Configuration and Digital Simulation of STATCOM utilizing 48-Pulse VSC for Reactive Power Reparation and Potential Reliability
This paper analyzes the configuration of Static Synchronous Compensator-STATCOM utilizing 48 pulse voltage source converter for reactive force reparation and voltage adjustment in force framework transmission and dispersion systems alongside the advanced development of the STATCOM utilizing 48 pulse VSC, expecting framework subjected to unsettling disturbances of real and reactive power. The 48 Pulse voltage source converter is composed with the guide of four 3-level voltage source converters exchanging at the major recurrence to create a sinusoidal yield voltage with decreased symphonies substance. The outline and computerized recreation of STATCOM has been executed in the MATLAB/Simulink stage. It is strongly evident that the outcome of reactive power reparation and voltage stabilization have been substantially improved by the proposed STATCOM configuration with 48 pulse VSC.
R. Mohan, R.K. Varma, Thyristor-Based FACTS Controllers for Electrical Transmission Systems, Piscataway, NJ: IEEE Press, (2002).
Wei Luo, Jianguo Jiang. Optimized Predictive Control of Three-Level Neutral Point Clamped Converter Based STATCOM Using Space-Vector Modulation, J. Electr. Syst., 10(3) (2004) 263-275.
N.G. Hingorani, Laszlo Gyugyi, Understanding FACTS-concepts and technology of Flexible Ac Transmission System, IEEE Power Engineering Society, (2000).
M. Khatir, S-A. Zidi, M-K Fellah, S. Hadjeri, M. Flitti, The Impact Study of a Statcom on Commutation Failures in an HVDC Inverter Feeding a Weak AC System, J. Electr. Eng., 63(2) (2002) 95-102.
P. Govindasamy and R. Anita, Implementation of PV System Integrated DSTATCOM with Modified UVT Control Scheme for Harmonic and Neutral Current Elimination, J. Test. Eval., 46(5) (2018) 1832-1851.
B. Gokulakrishnan and T. Govindaraj, FLC-Based SOGI Controller for Photovoltaic-Operated STATCOM for Current Harmonic Elimination, J. Test. Eval., 45(6) (2017) 2166-2182.
Ashwin Kumar Sahoo, K. Murugesan and T. Thygarajan. Modeling and Simulation of 48-pulse VSC Based STATCOM Using Simulink’s Power System Blockset. In: Proceedings of India International Conference on Power Electronics, (2006) 303-308.
S.M. Padmaja, G. Tulasiram Das, A Novel Controller Based 48-Pulse STATCOM for Reactive Power Compensation and Voltage Stabilization in High Voltage Applications. Int. J. Elec. Power Eng., 2(3) (2011) 43-49.
P. Sreenath, Myaka. Narendhar, Tadikamalla. Sanjeev Rao, Mitigation of Total Harmonics Distortion by Using 84 Pulse VSC Configurations, Int. J. Eng. Adv. Technol., 3(1) (2013) 168-170.
Static Synchronous Compensator. CIGRE: Working group 14.19, 1998.
Bhim Singh and Radheshyam Saha. Analysis of a Harmonics Neutralized 48-Pulse STATCOM with GTO Based Voltage Source Converters. J. Elec. Eng. Technol., 3(3) (2008) 391-400.
Smruti Ranjan Barik, Byamakesh Nayak, Srikant Dash, A Comparative analysis of three level VSC based multi-pulse STATCOM, Int. J. Eng. and Technol., 6(3) (2014) 1550-1563.
Subhasis Bandopadhyay, Amartya Roy, Digital Simulation of 48 Pulse GTO Based STATCOM and Reactive Power Compensation, Int. J. Recent Innovation Trends in Comput Commun., 2(4) (2014) 824-827.
M.S. Elmousi, A.M. Sharaf, Voltage stabilization and reactive compensation using a novel FACTS STATCOM scheme. In: Can. Confe. Elect. and Comput. Eng., (2005) 537-540.
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