National Institute of Technology Rourkela

राष्ट्रीय प्रौद्योगिकी संस्थान राउरकेला

ଜାତୀୟ ପ୍ରଯୁକ୍ତି ପ୍ରତିଷ୍ଠାନ ରାଉରକେଲା

An Institute of National Importance

Faculty Profile

ORCID ID
Scopus ID
Researcher ID
Google Scholar ID

BIOGRAPHY

Prof. S. Gopalakrishna received a Bachelor’s degree in Electrical and Electronics Engineering (EEE) from the JNTU College of Engineering, Kakinada, India, a Master’s degree in Power Systems from the National Institute of Technology, Jamshedpur, India, and a Ph.D. degree from the Department of Electrical Engineering, IIT Madras, India. He joined the Department of Electrical Engineering, National Institute of Technology, Rourkela, India, in 2011, where he is currently working as an Associate Professor. His current research interests include Power Quality, Electrical drives, Measurements, and Instrumentation. Three Ph.D. students graduated under him, and he published in renowned journals like IEEE Sensors and IET Power Electronics.

EXPERTISE INFORMATION

Research Group
  • Power Systems
Areas of Interest
  • Power System Instrumentation
  • Power Quality

Gopalakrishna Srungavarapu Associate Professor

Electrical Engineering

srungavarapug@nitrkl.ac.in

0661 - 246 2409

Biosketch

36

PUBLICATIONS

2

SPONSORED PROJECTS

7

DOCTORAL STUDENTS

2

CONTINUING EDUCATION

PERSONAL INFORMATION

Gopalakrishna Srungavarapu

Associate Professor

Electrical Engineering

Room Number: EE-127

Department of Electrical Engineering, National Institute of Technology Rourkela, Sundargarh, Odisha, India - 769008

2011

Ph.D.
Power System Instrumentation
IIT Madras

2002

M.Tech
Power Systems
NIT Jamshedpur

1998

B.Tech
Electrical and Electronics Engineering
JNTU Kakinada

Teaching Experience
  • Electrical Machines, Machine Analysis, Instrumentation and Sensors,  NIT Rourkela,   08 Aug 2011 - Present

Design and development of a low cost and efficient standalone photovoltaic system with three port convertor DST
  • Co-Investigator
  • 36
  • Completed   Sponsored
Design & Development of a bidirectional DC-DC Converter with power & Energy Management of Battery and Ultra capacitor for an Electric Bike with regenerative Braking DST
  • Co-Investigator
  • 36
  • Completed   Sponsored

0
GOOGLE SCHOLAR H-INDEX 0
GOOGLE SCHOLAR I10-INDEX 0
SCOPUS H-INDEX
Total Publications: 36
View All Publications

M. Balaji, M. Pattnaik, and G. Srungavarapu,"A single current sensor based adaptive step size MPPT control of a small scale variable speed wind energy conversion system", Applied Energy, vol.357, no.122492, pp.1-12, ELSEVIER 2024, doi.org/10.1016/j.apenergy.2023.122492       Article

M. Balaji, M. Pattnaik, and G. Srungavarapu,"Modified MPPT Control of a PMSG-based Standalone Wind Energy Conversion System using Single Voltage Sensor", in 2023 7th International Conference on Computer Applications in Electrical Engineering-Recent Advances (CERA), pp.1-6, IEEE, March 2024, https://doi.org/10.1109/CERA59325.2023.10455321       Inproceedings

A. Rath, G. Srungavarapu, and M. Pattnaik,"Improved Sensorless DPC With Constant Switching Frequency for Non-Ideal Grid", IEEE Transactions on Consumer Electronics, vol.early access, pp.1-10, IEEE, June 2024, http://doi:10.1109/TCE.2024.3412233       Article

M. Balaji, M. Pattnaik, and G. Srungavarapu,"Modeling and MPPT Control of a PMSG-Based Wind Turbine System", Advanced Power Electronics Converters for Future Renewable Energy Systems, ch.6, pp.1-20, CRC PRESS, Taylor & Francis Group 2023       Inbook

M. Balaji, M. Pattnaik, and G. Srungavarapu,"Design, analysis, and adaptive maximum power point tracking control of small-scale wind turbine system", International Journal of Circuit Theory and Applications, vol.51, no.7, pp.3316-3330, Wiley, March 2023, https://doi.org/10.1002/cta.3593       Article

Condition Assessment of Power System Equipment (CAPSE-2023) Electrical Engineering (Short-term Course)
Power Electronics Design and MPPT Algorithm for PV Based System Electrical Engineering (Short-term Course)

  • EA1270 : Value Education and Ethics {Theory}
  • EE2001 : Electrical Machines - I {Theory}
  • EE240 : Measurement and Instrumentation {Theory}
  • EE301 : Electrical Machines – II {Theory}
  • EE301 : Electrical Machines II {Theory}
  • EE312 : Switch Gear and Protective Devices {Theory}
  • EE336 : Advanced Instrumentation {Theory}
  • EE407 : Electric Drives {Theory}
  • EE610 : Power quality in Power Distribution Systems {Theory}
  • EE611 : Machine Analysis {Theory}
  • EE6156 : Instrumentation and Sensors {Theory}
  • EE6244 : Power Quality in Power Distribution Systems {Theory}
  • EE6401 : Machine Analysis {Theory}
  • EE668 : Instrumentation and Sensors {Theory}
  • EE734 : Super Conducting Magnets and Devices {Theory}
  • EE270 : Electrical Engineering Laboratory {Practical}
  • EE2703 : Electrical Measurement and Instrumentation Laboratory {Practical}
  • EE271 : Network Laboratory {Practical}
  • EE272 : Measurement Laboratory {Practical}
  • EE3701 : Electrical Machine Laboratory - II {Practical}
  • EE3706 : Electrical Machine Design {Practical}
  • EE371 : Electrical Machines Laboratory – II {Practical}
  • EE472 : Power Systems Design Laboratory {Practical}
  • EE670 : Instrumentation Laboratory {Practical}
  • EE673 : Simulation and Computing Laboratory {Practical}
  • EE770 : Instrumentation and Control Laboratory {Practical}
  • EE779 : Instrumentation Laboratory {Practical}
  • EE789 : Product Development Laboratory {Practical}

Ph.D. Students [7]
Development and Power Quality Investigations of Various Direct Power Control Techniques for Three Phase Active Front End Rectifier
Amit Kumar
Enrolled: Oct 2012
Graduated :  2018
Supervisor
Control & Energy Management of Battery/Ultracapacitor Based Hybrid Energy Storage System
Mahendra Chandra Joshi
Enrolled: Jul 2013
Graduated :  2019
Co-Supervisor
Novel Coreless Current Sensing Systems - Design, Development and Evaluation
Noby George
Enrolled: Jul 2014
Graduated :  2019
Supervisor
Low Complexity Direct Power Control Methods for Active Front-end Rectifier and Applications
Abinash Rath
Enrolled: Jan 2018
Graduated :  2023
Supervisor
Development of Efficient MPPT Techniques for a Small-Scale Standalone PMSG based Wind Energy Conversion System with Energy Storage Integration
Mendi Balaji
Enrolled: Jul 2018
Thesis Submitted
Co-Supervisor
control and power electronics
Chamarthi Sivarama Raju
Enrolled: Jul 2016
Continuing
Co-Supervisor
Power System Instrumentation
Mallela Veeranjaneyulu
Enrolled: Sep 2020
Continuing
Supervisor
M.Tech by Research Students [1]
HYBRID ELECTRIC VEHICLES
Amrit Anand Mahapatra
Graduated :  2014
Supervisor