Experimental Investigations on Loading Capacity and Reactive Power Compensation of Star Configured Three Phase Self Excited Induction Generator for Distribution Power Generation

  • V. B. Murali Krishna Dept. of Electrical Engineering, Central University of Karnataka, Kadaganchi, Karnataka, India
  • V. Sandeep Dept. of Electrical Engineering, National Institute of Technology (NIT), Andhra Pradesh, India
Keywords: Self excited induction generator (SEIG), minimum excitation capacitance, reactive power (VAR) compensation, distributed power generation, voltage regulation

Abstract

Self excited induction generator (SEIG) is gaining popularity for off-grid power generation due to the inherent advantages. This paper presents a primary experimental investigative study on the performance of three-phase star configured SEIG (Y-SEIG). The aim of the experimental work is to identify a simple and cost-effective scheme of self-excitation and reactive power (VAR) compensation among the six possible operational configurations. From the investigated results, it is found that the capacitor excitation and VAR compensation in the delta connection scheme give the better performance. Experimental test procedure and obtained values of steady state analysis of SEIG for calculation of minimum excitation capacitance are also highlighted in this paper.

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Author Biographies

V. B. Murali Krishna, Dept. of Electrical Engineering, Central University of Karnataka, Kadaganchi, Karnataka, India

V. B. Murali Krishna received M. Tech degree in power electronics and drives from Vignan’s University, Guntur and Ph.D in electrical engineering from Central University of Karnataka, Kalaburagi (Gulbarga). His research areas include renewable energy technologies, distribution generation systems, micro grids, electric generators, electric vehicles, system optimization, power electronics and drives. He has been serving as a reviewer for some reputed journals.

V. Sandeep, Dept. of Electrical Engineering, National Institute of Technology (NIT), Andhra Pradesh, India

V. Sandeep (Senior Member, IEEE) received M.Tech degree in power electronics and drives from VIT University in 2009 and Ph.D in electrical engineering from Indian Institute of Technology Delhiin 2013. He worked at Central University of Karnataka, Gulbarga from Nov 2013 to Nov 2019. He is currently working as a Assistant Professor and Head of Electrical Engineering Department, National Institute of Technology, Andhra Pradesh. He is acting as Associate Dean – Industry Outreach and International Affairs, NIT Andhra Pradesh and Chair of PELS-IAS-PES Joint Chapter, IEEE Vizag Bay Section. He received many notable awards “Gandhian Young Technological Innovation Award 2013”, selected as amongst the top 24 innovators across the country by Economic Times NOW and Times NOW in 2013, “Corporate Finalist” at the 3M-CII Innovation Challenge 2014, selected in Top 10 Innovative Projects Award 2014 at Doctoral Level by Indian National Academy of Engineering (INAE), selected as finalist of IITD Class of 89 Innovation Award – 2012, Silver Medal for Best Research Paper by Indian Railway Board and IE India in 2017, Dr. APJ Abdul Kalam National Award 2017, listed in uLektz Wall of Fame with recognition as top 50 Expert Faculties in the field of Engineering across India 2019, Young Faculty Award in Electrical Engineering 2020 and IEEE India Council Outstanding Young Professional Award 2020. He is IEEE Brand Ambassador and IEEE Young Professional. His areas of interest include microgrids, smart grids, electric vehicles, artificial intelligence and machine learning applications in energy systems.

References

[Online]: Available: http://mnre.gov.in, browsed on 30. April. 2021.

[Online]: Available: https://www.hydropower.org/, browsed on 30. April. 2021.

Ujjwal Kumar Kalla, Kuldeep Singh Rathore, Nikhil Bhati, Dheeraj Kumar Palwalia, Bhim Singh, “Micro-hydro generator fed frequency adaptive sliding mode controlled air conditioning system for remote and hilly areas”, IET Reneable Power Generation, vol. 15, pp. 1498–1514, March 2021.

Vishnu Dhinakaran, K. Akash, Rakshaa Viswanathan, S. Arul Daniel and A. Rakesh Kumar “Design of a Low Voltage DC Mini-grid for Isolated Healthcare Centres” Distributed Generation & Alternative Energy Journal, Vol. 37, Issue 2, pp. 255–280 2022.

R. M. Elavarasan, G.M. Shafiullah, Sanjeevikumar Padmanaban, Nallapaneni Manoj Kumar, Annapurna Annam, Ajayragavan Manavalanagar Vetrichelvan, Lucian Mihet-Popa, Jens Bo Holm-Nielsen “A Comprehensive Review on Renewable Energy Development, Challenges, and Policies of Leading Indian States With an International Perspective,” IEEE Access, vol. 8, pp. 74432–74457, April 2020.

Hong-Mei Zhou, Yan Chen andQi-Jie Jiang “Optimal Combination Control Technology of Demand Side Resources of Distributed Renewable Energy Power Generation” Distributed Generation & Alternative Energy Journal, Vol. 36, Issue 3, pp. 219–238, 2021.

U. K. Kalla, P. Kumar, K. L. Agarwal, S. Singh and S. Kumar, “A State of Art and Comprehensive Study of Renewable Energy Systems Based on Three-Phase Self Excited Induction Generator Feeding SinglePhase Loads,” 2021 International Conference on Sustainable Energy and Future Electric Transportation (SEFET), 2021, pp. 1–6.

M. Rezkallah, A. Chandra, B. Singh and S. Singh, “Microgrid: Configurations, Control and Applications,” IEEE Transactions on Smart Grid, vol. 10, no. 2, pp. 1290–1302, March 2019.

Bala Murali Krishna. V and Sandeep. V, “Identification of the best topology of delta configured three phase induction generator for distributed generation through experimental investigations” International Journal of Emerging Electric Power Systems, vol. 22, no. 3, 2021, pp. 1–13. https://doi.org/10.1515/ijeeps-2021-0064.

V. B. Murali Krishna, and V. Sandeep, “Design and Simulation of Current Sensor based Electronic Load Controller for Small Scale Three Phase Self Excited Induction Generator System”, International Journal of Renewable Energy Research, Vol. 10, No. 4, pp. 1638–1644.

V. B. Murali Krishna, V. Sandeep, “Experimental Study on Different Modes of Self Excited Induction Generator Operation,” IEEE 2020 PhD Colloquium on Ethically Driven Innovation and Technology for Society (PhD EDITS 2020), Bangalore, 8–8 November 2020.

Krishna B.V.M., Sandeep V. (2021) An Analytical Study on Electric Generators and Load Control Schemes for Small Hydro Isolated Systems. In: Vadhera S., Umre B.S., Kalam A. (eds) Latest Trends in Renewable Energy Technologies. Lecture Notes in Electrical Engineering, vol. 760. Springer, Singapore. https://doi.org/10.1007/978-981-16-1186-5_9

D. P. Pathak and D. k. Khatod, “Off-Grid Integrated Renewable Energy System Scheduling for an un-electrified remote area,” 2018 IEEE 8th Power India International Conference (PIICON), Kurukshetra, Dec. 2018, pp. 1–5.

D. P. Pathak and D. Khatod, “Optimum utilization of Alternative sources of energy for an un-electrified remote area,” IEEE India Council International Conference (INDICON), Roorkee Dec. 2017, pp. 1–6.

Sreenivas S. Murthy, “Renewable energy generators and control,” ch. 12, Electric Renewable Energy Systems, Academic Press, pp. 238–289, 2016.

B. S. Pali and S. Vadhera, “Renewable energy systems for generating electric power: A review,” 2016 IEEE 1st International Conference on Power Electronics, Intelligent Control and Energy Systems (ICPEICES), New Delhi, 4–6 July 2016, pp. 1–6.

A. Chauhan and R. P. Saini, “Renewable energy based power generation for stand-alone applications: A review,” International Conf. on Energy Efficient Technologies for Sustainability, Nagercoil, 10–12 April 2013, pp. 424–428.

Punnet K. Goel, Bhim Singh, S. S. Murthy and Naveen Kishore, “Isolated Wind–Hydro Hybrid System Using Cage Generators and Battery Storage,” IEEE Trans. on Industrial Electronics, vol. 58, no. 4, pp. 1141–1153, April 2011.

V. B. M. Krishna, J. Jithendranath, A. S. H. Babu and C. U. M. Rao, “An isolated wind hydro hybrid system with two back-to-back power converters and a battery energy storage system using neural network compensator,” International Conf. on Circuits, Power and Computing Technologies [ICCPCT-2014], Nagercoil, 20–21 March 2014, pp. 273–279.

Bhim Singh, “Induction generator – a perspective,” Electric Machines and Power Systems, vol. 23, no. 2, pp. 163–177, 1995.

Dan Levy, “Stand alaone induction generators”, Electric Power Research, vol. 41, pp. 191–201, 1997.

R. C. Bansal, T. S. Bhatti, D. P. Kothari, “Bibliography on the application of induction generators in nonconventional energy systems,” IEEE Trans. on Energy Conversion, vol. 18, no. 3, pp. 433–439, Sept. 2003.

R. C. Bansal, T. S. Bhatti, D. P. Kothari, “Induction generator for isolated hybrid power system applications: A review,” Institution of Engineers (India), vol. 83, pp. 262–269, March 2003.

G. K. Singh, “Self-excited induction generator research- a survey,” Electric Power Research, vol. 69, pp. 107–114, 2003.

Dzhendubaev, A. R., Chernykh, I.V, “Self-excitation of autonomous generators: 1. Theoretical aspects,”. Russ. Electr. Engin. vol. 88, pp. 767–771, Jan. 2017.

S. S. Murthy, O. P. Malik, A. K. Tandon, “Analysis of self-excited induction generators,” IEE Proc., vol. 129, no. 6, pp. 260–265, Nov. 1982.

N. H. Malik and S.E. Haque “Steady state analysis and performance of an isolated self excited induction generator” IEEE Trans. on Energy Conversion, vol. EC-1, no. 3, pp. 134–139, Sep. 1986.

S. S. Murthy, B. P. Singh, C. Nagamani and K. V. V Satyanarayana “Studies on the use of conventional induction motors as self-excited induction generator”, IEEE Trans. on Energy Conversion, vol. 135, no. 4, pp. 842–848, Dec. 1988.

T. F. Chan, “Steady state analysis of self-excited induction generators,” IEEE Trans. on Energy Conversion, Vol. 9, no. 2, pp. 288–296, June 1994.

L. Shridhar, “Investigations on induction generator for improved performance,” Ph. D. Thesis Dept. of Electrical Engineering, IIT Delhi, India, 1994.

L. Wang, C. H. Lee CH, “A novel analysis on the performance of an isolated self-excited induction generator,” IEEE Trans. on Energy Conversion, vol. 12, no. 2, pp. 109–114, June 1997.

S. P. Singh, M. P. Jain and Bhim Singh, “A new technique for the analysis of self-excited induction generator,” Electric Machines and Power Systems, vol. 23, no. 3, pp. 647–656, 1995.

S. M. Alghuwainem, “Steady-state analysis of an isolated self-excited induction generator supplying an induction motor load,” in Proc. IEEE International Electric Machines and Drives Conf. (IEMDC’99), Seattle, USA, May 1999, pp. 351–353.

S.S. Mutthy, B. Singh, S. Gupta and B.M. Gulati, “General steady-state analysis of three-phase selfexcited induction generator feeding three-phase unbalanced load/single-phase load for stand-alone applications”, IEE Proc. Gen. Trans. Distrib. vol. 150, no. 1, Jan. 2003.

Haque M. H., “Comparison of steady state characteristics of shunt, short-shunt and long-shunt induction generators,” Electric Power Systems Research, vol. 79, no. 10, pp. 1446–1453, 2009.

M. M. Khalaf and A. M. Ali, “Voltage Build-Up Behavior of Self-Excited Induction Generator Under Different Loading Conditions,” 2020 International Conference on Advanced Science and Engineering (ICOASE), 2020, pp. 190–194.

C. P. Ion, “A Comprehensive Overview of Single–Phase Self-Excited Induction Generators,” IEEE Access, vol. 8, pp. 197420–197430, 2020.

E. O. Silva, W. E. Vanço and G. C. Guimarães, “Capacitor Bank Sizing for Squirrel Cage Induction Generators Operating in Distributed Systems,” IEEE Access, vol. 8, pp. 27507–27515, 2020.

E. O. Silva, W. E. Vanço and G. C. Guimarães, “Capacitor Bank Sizing for Squirrel Cage Induction Generators Operating in Distributed Systems,” IEEE Access, vol. 8, pp. 27507–27515.

Bhim Singh and Shilpakar, “Analysis of a novel solid state voltage regulator for a self-excited cage induction generator,” IEE Proc. – Gener. Transm. Distrib., vol. 145, no. 6, pp. 647–655, Nov. 1998.

Bhim Singh, Gaurav Kumar Kasal, Ambarish Chandra and Kamal-Al-Haddad, “An independent active and reactive power control of an isolated asynchronous generator in 3-phase 4-wire applications,” IEEE Power Electronics Specialists Conf., Rhodes, 15–19 June 2008, pp. 2057–2063.

Bhim Singh, S. S. Murthy and S. Gupta, “Transient analysis of self-excited induction Generator with electronic load controller (ELC) supplying static and dynamic loads,” IEEE Trans. on Industry Applications, vol. 41, no. 5, pp. 1194–1204, Sept.–Oct. 2005.

Bhim Singh and Gaurav Kumar Kasal, “Independent voltage and frequency controller for a parallel operated isolated three-phase asynchronous generators,” Euro. Trans. Electr. Power, vol. 19, pp. 839–853, 2009.

B. Singh, V. Rajagopal, “Power balance theory-based control of an electronic load controller for an isolated asynchronous generator driven by uncontrolled pico hydro turbine,” Annual IEEE India Conference (INDICON), Gandhinagar, 18–20 Dec. 2009, pp. 1–5.

U. K. Kalla, B. Singh and S. S. Murthy, “Modified Electronic Load Controller for Constant Frequency Operation With Voltage Regulation of Small Hydro-Driven Single-Phase SEIG,” IEEE Trans. on Industry Applications, vol. 52, no. 4, pp. 2789–2800, July–Aug. 2016.

R. Raja Singh, B. Anil Kumar, D. Shruthi, and C. Thanga Raj, “Review and experimental illustration of electronic load controller used in standalone Micro-Hydro generating plants,” Engineering Science and Technology, an International Journal, vol. 21, no. 5, pp. 886–900, Oct. 2018.

Guillermo Martínez-Lucas, Jose Ignacio Sarasua and Jose Angel Sanchez-Fernandez, “Frequency Regulation of a Hybrid Wind–Hydro Power Plant in an Isolated Power System,” Energies, vol. 11, no. 239, pp. 1–25, Jan. 2018.

Fernando B. Silva, Felipe A. da Silva Goncalves, Wagner E. Vanço, Daniel P.de Carvalho, Carlos A. Bissochi Jr, Raul V. A. Monteiro, Geraldo C. Guimarães, “Application of bidirectional switches in the development of a voltage regulator for self-excited induction generators,” International Journal of Electrical Power & Energy Systems, vol. 98, pp. 419–429, June 2018.

V. B. Murali Krishna, Dr. V. Sandeep and Ruparani, “Design and Simulation of Voltage Sensor-based Electronic Load Balance Controller for SEIG based Isolated Load Applications”, Journal of Advanced Research in Dynamical and Control Systems, vol. 12, Issue 3, pp. 345–352, March 2020.

G. Dyanamina and S. K. Kakodia, “SEIG voltage regulation with STATCOM Regulator using Fuzzy logic controller,” 2021 International Conference on Sustainable Energy and Future Electric Transportation (SEFET), 2021, pp. 1–6.

Published
2022-02-22
Section
SPECIAL ISSUE: Energy Access & Off-Grid Systems for Residential Microgrids/Nanog