Delhi Technological University
Formerly Delhi College of Engineering
 

Dr. Narendra Kumar

Qualifications:B.Sc. Engg., M.Sc. (Engg.), Ph.D.,MISTE, MIE(I), MSSI

Specialisation:Power System

E-Mail: narendrakumar@dce.ac.in

Publications:

  • Narendra Kumar, “Combined Reactive Power and Frequency SVS Auxiliary Controller for Transient Performance Enhancement of Power System”. Proc. of All India Seminar on Power and Energy for Sustainable Growth, Feb. 20-21, 2003, CRSCE, Murthal, Sonepat, pp 82-89.
  • Narendra Kumar, Ved Pal, Suchi Gupta, “Application of Static Var system for Enhancing Steady State Vol.tage Stability of Power System”, Proc. of All India Seminar on Power and Energy for Sustainable Growth, Feb. 20-21, 2003, CRSCE, Murthal, Sonepat, pp 96-101.
  • Narendra Kumar,P. R. Sharma, et. al., “Optimal Location of Induction Machine Damping Unit in Combination with SVS for Damping Torsional Modes in a Series Compensated Power System”, Proc. of All India Seminar on Power and Energy for Sustainable Growth, Feb. 20-21, 2003, CRSCE, Murthal, Sonepat, pp 136-143.
  • Narendra Kumar, “Induction Machine Damping Unit in Combination with C.R.P.F. SVS Auxiliary Controller for Damping Torsional Modes in a Series Compensated Power System”. Proc. of All India Seminar on Power and Energy for Sustainable Growth, Feb. 20-21, 2003, CRSCE, Murthal, Sonepat, pp113-120.
  • Series Compensated Power System”. Proc. of All India Seminar on Power and Energy for Sustainable Growth, Feb. 20-21, 2003, CRSCE, Murthal, Sonepat, pp113-120.
  • S.K.Gupta, Narendra Kumar, A.K. Gupta, P.R. Sharma, “SSR Problem and FACTS Technology,” Proc. of All India Seminar on Power and Energy for Sustainable Growth, Feb. 20-21, 2003, CRSCE, Murthal, Sonepat, pp 150-156.
  • Narendra Kumar, PR Sharma, “Sub synchronous Resonance Damping using CRPF SVS auxiliary Controller in a Series compensated Power System” Proc. of All India Jamia Electrical Engineering Conference –2003, paper no.VII- 5.
  • Narendra Kumar, Ashok Kumar, P.R.Sharma, “A New Scheme for Damping Sub synchronous Resonance in Series Compensated Power System”, accepted for presentation an publication, Proc. of National System Conference- 2003, IIT Kharagpur, Dec. 17-19, 2003.
  • Narendra Kumar, Ashok Kumar, P.R. Sharma, “Comparative Performance Analysis of SVS Auxiliary Controllers for Dynamic Stability Enhancement of Seires Compensated Power system”, accepted for Publication and presentation during, National Conference on Automation in Electrical Power Distribution System, Delhi College of Engineering, Delhi, Jan. 8-9, 2004, pp109-119.
  • Narendra Kumar, Ashok Kumar, P.R. Sharma, “Combined Reactive power and Derived Machine Frequency SVS Auxiliary Controller for Damping Power System Oscillations”, accepted for Publication and presentation during, National Conference on Automation in Electrical Power Distribution System, Delhi College of Engineering, Delhi, Jan. 8-9,2004, pp 137-147.
  • Narendra Kumar, Ashok Kumar, P.R. Sharma, “Determination of Optimal Amount and location of series compensation and SVS for an AC transmission System”, in Journal of Institutions of Engrs (India) Vol.. 83, March. 2003, pp 283-288.
  • S.K Gupta, N. Kumar, A.K Gupta, “Double order Auxiliary controller for Enhancing the Dynamic Performance of Power Systems” Journal of Institutions of Engrs (India) Vol.. 84, Sept. 2003, pp 71-78.
  • Narendra Kumar, P.R. Sharma, “Development of a New Scheme for Damping Torsional Modes in a series Compensated Power system”, accepted for publication in Journal of Institution of Engineers (India) Calcutta.
  • Narendra Kumar and P.R. Sharma, “Damping Power System Oscillations using CSC in coordination with auxiliary controllers”, in Proc. Of National System Conference, 2005, Vellore.
  • S.K. Gupta, Narendra Kumar, A.K. Gupta, “Double order Reactive Power and Voltage Input Signal SVS Auxiliary Controller for Suppressing the Subsynchronous Resonance in Power System,” communicated to the International Journal of Electrical Power and Energy Systems.
  • Narendra Kumar, P.R. Sharma, “Torsional Oscillations Damping in a Series Compensated Power system,” communicated to International Journal of Electrical Power and Energy System, Australia.