Power Quality Analysis of Micro-Grid (MG) Based on DVR
|International Journal of Electrical and Electronics Engineering|
|© 2021 by SSRG - IJEEE Journal|
|Volume 8 Issue 4|
|Year of Publication : 2021|
|Authors : Imdad Ali, Sajid Hussain Qazi, Irfan Ahmed, Asad Ali, Abdul Latif|
How to Cite?
Imdad Ali, Sajid Hussain Qazi, Irfan Ahmed, Asad Ali, Abdul Latif, "Power Quality Analysis of Micro-Grid (MG) Based on DVR," SSRG International Journal of Electrical and Electronics Engineering, vol. 8, no. 4, pp. 25-29, 2021. Crossref, https://doi.org/10.14445/23488379/IJEEE-V8I4P105
In this paper we investigate the performance analysis of Dynamic Voltage Restorer (DVR) in Microgrid for voltage stability. Based on VSC principle, DVR injects/consume Voltage in series through injection transformer to correct voltage abnormalities including voltage sag and swell in a Microgrid System. The modelling and simulation of DVR in MATLAB/Simulink is based on different loading/disturbance conditions. The controller to be used in DVR used in Microgrid system is based on phase locked loop (PLL) techniques to trigger Inverter using Pulse width modulation (PWM) in which only voltage measurement is required to operate when error signal generated. This paper used to analyze performance of DVR to compare their performance results of Microgrid system to mitigate voltage sag and voltage swell as power quality issues.
DVR, Microgrid, Voltage sag, Voltage stability, Voltage swell.
 Hingorani N G, Introducing Custom Power, IEEE Spectrum. (1995) 4l–48.
 IEEE Standards Board, IEEE Std. 1159–1995: IEEE Recommended Practice for Monitoring Electric Power Quality, IEEE Inc. Newyork. (1995).
 Buxton R, Protection from Voltage Dips with the Dynamic Voltage Restorer, In IEE Half Day Colloquium on Dynamic Voltage Restorers—Replacing Those Missing Cycles. (1998) 3/1–3/6.
 Chan K, Technical and Performance Aspects of a Dynamic Voltage Restorer, In IEE Half Day Colloquium on Dynamic Voltage Restorers—Replacing Those Missing Cycles. (1998) 5/1–525.
 Sankaran C, Power Quality, CRC Press. (2001).
 Benachaiba C, Ferdi B, Voltage Quality Improvement using DVR, Electric Power Quality and Utilization Journal. (2008).
 Snge k, Choi S S, Vilathgamuwa M, Analysis of Series Compensation and DC-Link Voltage Controls of a Transformer Less Self-Charging Dynamic Voltage Restorer, IEEE Transactions on Power Delivery. (2004) 1511–1518.
 Li G J, Zhang X P, Choi S S, Lie T T, Sum Y Z, Control strategy for Dynamic Voltage Restorers to Achieve Minimum Power Injection without Introducing Sudden Phase Shift, IET Generation, Transmission and Distribution. (2007) 847-853.
 Lee S J, Kim H, Sul S K, A Novel Control Algorithm for Static Series Compensators by Use of PQR Instantaneous Power Theory, IEEE Trans on Power Electronics. (2004) 814-827.
 Mahesh S S, Mishra M K, Kumar B K, Jayashankar V, Rating and Design Issues of DVR Injection Transformer, Applied Power Electronics Conference and Exposition. (2008) 449-455.
 Jowder F A L, Design and Analysis of Dynamic Voltage Restorer for Deep Voltage SAG and Harmonic Compensation, Generation, Transmission & Distribution. (2009) 547-560.
 Ramachandaramurthy V K, Arulampalam A, Fitzer C, Zhan C, Barnes M, Jenkins N, Supervisory Control of Dynamic Voltage Restorers, IEE Proc.- Generation, Transmission, Distribution. (2004) 509-516.
 Toodeji H, Fathi S H, Cost Reduction and Control System Improvement in Electrical Arc Furnace using DVR, Industrial Electronics and Applications, IEEE Conference. (2009) 211-215.
 Meyer C, Doncker R W, Li Y W, Blaabjerg F, Optimized Control Strategy for a Medium Voltage DVR - Theoretical Investigations and Experimental Results, Power Electronics, IEEE Transactions. (2008) 2746-2754.
 Muni B P, Venkateshwarlu S, Makthal H V, Review of Dynamic Voltage Restorer for Power Quality Improvement, IEEE Industrial Electronics Society. (2004) 749-754.
 Zhan C, Ramachandaramurthy V K, Arulampalam A, Fitzzer C, Barnes M, Jenkins N, Control of a Battery Supported Dynamic Voltage Restorer, IEE Proceedings on Transmission and Distribution. (2002) 533-542.
 Zhan C, Arulampalam A, Jenkins N, Four-Wire Dynamic Voltage Restorer Based on a Three Dimensional Voltage Space Vector PWM Algorithm, IEEE Trans. Power Electron. (2003) 1093-1102.
 Ezoji H, Sheikholeslami A, Tabasi M, Saeednia M.M, Simulation of Dynamic Voltage Restorer using Hysteresis Voltage Control, European Journal of Scientific Research (EJSR). (2009) 152-166.
 Banaei M R, Hosseini S H, Khanmohamadi S, Gharehpetian G B, Verification of a New Energy Control Strategy for Dynamic Voltage Restorer by Simulation, ELSEVIER Simulation Modeling Practice and Theory. (2006) 113-125.
 Nguyen P T, Saha T K, Dynamic Voltage Restorer Against Balanced and Unbalanced Voltage Sags: Modelling and Simulation, Power Engineering Society General Meeting, IEEE, (2004) 639-644.
 Priyanka Kumari, Vijay Kumar Garg / International Journal of Engineering Research and Applications (IJERA). 3(4) (2013) 1436-1441.
 Boonchiam P, Mithulananthan N, Dynamic Control Strategy in Medium Voltage DVR for Mitigating Voltage Sags/Swells, International Conference on Power System Technology. (2006) 1-5.
 Ghosh A, Ledwich G, Compensation of Distribution System Voltage Using DVR, IEEE Transon Power Delivery. (2002) 1030-1036.
 Kularatna N, Power Electronics Design Handbook: Low-Power Components and Applications, Boston: Newnes. (1998).
 Zhan C, Ramachandaramurthy V K, Arulampalam A, Fitzer C, Kromlidis S, Barnes M, Jenkins N, Dynamic Voltage Restorer Based on Voltage Space Vector PWM Control, IEEE Transactions on Industry applications. (2001) 1855-1863.
 Dahono P A, Purwadi A, Quamaruzzaman, An LC filter Design Method for Single-Phase PWM Inverters, IEEE International Conf. on Power Electronics and Drive Systems. (1995) 571-576.
 Bollen M H J, Understanding Power Quality Problems, New York: IEEE Press. (2000).
 Fitzer C, Barnes M, Green P, Voltage SAG Detection Technique for a Dynamic Voltage Restorer, IEEE Transactions on Industry Applications. (2004) 203–212.
 Saleh S A, Rahman M A, Wavelet-Based Dynamic Voltage Restorer for Power Quality Improvement, IEEE 35th Annual Power Electronics Specialists Conference. (2004) 3152–3156.
 Kumar R, Nagaraju S, Simulation of DStatcom and DVR in Power Systems, ARPN Journal of Engineering and Applied Sciences. (2007).
 Nielsen J G, Blaabjerg F, Mohan N, Control Strategies for Dynamic Voltage Restorer Compensating Voltage Sags with Phase Jump, IEEE Applied Power Electronics Conference and Exposition. (2001) 1267-1273.
 Margo P, Heri M P, Ashari M, Hiyama T, Balanced Voltage Sag Correction using Dynamic Voltage Restorer Based Fuzzy Polar Controller, Proceedings of the Second International Conference on Innovative Computing, Information and Control. (2007).
 Chung Y H, Kim H J, Kwon G H, Park T B, Kim S H, Kim K S, Choe J W, Dynamic Voltage Restorer with Neural Network Controlled Voltage Disturbance Detector and Real-Time Digital Voltage Control, IEEE Power Engineering Society General Meeting. (2007) 1-7.
 Vilathgamuwa D M, Perera, Choi S S, Voltage SAG Compensation with Energy Optimized Dynamic Voltage Restorer, Power Delivery, IEEE Transactions. (2003) 928-936.
 T. Ackermann, G. Andersson, and L. Söder, Distributed Generation: A definition, IEEE Transl.J. Electr.Power Syst. Res. 57 (2001) 195-204.
 R. Majumder and E. Engineering, Modelling, Stability Analysis and Control of Microgrid, Ph.D Dissertation, School of Energy Systems, Queensland University of Technology, Queensland, Australia. (2010).
 N.G. Hingorani, Introducing Custom Power, IEEE Spectrum. 32 (1995) 4l-48.
 P. Boonchiam, and N. Mithulananthan, Understanding of Dynamic Voltage Restorers through MATLAB Simulation, Thammasat Int. J. Sc. Tech. 11(3) (2006).
 IEEE Std. 1159 – 1995, Recommended Practice for Monitoring Electric Power Quality. (1995).