Page 77