Theory of Load Compensation:
Requirement for compensation, Objectives in load compensation, Ideal compensator, Acceptance standards for quality of supply, Specifications of aload compensator, Power factor correction and voltage regulations in single phase system: Power Factor and its Correction, Voltage regulation. T1. Classical load balancing problem: open loop balancing. R1.
Theory of Steady State Reactive Power in Uncompensated & Compensated Transmission Line :
Fundamental requirement in AC power transmission, advantages& disadvantages of different types of compensating equipment for transmission systems, fundamental transmission line equation, surge impedance and natural loading, voltage and current profiles of uncompensated line on open circuit, uncompensated line under load, effect of line length, load power and power factor on voltage and reactive power.
Compensated Transmission Line:
Types of compensation, passive and active compensators, Uniformly distributed fixed compensation: Effect of distributed compensation on voltage control and effect of distributed compensation on line charging reactive power.
Basics of Capacitors, Reactive Power of Capacitors, Arrangements and Reactive Power of Capacitors, Capacitors Connected in Parallel: Capacitors Connected in Series, Star and Delta Connection of Power Capacitors, Design of MV Capacitors .
Passive shunt compensation:
Control of open circuit voltage with shunt reactors, required reactance values of shunt reactors.
Series compensation:
Objectives and practical limitations, Symmetrical line with mid-point series capacitor and shunt reactor, Power transfer characteristics and maximum transmissible power Fundamental concepts of compensation by sectioning.
Static Compensation:
Practical applications of static compensators in electrical power systems, main types of compensators, principle of operation of Thyristor Controlled Reactor (TCR), Thyristor Controlled Transformer, TCR with shunt capacitors and Thyristor Switched Capacitor (TSC), principle of operation of saturated reactor compensators.
Series Capacitors:
compensation factor, protective gear, Varistor protective gear, Resonance effects with series capacitors
Synchronous Condenser:
Condenser operation, Power system Voltage control, Emergency reactivepower supply, HVDC application. Comparison of basic types of compensator.
Harmonics:
Effect of harmonics on electrical equipment, resonance, shunt capacitors and filters, telephone interferences.
Reactive Power Co-ordination:
Reactive power management, transmission benefits, reactive power dispatch & equipment impact.
Reactive Power Planning:
Economic justification for reactive power planning, methods followed by the electricity boards in India, zonal reactive power requirements EHV & MV, low tension capacitors, placement in distribution, line capacitors.
Course Outcomes:
At the end of the course the student will be able to:
Question paper pattern:
Textbooks
1 Reactive power control in electric power systems T. J. E. Miller John Wiley & Sons 2009
2 Reactive Power Compensation : A Practical Guide Wolfgang Hofmann, Jurgen Schlabbach, Wolfgang Just. John Wiley 2012
3 Reactive Power Management D. Tagare TMH 1 st Edition, 2004
Reference Books
1 Power Quality Enhancement Using Custom Power Devices Arindam Ghosh, Gerard Ledwich Kluwer International 2002
2 Power System Voltage Stability Carson. W. Taylor McGraw-Hill 1993