Page 78 - REC :: B.E. EEE CURRICULUM & SYLLABUS - R2017
P. 78
Dept of EEE, REC
8. Modelling and simulation of energy storage system.
9. Power quality performance analysis for nonlinear loads.
10. Grid synchronization of PV sourced inverter.
11. Power control for wind power generations.
12. Simulation of isolated hybrid systems.
TOTAL: 45 PERIODS
OUTCOMES:
On completion of the course, the students will be able to
realize the mathematical model of renewable energy sources and analysis of hybrid energy
systems.
evaluate the pv-wind modeling through suitable software package.
verify the concept of fuel cell energy storage systems.
analysis the concept of grid synchronization with renewable energy sources.
estimate the power system operations states for remote area using software packages.
SYSTEM REQUIREMENT:
1. Desk-Top system -30 Numbers
Specification of systems:
1. 2GB RAM With 400MHz speed.
2. 250 GB HDD with 7200 RPM.
3. I3 –PROCESSOR with 1.5GHz speed.
4. Monitor.
5. Other I/O devices.
2. Software
1. MATLAB
2. PSIM
3. SEQUEL
3. 10 KVA UPS with suitable power backup.
4. Induction generator with suitable Prime mover.
PROFESSIONAL ELECTIVE FOR SEMESTER V
PROFESSIONAL ELECTIVE– I
EE17E51 PLC AND SCADA L T P C
3 0 0 3
OBJECTIVES:
To understand the operation of sensors related to PLC.
To acquire knowledge about the architecture, operation and programming of Programmable
Logic Controllers
To introduce the basic features, different blocks in the application of PLC.
To understand the functioning of SCADA and the interfacing of PLC with SCADA
To inculcate knowledge about various applications of PLC-SCADA interfaced systems
Curriculum and Syllabus | B.E. Electrical and Electronics Engineering | R2017 Page 78
