Sambalpur University Institute of Information Technology

Dr. Ambarish Panda

Assistant Professor

Dr. Ambarish Panda holds a Bachelor of Engineering in Electrical Engineering and Master of Technology in Power System Engineering from Sambalpur University and V.S.S University of Technology. He completed his Ph.D in Electrical Engineering from V.S.S University of Technology since April, 2016. He has more than 14 years of teaching and research experience in different Engineering colleges and Universities. He served various administrative positions like H.O.D, FIC students council, FIC Disciplinary Committee, FIC Anti ragging committee, member Academic Council etc. To his credit, he has published multiple research articles in SCI/SCIE indexed journals with high repute.

EDUCATION

  • Veer Surendra Sai University of Technology (VSSUT), Burla
    • Ph.D (Electrical Engineering)
  • Veer Surendra Sai University of Technology (VSSUT), Burla
    • M.Tech (Power System Engineering)
  • Sambalpur University, JyotiVihar, Burla
    • B.Tech (Electrical Engineering)

ACHIVEMENTS

  • Awarded as Institute Best Engineering Graduate of 2002-06 Batch

PROFESSIONAL EXPERIENCE

  • Teaching
    • 4yrs in PKA College of Engineering, Bargarh.
    • 4yrs in Silicon Institute of Technology, Sambalpur.
    • 7yrs in SUIIT, Jyoti Vihar, Burla
  • Research: 11yrs
  • Area of Specialization :
    • Power System Operation and Scheduling
    • Optimal Power Flow Solutions
    • Application of intelligent techniques to operation of Hybrid Power System
  • Professional Membership: LMISTE, MIE
  • Subjects Taught: Power System Operation and Control, Renewable Energy Systems, Control System Engineering, Power System Protection, Electrical Machines, Network Theory, Basic Electrical Engineering
  • Guidance
    • B.Tech: 85
    • M.Tech/MCA/MSc/M.Phil: 01
    • Ph.D: Awarded(00), Submitted (00), Continuing(02)
    • Training/Workshop/FDP: 18

RESEARCH

RESEARCH ID:

JOURNAL PUBLICATIONS

2023

Pattnaik, Ashribad; Dauda, Alpesh Kumar; Padhee, Subhransu; Panda, Sarmistha; Panda, Ambarish

Security constrained optimal power flow solution of hybrid storage integrated cleaner power systems (Journal Article)

In: Applied Thermal Engineering, vol. 232, pp. 121058, 2023.

(Links | BibTeX | Tags: )

Dauda, Alpesh Kumar; Panda, Ambarish; Mishra, Umakanta

Synergistic effect of complementary cleaner energy sources on controllable emission from hybrid power systems in optimal power flow framework (Journal Article)

In: Journal of Cleaner Production, vol. 419, pp. 138290, 2023.

(Links | BibTeX | Tags: )

Panda, Ambarish; Mishra, Umakanta

An environmental optimal power flow framework of hybrid power systems with pumped hydro storage (Journal Article)

In: Journal of Cleaner Production, vol. 391, pp. 136087, 2023.

(Links | BibTeX | Tags: )

Panda, Ambarish; Dauda, Alpesh Kumar; Chua, Howayne; Tan, Raymond R.; Aviso, Kathleen B.

Recent advances in the integration of renewable energy sources and storage facilities with hybrid power systems (Journal Article)

In: Cleaner Engineering and Technology, vol. 12, pp. 100598, 2023.

(Links | BibTeX | Tags: )

Pattnaik, Ashribad; Dauda, Alpesh Kumar; Panda, Ambarish

Optimal utilization of clean energy and its impact on hybrid power systems incorporating STATCOM and pumped hydro storage (Journal Article)

In: Renewable and Sustainable Energy Reviews, vol. 187, pp. 113713, 2023.

(BibTeX | Tags: )

2022

Dauda, Alpesh Kumar; Panda, Ambarish

Impact of Small Scale Storage and Intelligent Scheduling Strategy on Cost Effective and Voltage Secure Operation of Wind$mathplus$PV$mathplus$Thermal Hybrid System (Journal Article)

In: Advanced Theory and Simulations, vol. 6, no. 1, 2022.

(Links | BibTeX | Tags: )

2021

Panda, Ambarish; Aviso, Kathleen B; Mishra, Umakanta; Nanda, Ipseeta

Impact of optimal power generation scheduling for operating cleaner hybrid power systems with energy storage (Journal Article)

In: International Journal of Energy Research, 2021.

(BibTeX | Tags: )

2020

Panda, Ambarish; Mishra, Umakanta; Tseng, Ming-Lang; Ali, Mohd Helmi

Hybrid power systems with emission minimization: Multi-objective optimal operation (Journal Article)

In: Journal of Cleaner Production, vol. 268, pp. 121418, 2020.

(BibTeX | Tags: )

Panda, Ambarish; Mishra, Umakanta; Aviso, Kathleen B

Optimizing hybrid power systems with compressed air energy storage (Journal Article)

In: Energy, vol. 205, pp. 117962, 2020.

(BibTeX | Tags: )

2018

Panda, Ambarish; Barpanda, NK

Optimal generation scheduling of wind integrated power system using Bacteria Foraging Algorithm (Journal Article)

In: 2018.

(BibTeX | Tags: )

Panda, Ambarish

A Computational Framework for Wind Power Integration in Stochastic Optimal Power Flow Analysis (Journal Article)

In: vol. 22, pp. 18-204, 2018.

(BibTeX | Tags: )

Panda, Ambarish

Automatic generation control of two area power system using modified bacteria foraging algorithm (Journal Article)

In: Int J Emerg Technol Eng Res, vol. 6, no. 3, pp. 27–30, 2018.

(BibTeX | Tags: )

2017

Panda, Ambarish; Tripathy, M.; Barisal, A. K.; Prakash, T.

A modified bacteria foraging based optimal power flow framework for Hydro-Thermal-Wind generation system in the presence of STATCOM (Journal Article)

In: Energy, vol. 124, pp. 720–740, 2017.

(Links | BibTeX | Tags: )

Panda, Ambarish; Tripathy, M; Barisal, AK; Prakash, T

A modified bacteria foraging based optimal power flow framework for Hydro-Thermal-Wind generation system in the presence of STATCOM (Journal Article)

In: Energy, vol. 124, pp. 720–740, 2017.

(BibTeX | Tags: )

2016

Panda, Ambarish; Tripathy, Manish

Solution of wind integrated thermal generation system for environmental optimal power flow using hybrid algorithm (Journal Article)

In: Journal of Electrical Systems and Information Technology, vol. 3, no. 2, pp. 151–160, 2016.

(BibTeX | Tags: )

2015

Panda, Ambarish; Tripathy, M

Security constrained optimal power flow solution of wind-thermal generation system using modified bacteria foraging algorithm (Journal Article)

In: Energy, vol. 93, pp. 816–827, 2015.

(BibTeX | Tags: )

2014

Panda, Ambarish; Tripathy, M

Optimal power flow solution of wind integrated power system using modified bacteria foraging algorithm (Journal Article)

In: International Journal of Electrical Power & Energy Systems, vol. 54, pp. 306–314, 2014.

(BibTeX | Tags: )

0000

Dauda, Alpesh Kumar; Panda, Ambarish; Mishra, Umakanta

Synergistic effect of complementary cleaner energy sources on controllable emission from hybrid power systems in optimal power flow framework (Journal Article)

In: Journal of Cleaner Production, vol. 419, 0000, ISSN: 0959-6526.

(Links | BibTeX | Tags: Building and Construction, General Environmental Science, Industrial and Manufacturing Engineering, Renewable Energy, Strategy and Management, Sustainability and the Environment)

Pattnaik, Ashribad; Dauda, Alpesh Kumar; Padhee, Subhransu; Panda, Sarmistha; Panda, Ambarish

Security constrained optimal power flow solution of hybrid storage integrated cleaner power systems (Journal Article)

In: Applied Thermal Engineering, vol. 232, 0000, ISSN: 1359-4311.

(Links | BibTeX | Tags: Energy Engineering and Power Technology, Fluid Flow and Transfer Processes, Industrial and Manufacturing Engineering, Mechanical Engineering)

Panda, Ambarish; Dauda, Alpesh Kumar; Chua, Howayne; Tan, Raymond R.; Aviso, Kathleen B.

Recent advances in the integration of renewable energy sources and storage facilities with hybrid power systems (Journal Article)

In: Cleaner Engineering and Technology, vol. 12, 0000, ISSN: 2666-7908.

(Links | BibTeX | Tags: Engineering (miscellaneous), Environmental Engineering)

Panda, Ambarish; Mishra, Umakanta

An environmental optimal power flow framework of hybrid power systems with pumped hydro storage (Journal Article)

In: Journal of Cleaner Production, vol. 391, 0000, ISSN: 0959-6526.

(Links | BibTeX | Tags: Building and Construction, General Environmental Science, Industrial and Manufacturing Engineering, Renewable Energy, Strategy and Management, Sustainability and the Environment)

Pattnaik, Ashribad; Dauda, Alpesh Kumar; Padhee, Subhransu; Panda, Sarmistha; Panda, Ambarish

Security constrained optimal power flow solution of hybrid storage integrated cleaner power systems (Journal Article)

In: Applied Thermal Engineering, vol. 232, 0000, ISSN: 1359-4311.

(Links | BibTeX | Tags: Energy Engineering and Power Technology, Fluid Flow and Transfer Processes, Industrial and Manufacturing Engineering, Mechanical Engineering)

Panda, Ambarish; Dauda, Alpesh Kumar; Chua, Howayne; Tan, Raymond R.; Aviso, Kathleen B.

Recent advances in the integration of renewable energy sources and storage facilities with hybrid power systems (Journal Article)

In: Cleaner Engineering and Technology, vol. 12, 0000, ISSN: 2666-7908.

(Links | BibTeX | Tags: Engineering (miscellaneous), Environmental Engineering)

Panda, Ambarish; Mishra, Umakanta

An environmental optimal power flow framework of hybrid power systems with pumped hydro storage (Journal Article)

In: Journal of Cleaner Production, vol. 391, 0000, ISSN: 0959-6526.

(Links | BibTeX | Tags: Building and Construction, General Environmental Science, Industrial and Manufacturing Engineering, Renewable Energy, Strategy and Management, Sustainability and the Environment)

INTERNATIONAL CONFERENCE PUBLICATIONS

1 Panda, A. (2014). Cost-effective operation of hybrid power system using intelligent techniques’ International Conference on Emerging trends in science and Technologies (pp. 468-474), MP, India.
2 Panda, A.,& Barpanda, N.K.(2017). Optimal generation scheduling of wind  integrated power system using Bacteria Foraging Algorithm. International Conference on Advance studies in Engineering and sciences, ICASES (pp. 660-665), MP, India.
3 Panda, A. (2018). Analysis of reactive power support on performance of Grid integrated wind energy conversion system. 1st International Conference on Nexgen Technologies (pp. 289-294),  TN, India
4 Panda, A. (2018). Multi-objective optimal power dispatch of power system incorporating wind power. 12th International Conference on Recent innovations in science and Engineering (pp. 390-396), AP, India.
5 Dauda, A.K.,& Panda, A.(2023). Application of intelligent scheduling to optimal power dispatch of wind Integrated power system. Second International Conference Engineering innovation, ICEI, Devanagare,GJ, India.

 NATIONAL CONFERENCES PUBLICATIONS:

1 Panda, A., Tripathy, M., & Barisal, A.K.  Wind thermal co-ordination dispatch in OPF environment using bacteria foraging algorithm, National conference on Recent advancement in modern power systems (RAMPS-2012) from 30th to 31st Dec 2012, VSSUT, Burla.
2 Panda, A., &Tripathy, M.  Effect of reactive power support on performance of wind farm during grid disturbances, National conference on Recent advancement and innovations in Electrical Engineering (RAIEE-2014) from 6th to7th April 2014 , VSSUT,

Burla.

3 Panda, A., &Tripathy, M.  Static voltage stability analysis of wind integrated power system in the presence of FACTS devices, National conference on Recent advancement in renewable energy sources and control (RAREC-2015) from 11th  to 12th Apr 2015. VSSUT, Burla.
4 Panda, A., Tripathy, M., & Barisal, A.K.   Optimal short term hydro-thermal scheduling using Gravitational Search Algorithm, National conference on Recent advancement in renewable energy sources and control (RAREC-2015) from 11th to12th Apr 2015. VSSUT, Burla.
5 Panda, A., Pandey, A., & Senapati, A.  Analysis of shunt compensation in a wind integrated power system using FACTS devices, National conference on green Technology Revolutions: Indias future energy prospects (NCGTR-2019) from 19th  to 20th Oct 2019. VSSUT, Burla.

BOOK CHAPTER:

1 Padhee, S., Mohanty, M., Panda, A. (Aug.2022). Design and Performance Analysis of Controlled DC-DC Converter. VLSI Architecture for Signal, Speech and Image processing. DOI: 10.1201/9781003277538-13
2 Mohanty, M.Panda, A.Prusty, S.B.Padhee, S. (2022). An overview of modelling and power management in microbial fuel cells. Microbial Fuel Cell: Electricity Generation and Environmental Remediation, 2022, pp. 109–141.
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