EHV AC Transmission JNTU Syllabus

EHV AC Transmission JNTU Syllabus

 JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY
KAKINADA
IV Year B.Tech EEE I-Sem T P C
4+1* 0 4
EHV AC TRANSMISSION
(Elective-I)
Unit – I: Preliminaries:
Necessity of EHV AC transmission – advantages and problems–power handling capacity and line lossesmechanical
considerations – resistance of conductors – properties of bundled conductors – bundle
spacing and bundle radius- Examples.
Unit – II: Line and ground reactive parameters:
Line inductance and capacitances – sequence inductances and capacitances – modes of propagation –
ground return – Examples
Unit – III: Voltage gradients of conductors:
Electrostatics – field of sphere gap – field of line changes and properties – charge – potential relations for
multi-conductors – surface voltage gradient on conductors – distribution of voltage gradient on subconductors
of bundle – Examples.
Unit – IV: Corona effects – I:
Power loss and audible noise (AN) – corona loss formulae – charge voltage diagram – generation,
characteristics – limits and measurements of AN – relation between 1-phase and 3-phase AN levels –
Examples.
Unit – V: Corona effects – II:
Radio interference (RI) – corona pulses generation, properties, limits – frequency spectrum – modes of
propagation – excitation function – measurement of RI, RIV and excitation functions – Examples.
Unit – VI: Electro static field:
Electrostatic field: calculation of electrostatic field of EHV/AC lines – effect on humans, animals and plants
– electrostatic induction in unenergised circuit of double-circuit line – electromagnetic interference-
Examples.
Unit- VII: Traveling wave theory
Traveling wave expression and solution- source of excitation- terminal conditions- open circuited and
short-circuited end- reflection and refraction coefficients-Lumped parameters of distributed linesgeneralized
constants-No load voltage conditions and charging current.
Unit –VIII: Voltage control:
Power circle diagram and its use – voltage control using synchronous condensers – cascade connection
of shunt and series compensation – sub synchronous resonance in series capacitor – compensated lines
– static VAR compensating system.
TEXT BOOKS:
1. EHVAC Transmission Engineering by R. D. Begamudre, New Age International (p) Ltd.
2. HVAC and DC Transmission by S. Rao

Leave a Comment