EE3611 Power System Laboratory Syllabus:

EE3611 Power System Laboratory Syllabus – Anna University Regulation 2021

COURSE OBJECTIVES:

1 To provide a better understanding of modelling of transmission lines in impedance and admittance forms.
2 To apply iterative techniques for power flow analysis and to carry out short circuit and stability studies on power system.
3 To analyze the load – frequency and voltage controls.
4 To analyze optimal dispatch of generators and perform state estimation.
5 To understand the operation of relays, characteristics, and applications.

LIST OF EXPERIMENTS:

1 Computation and modelling of transmission Lines.
2 Formation of Bus Admittance and Impedance Matrices.
3 Power Flow Analysis Using Gauss-Seidel Method.
4 Power Flow Analysis Using Newton Raphson Method.
5 Symmetric and Unsymmetrical Fault Analysis.
6 Transient Stability Analysis of SMIB System.
7 Load – Frequency Dynamics of Single- Area and Two-Area Power Systems.
8 Economic Dispatch in Power Systems.
9 State estimation: Weighted least square estimation.
10 Performance analysis of over current relay.
11 Performance analysis of impedance relay.
12 Testing of CT, PT, and Insulator string.
13 Relay Coordination in Radial Feeder Protection Scheme.

TOTAL: 45 PERIODS

COURSE OUTCOMES:

On the successful completion of the laboratory, students will be able to:
CO1: Model and analyze the performance of the transmission lines.
CO2: Perform power flow, short circuit, and stability analysis for any power system network.
CO3: Understand, design, and analyze the load frequency control mechanism.
CO4: Perform optimal scheduling of generators and compute the state of the power system.
CO5: Understand, analyze, and apply the relays for power system protection.