BibTex RIS Cite

Power Management Strategies In Microgrid:A Survey

Year 2015, Volume: 5 Issue: 2, 334 - 340, 01.06.2015

Chitra Natesan Senthil Kumar Ajithan Swathi Chozhavendhan Antiha Devendiran

Abstract

Since the potential benefits are resulting from the use of renewable energy sources,Microgrid and Distributed Generation(DG) are becoming a significant research area.Microgrid can generally be composed of renewable microsources placed close to the load centre.In order to have control over the real and reactive power of individual DG,Voltage-Frequency control,Power management strategy is required in microgrid.Hence the main motivation of this article is to make a comprehensive survey on challenges over power management in microgrid.Six different approaches are reviewed in detail for AC,DC and hybrid AC/DC microgrid.

Keywords

Microgrid; Distributed Generation; Power Management; Storage Devices; Multi agents

References

  • Alvaro
  • Jiménez,HaritzaCamblong,”
  • Unplanned islanding and related inverter control techniques”,Renewable energy 36,pp 2052-2061,2011. Jaime Survey
  • microgrids: [2] R. H. Lasseter, “Microgrids,” in Proc. Power Eng. Soc.Winter Meeting, vol. 1, pp. 305–308, 2002.
  • P. Piagi and R. H. Lasseter, “Microgrid: A conceptual solution,”in Proc. Power Electronics Specialists Conf., Jun. 2004, vol. 6, pp.4285–4290.
  • Michael Angelo Pedrasa, Ted Spooner,” A Survey of Techniques Used to Control Microgrid Generation and Storage during Island Operation”.
  • Wenbo Shi, Eun-Kyu Lee, Daoyuan Yao, Rui Huang, Chi- Cheng Chu, and RajitGadh,” Evaluating Microgrid Management and Control with an Implementable Energy Management System”, IEEE SmartGridComm, Venice, Italy, 3-6 Nov. 2014.
  • ChitraNatesan, SenthilkumarAjithan, Shobana Mani, and PrabaakaranKandhasamy,” Applicability of Droop Regulation Technique
  • Journal,Volume 18, Issue 3, July 2014. - A
  • Survey”,Engineering [7] F. Katiraei, M. R. Iravani, and P. W. Lehn, “Micro-grid autonomous operation during and subsequent to islanding process,” IEEE Trans.Power Del., vol. 20, no. 1, pp. 248–257, Jan. 2005. [8] Puladasuravi,
  • Optimal placement of DSTATCOM for voltage sag mitigation using an anfis based approach for power quality enhancement”, International Journal of Electrical, Electronics and Data Communication, , Volume-2, Issue-1, Jan.-2014.
  • E. Ozkop, A. M. Sharaf, I. H. Altas,” A Novel Control Algorithm for Self Adjusting Dynamic Voltage Stabilization Scheme”, ElektronikaIrElektrotechnika, , VOL. 20, NO. 3, 2014. [10] Mehdi
  • Jalilian,Joseph M.Guerrero,Tzung Lin Lee,” Selective compensation of voltage harmonics in grid-connected microgrids”,Else vier Mathematics and Computers in simulation,Vol 91,pp:211-228,May 2013.
  • M. Gupta, S. Srivastava, J.R.P. Gupta,” Online Tracking and Mitigation of Voltage Flicker Using Neural Network”, Journal of Control Engineering and Technology (JCET), Vol.2 No.1, PP.43-49,Jan 2012
  • Li YW, Vilathgamuwa DM, Loh PC ,”Design, analysis and real-time testing of controllers for multibusmicrogrid system”,IEEE Trans Power Electron 19(5):1195–1204,2004. [13] Hatziargyriou N, Asano H, Iravani R et al ,“Microgrids”,.IEEE Power Energ Mag 5(4),pp:78–94,2007.
  • Rosemarie Velik , Pascal Nicolay,” Grid-price- dependent energy management in microgrids using a modified simulated annealing triple-optimizer”,Applied Energy 130,pp: 384–395,2014.
  • Xuan Zhang, Jinjun Liu, and Ting Liu,” Virtual negatively resistive output impedance for power sharing among paralleled inverters in microgrid”, 8th International Conference on Power Electronics ,June 3, 2011..
  • Xianjun Zhan, Ratnesh Sharma, Yanyi He,” Optimal Energy Management of a Rural Microgrid System Using Multi-objective Optimization”, IEEE PES,pp:1-8,2012.
  • F. Katiraei, and m. R. Iravani, “power management strategies for a microgrid withmultiple distributed generation units”, IEEE transactions on power systems, vol. 21, no. 4, November 2006.
  • HristiyanKanchev, Di Lu, Frederic Colas, Vladimir Lazarov, and Bruno Francois,” Energy Management and Operational Planning of a Microgrid With a PV-Based Active Generator for Smart Grid Applications”, IEEE transactions on industrial electronics, vol. 58, no. 10, October 2011.
  • Dong Bo, Yongdong Li , and Zedong Zheng,” Energy Management of Hybrid DC and AC Bus Linked Microgrid”, IEEE International Symposium on Power Electronics for Distributed Generation Systems, pp:713-716,2010.
  • Chandorkar MC, Divan DM, Adapa R ,” Control of parallel connected inverters in standalone AC supply systems”. IEEE Trans IndAppl 29(1–1),pp:136–143,1993.
  • Guerrero JM, De Vicun˜a G, Matas J et al,” A wireless controller to enhance dynamic performance of parallel inverters in distributed generation systems”,IEEE Trans Power Electron19(5),pp:1205–1213,2004.
  • Hossam A. Gabbar, Abdelazeem A. Abdelsalam,” Microgrid energy management in grid-connected and islanding modes based on SVC”, Elsevier Energy Conversion and Management 86 pp:964–972.2014.
  • Ye Zhang, Hong JieJia, Li Guo,” Energy Management Strategy of Islanded Microgrid Based on Power Flow Control”, IEEE PES,2012.
  • GrzegorzIwanski, PawelStaniak, WlodzimierzKoczara,” Power Management in a DC Microgrid Supported by Energy Storage”, IEEE International Symposium,pp:347-352,2011.
  • HaihuaZhou,Tanmoy Bhattacharya, Duong Tran, Tuck Sing Terence Siew,and Ashwin M. Khambadkone,,” Composite Energy Storage System Involving Battery and Ultracapacitor With Dynamic Energy Management in Microgrid Applications”, IEEE transactions on power electronics, vol. 26, no. 3, March 2011.
  • Seung-Tak Kim and Jung-Wook Park,” Energy Management Strategy and Adaptive Control for SMES in Power System with a Photovoltaic Farm”, J ElectrEngTechnol Vol. 9, No. 4,pp: 1182-1187, 2014.
  • Konstantinos O. Oureilidis, Charis S. Demoulias,” Microgrid Wireless Energy Management with Energy Storage System”, IEEE International Conference,pp:1-6,2012.
  • Li Y, Li YW ,” Power management of inverter interfaced autonomous microgrid based on virtual frequency-voltage frame”. IEEE Trans EnergConver 2(1),pp:30–40,2011.
  • Li YW, Kao CN,” An accurate power control strategy for power-electronics-interfaced distributed generation units operating in a low-voltage multibusmicrogrid”. IEEE Trans Power Electron 24(12,)pp:2977–2988,2009. [30] Junliu
  • YuechangZuo, Haiyan Zhang,” Research on Energy Management Strategy for Islanded Microgrid Based on Hybrid Storage Device”, IEEE International Conference on Renewable Energy Research and Applications,pp:91-96, October 2013. DiankuiGuo, Fengping
  • Wang [31] A. Etxeberria , I. Vechiu , H. Camblong , J.-M. Vinassa,” Comparison of three topologies and controls of a hybrid energy storage system for Microgrids”, Energy Conversion and Management 54 ,pp: 113–121,2012.
  • Mao Meiqin, Dong Wei, Liuchen Chang,” Multi-Agent Based Simulation for Microgrid Energy Management”, International Conference on Power Electronics, June 3, 2011. [33] Frank Ibarra Hernández, Carlos Alberto Canesin, Ramon Zamora, Fransiska Martina, Anurag K,” Energy Management and Control for Islanded Microgrid Using Multi-Agents”, IEEE,2013.
  • Il-Yop Chung, Cheol-HeeYoo, Sang-Jin Oh,”Distributed Intelligent Microgrid Control Using Mul-ti-Agent Systems”, Engineering, vol 5, pp:1-6,2013.
  • Ren F, Zhang M, Sutanto D ,” A multi-agent solution to distribution system management by considering distributed generators”, IEEE Trans Power Syst 28(2):1442–1451,2013. [36] Zhao P, Suryanarayanan S, Simoes MG ,” An energy management system for building structures using a multi- agent decision-making control methodology”,.IEEE Trans IndAppl 49(1):322–330,2013.
  • Ko HS, Jatskevich J Power quality control of wind hybrid power generation system using fuzzy-LQR controller,IEEE Trans EnergConver 22(2):516–527,2007.
  • Cheol-HeeYoo, Il-Yop Chung, Hak-Ju Lee and Sung- Soo Hong,” Intelligent Control of Battery Energy Storage for Multi-Agent Based Microgrid Energy Management”, Energies , 6,pp: 4956-4979,2013.
  • Martin Strelec and Jan Berka,”Microgrid Energy Management based on Approximate Dynamic Programming”, IEEE PES Innovative Smart Grid Technologies Europe (ISGT Europe), 2013. [40] Daniel
  • MehrdadKazerani, “A Centralized Optimal Energy Management System for Microgrids”,IEEE PES ,July 2011.

Year 2015, Volume: 5 Issue: 2, 334 - 340, 01.06.2015

Chitra Natesan Senthil Kumar Ajithan Swathi Chozhavendhan Antiha Devendiran

Abstract

References

  • Alvaro
  • Jiménez,HaritzaCamblong,”
  • Unplanned islanding and related inverter control techniques”,Renewable energy 36,pp 2052-2061,2011. Jaime Survey
  • microgrids: [2] R. H. Lasseter, “Microgrids,” in Proc. Power Eng. Soc.Winter Meeting, vol. 1, pp. 305–308, 2002.
  • P. Piagi and R. H. Lasseter, “Microgrid: A conceptual solution,”in Proc. Power Electronics Specialists Conf., Jun. 2004, vol. 6, pp.4285–4290.
  • Michael Angelo Pedrasa, Ted Spooner,” A Survey of Techniques Used to Control Microgrid Generation and Storage during Island Operation”.
  • Wenbo Shi, Eun-Kyu Lee, Daoyuan Yao, Rui Huang, Chi- Cheng Chu, and RajitGadh,” Evaluating Microgrid Management and Control with an Implementable Energy Management System”, IEEE SmartGridComm, Venice, Italy, 3-6 Nov. 2014.
  • ChitraNatesan, SenthilkumarAjithan, Shobana Mani, and PrabaakaranKandhasamy,” Applicability of Droop Regulation Technique
  • Journal,Volume 18, Issue 3, July 2014. - A
  • Survey”,Engineering [7] F. Katiraei, M. R. Iravani, and P. W. Lehn, “Micro-grid autonomous operation during and subsequent to islanding process,” IEEE Trans.Power Del., vol. 20, no. 1, pp. 248–257, Jan. 2005. [8] Puladasuravi,
  • Optimal placement of DSTATCOM for voltage sag mitigation using an anfis based approach for power quality enhancement”, International Journal of Electrical, Electronics and Data Communication, , Volume-2, Issue-1, Jan.-2014.
  • E. Ozkop, A. M. Sharaf, I. H. Altas,” A Novel Control Algorithm for Self Adjusting Dynamic Voltage Stabilization Scheme”, ElektronikaIrElektrotechnika, , VOL. 20, NO. 3, 2014. [10] Mehdi
  • Jalilian,Joseph M.Guerrero,Tzung Lin Lee,” Selective compensation of voltage harmonics in grid-connected microgrids”,Else vier Mathematics and Computers in simulation,Vol 91,pp:211-228,May 2013.
  • M. Gupta, S. Srivastava, J.R.P. Gupta,” Online Tracking and Mitigation of Voltage Flicker Using Neural Network”, Journal of Control Engineering and Technology (JCET), Vol.2 No.1, PP.43-49,Jan 2012
  • Li YW, Vilathgamuwa DM, Loh PC ,”Design, analysis and real-time testing of controllers for multibusmicrogrid system”,IEEE Trans Power Electron 19(5):1195–1204,2004. [13] Hatziargyriou N, Asano H, Iravani R et al ,“Microgrids”,.IEEE Power Energ Mag 5(4),pp:78–94,2007.
  • Rosemarie Velik , Pascal Nicolay,” Grid-price- dependent energy management in microgrids using a modified simulated annealing triple-optimizer”,Applied Energy 130,pp: 384–395,2014.
  • Xuan Zhang, Jinjun Liu, and Ting Liu,” Virtual negatively resistive output impedance for power sharing among paralleled inverters in microgrid”, 8th International Conference on Power Electronics ,June 3, 2011..
  • Xianjun Zhan, Ratnesh Sharma, Yanyi He,” Optimal Energy Management of a Rural Microgrid System Using Multi-objective Optimization”, IEEE PES,pp:1-8,2012.
  • F. Katiraei, and m. R. Iravani, “power management strategies for a microgrid withmultiple distributed generation units”, IEEE transactions on power systems, vol. 21, no. 4, November 2006.
  • HristiyanKanchev, Di Lu, Frederic Colas, Vladimir Lazarov, and Bruno Francois,” Energy Management and Operational Planning of a Microgrid With a PV-Based Active Generator for Smart Grid Applications”, IEEE transactions on industrial electronics, vol. 58, no. 10, October 2011.
  • Dong Bo, Yongdong Li , and Zedong Zheng,” Energy Management of Hybrid DC and AC Bus Linked Microgrid”, IEEE International Symposium on Power Electronics for Distributed Generation Systems, pp:713-716,2010.
  • Chandorkar MC, Divan DM, Adapa R ,” Control of parallel connected inverters in standalone AC supply systems”. IEEE Trans IndAppl 29(1–1),pp:136–143,1993.
  • Guerrero JM, De Vicun˜a G, Matas J et al,” A wireless controller to enhance dynamic performance of parallel inverters in distributed generation systems”,IEEE Trans Power Electron19(5),pp:1205–1213,2004.
  • Hossam A. Gabbar, Abdelazeem A. Abdelsalam,” Microgrid energy management in grid-connected and islanding modes based on SVC”, Elsevier Energy Conversion and Management 86 pp:964–972.2014.
  • Ye Zhang, Hong JieJia, Li Guo,” Energy Management Strategy of Islanded Microgrid Based on Power Flow Control”, IEEE PES,2012.
  • GrzegorzIwanski, PawelStaniak, WlodzimierzKoczara,” Power Management in a DC Microgrid Supported by Energy Storage”, IEEE International Symposium,pp:347-352,2011.
  • HaihuaZhou,Tanmoy Bhattacharya, Duong Tran, Tuck Sing Terence Siew,and Ashwin M. Khambadkone,,” Composite Energy Storage System Involving Battery and Ultracapacitor With Dynamic Energy Management in Microgrid Applications”, IEEE transactions on power electronics, vol. 26, no. 3, March 2011.
  • Seung-Tak Kim and Jung-Wook Park,” Energy Management Strategy and Adaptive Control for SMES in Power System with a Photovoltaic Farm”, J ElectrEngTechnol Vol. 9, No. 4,pp: 1182-1187, 2014.
  • Konstantinos O. Oureilidis, Charis S. Demoulias,” Microgrid Wireless Energy Management with Energy Storage System”, IEEE International Conference,pp:1-6,2012.
  • Li Y, Li YW ,” Power management of inverter interfaced autonomous microgrid based on virtual frequency-voltage frame”. IEEE Trans EnergConver 2(1),pp:30–40,2011.
  • Li YW, Kao CN,” An accurate power control strategy for power-electronics-interfaced distributed generation units operating in a low-voltage multibusmicrogrid”. IEEE Trans Power Electron 24(12,)pp:2977–2988,2009. [30] Junliu
  • YuechangZuo, Haiyan Zhang,” Research on Energy Management Strategy for Islanded Microgrid Based on Hybrid Storage Device”, IEEE International Conference on Renewable Energy Research and Applications,pp:91-96, October 2013. DiankuiGuo, Fengping
  • Wang [31] A. Etxeberria , I. Vechiu , H. Camblong , J.-M. Vinassa,” Comparison of three topologies and controls of a hybrid energy storage system for Microgrids”, Energy Conversion and Management 54 ,pp: 113–121,2012.
  • Mao Meiqin, Dong Wei, Liuchen Chang,” Multi-Agent Based Simulation for Microgrid Energy Management”, International Conference on Power Electronics, June 3, 2011. [33] Frank Ibarra Hernández, Carlos Alberto Canesin, Ramon Zamora, Fransiska Martina, Anurag K,” Energy Management and Control for Islanded Microgrid Using Multi-Agents”, IEEE,2013.
  • Il-Yop Chung, Cheol-HeeYoo, Sang-Jin Oh,”Distributed Intelligent Microgrid Control Using Mul-ti-Agent Systems”, Engineering, vol 5, pp:1-6,2013.
  • Ren F, Zhang M, Sutanto D ,” A multi-agent solution to distribution system management by considering distributed generators”, IEEE Trans Power Syst 28(2):1442–1451,2013. [36] Zhao P, Suryanarayanan S, Simoes MG ,” An energy management system for building structures using a multi- agent decision-making control methodology”,.IEEE Trans IndAppl 49(1):322–330,2013.
  • Ko HS, Jatskevich J Power quality control of wind hybrid power generation system using fuzzy-LQR controller,IEEE Trans EnergConver 22(2):516–527,2007.
  • Cheol-HeeYoo, Il-Yop Chung, Hak-Ju Lee and Sung- Soo Hong,” Intelligent Control of Battery Energy Storage for Multi-Agent Based Microgrid Energy Management”, Energies , 6,pp: 4956-4979,2013.
  • Martin Strelec and Jan Berka,”Microgrid Energy Management based on Approximate Dynamic Programming”, IEEE PES Innovative Smart Grid Technologies Europe (ISGT Europe), 2013. [40] Daniel
  • MehrdadKazerani, “A Centralized Optimal Energy Management System for Microgrids”,IEEE PES ,July 2011.
There are 40 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Chitra Natesan This is me

Senthil Kumar Ajithan This is me

Swathi Chozhavendhan This is me

Antiha Devendiran This is me

Publication Date June 1, 2015
Published in Issue Year 2015 Volume: 5 Issue: 2

Cite

APA Natesan, C., Ajithan, S. K., Chozhavendhan, S., Devendiran, A. (2015). Power Management Strategies In Microgrid:A Survey. International Journal Of Renewable Energy Research, 5(2), 334-340.
AMA Natesan C, Ajithan SK, Chozhavendhan S, Devendiran A. Power Management Strategies In Microgrid:A Survey. International Journal Of Renewable Energy Research. June 2015;5(2):334-340.
Chicago Natesan, Chitra, Senthil Kumar Ajithan, Swathi Chozhavendhan, and Antiha Devendiran. “Power Management Strategies In Microgrid:A Survey”. International Journal Of Renewable Energy Research 5, no. 2 (June 2015): 334-40.
EndNote Natesan C, Ajithan SK, Chozhavendhan S, Devendiran A (June 1, 2015) Power Management Strategies In Microgrid:A Survey. International Journal Of Renewable Energy Research 5 2 334–340.
IEEE C. Natesan, S. K. Ajithan, S. Chozhavendhan, and A. Devendiran, “Power Management Strategies In Microgrid:A Survey”, International Journal Of Renewable Energy Research, vol. 5, no. 2, pp. 334–340, 2015.
ISNAD Natesan, Chitra et al. “Power Management Strategies In Microgrid:A Survey”. International Journal Of Renewable Energy Research 5/2 (June 2015), 334-340.
JAMA Natesan C, Ajithan SK, Chozhavendhan S, Devendiran A. Power Management Strategies In Microgrid:A Survey. International Journal Of Renewable Energy Research. 2015;5:334–340.
MLA Natesan, Chitra et al. “Power Management Strategies In Microgrid:A Survey”. International Journal Of Renewable Energy Research, vol. 5, no. 2, 2015, pp. 334-40.
Vancouver Natesan C, Ajithan SK, Chozhavendhan S, Devendiran A. Power Management Strategies In Microgrid:A Survey. International Journal Of Renewable Energy Research. 2015;5(2):334-40.