An Anfis Controlled Modified Unified Interphase Power Controller (UIPC) For Hybrid Grid
|International Journal of Electrical and Electronics Engineering|
|© 2020 by SSRG - IJEEE Journal|
|Volume 7 Issue 1|
|Year of Publication : 2020|
|Authors : S.Rathidevi, G.Seethalakshmi, S.Shenbagaramalakshmi|
How to Cite?
S.Rathidevi, G.Seethalakshmi, S.Shenbagaramalakshmi, "An Anfis Controlled Modified Unified Interphase Power Controller (UIPC) For Hybrid Grid," SSRG International Journal of Electrical and Electronics Engineering, vol. 7, no. 1, pp. 12-15, 2020. Crossref, https://doi.org/10.14445/23488379/IJEEE-V7I1P103
This work introduces a new approach for power flow control of interconnected AC-DC microgrids .By implementing a ANFIS (adaptive neuro fuzzy)
controlled modified unified interphase power controller (UIPC) for Power Quality Improvement which uses three power converters in each phase, is
modified so that a reduced number of power converters is implemented for power exchange control between AC-DC microgrids. The modified structure includes one power converter in each phase, named as), and a power converter which regulates the DC bus voltage, named as bus power converter (BPC). A Adaptive fuzzy logic controller is used in the control structure of the LPCs. The MATLAB simulation results confirm the effectiveness of the
proposed power flow control strategy of the improved UIPC for hybrid microgrids.
Line Power Converter (LPC), Bus Power Converter (BPC), Unified Intephase Power Controller (UIPC)
 Runfan Zhang, Branislav Hredzak, "Distributed Finite-Time Multi-Agent Control for DC Microgrids with Time Delays”, IEEE Transactions on Smart Grid, Early Access, 2018.
 Kumar Utkarsh, et al, "Distributed Model-predictive Real-time Optimal Operation of a Network of Smart Microgrids", IEEE Transactions on Smart Grid, Early Access, 2018.
 Haifeng Qiu, et al, "Bi-level Two-stage Robust Optimal Scheduling for AC/DC Hybrid Multi-microgrids", IEEE Transactions on Smart Grid, Early Access, 2018.
 Pengfeng Lin, et al, "A Distributed Control Architecture for Global System Economic Operation in Autonomous Hybrid AC/DC Microgrids", IEEE Transactions on Smart Grid, Early Access, 2018.
 Daniel E. Olivares, et al, "Trends in Microgrid Control", IEEE Transactions on Smart Grid Volume: 5, Issue: 4, pp. 1905 – 1919, 2014.
 Jongwoo Choi, et al, "Robust Control of a Microgrid Energy Storage System using Various Approaches", IEEE Transactions on Smart Grid, Early Access, 2018.
 Daniel K. Molzahn, et al, "A Survey of Distributed Optimization and Control Algorithms for Electric Power Systems", IEEE Transactions on Smart Grid, Early Access, 2018.
 Cuo Zhang, et al, "Robustly Coordinated Operation of A Multi-Energy Microgrid with Flexible Electric and Thermal Loads", IEEE Transactions on Smart Grid, Early Access, 2018.
 Samrat Acharya, et al, "A Control Strategy for Voltage Unbalance Mitigation in an Islanded Microgrid Considering Demand Side Management Capability", IEEE Transactions on Smart Grid, Early Access, 2018.
 Pengcheng Yang, et al, "A Decentralized Coordination Control Method for Parallel Bidirectional Power Converters in a Hybrid AC/DC Microgrid", IEEE Transactions on Industrial Electronics, Early Access, 2017.
 Ignacio Gonzalez-Prieto, et al, "Impact of Postfault Flux Adaptation on Six-Phase Induction Motor Drives With Parallel Converters", IEEE Transactions on Power Electronics,Volume: 32, Issue: 1, pp. 515 – 528, 2017.
 Xiaonan Lu, et al., "Control of Parallel-Connected Bidirectional AC-DC Converters in Stationary Frame for Microgrid Application", IEEE, Energy Conversion Congress and Exposition (ECCE), 2011.
 Xiaonan Lu, et al., "Hierarchical Control of Parallel AC-DC Converter Interfaces for Hybrid Microgrids", IEEE Transactions on Smart Grid, Volume: 5, Issue: 2, pp. 683 – 692, 2014.
 F. Wang, et al., "Design and Analysis of Active Power Control Strategies for Distributed Generation Inverters under Unbalanced Grid faults", IET Generation, Transmission & Distribution Volume: 4, Issue: 8, pp. 905 - 916 2010.
 Farzam Nejabatkhah, et al., "Parallel Three-Phase Interfacing Converters Operation under Unbalanced Voltage in Hybrid AC/DC Microgrid", IEEE Transactions on Smart Grid, Early Access.
 Seyed Abbas Taher, Mahdi Zolfaghari, "Designing Robust Controller to Improve Current Sharing for Parallel-Connected Inverter-Based DGs Considering Line Impedance Impact in Microgrid Networks", Electrical Power and Energy Systems, Volume: 63, pp. 625-644, 2014.
 Mahdi Zolfaghari, et al, "A Fractional Order Proportional-Integral Controller Design to Improve Load Sharing between DGs in Microgrid", Smart Grids Conference (SGC), 20-21 Dec. 2016, Graduate University of Advanced Technology, Kerman, Iran, 2016.
 Jia Lihu, et al, "Architecture Design for New AC-DC Hybrid Microgrid", DC Microgrids (ICDCM), IEEE First International Conference on, 2015.
 Huanhai Xin, et al., "A Decentralized Hierarchical Control Structure and Self-Optimizing Control Strategy for F-P Type DGs in Islanded Microgrids", IEEE Transactions on Smart Grid, Volume: 7, Issue: 1, pp. 3 – 5, 2016.
 Priyank Srivastava, Rashmi Pardhi “A Review on Power System Stability and Applications of FACT Devices” International Journal of Engineering Research and Applications, Volume: 3, Issue: 3, pp.879-883, 2013.