Abstract
In the modernization, enlargement and improvement of electricity grids, applicable usage of electrical networks could be very essential. Because of the excessive price of production and improvement of electrical networks, mitigation of voltage profile issues, voltage instabilities, reliability troubles, etc., is inevitable. Distribution static compensator (DSTATCOM) is used as an efficient solution for these issues for improving power, voltage fluctuation and stability of power system. DSTATCOM a shunt-connected FACTs controller device particularly used to compensate reactive power and unbalance due to numerous loads in distribution side. As the clan energy generation demand is increasing, thus this paper presents photovoltaic (PV)-DSTATCOM operation and analysis as a great solution. The PV-DSTATCOM has been modelled and simulated in MATLAB/Simulink for enhancing the power quality of distribution side considering linear loads and nonlinear loads connected to the system.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Arrillaga J, Watson NR (2004) Power system harmonics. Wiley
Bollen MH (2000) Understanding power quality problems, vol 1. IEEE, Piscataway, pp 1–35
Sorte PK, Panda KP, Peesapati R, Panda G (2020) An improved control strategy for single-phase single-stage grid-tied PV system with current reference MPPT control. In: 2020 IEEE international conference on computing, power and communication technologies (GUCON), pp 461–466
Singh B, Jayaprakash P, Kothari DP, Chandra A, Al Haddad K (2014) Comprehensive study of DSTATCOM configurations. IEEE Trans Indus Inf 10(2):854–870
Prince SK, Panda KP, Panda G (2020) Kalman filter variant intelligent control for power quality improvement in photovoltaic active power filter system. Int Trans Electr Energy Syst 30(3)
Singh B, Kandpal M, Hussain I (2018) Control of grid tied smart PVDSTATCOM system using an adaptive techniques. IEEE Trans on Smart Grid 9(5):3986–3993
Prince SK, Panda KP, Kumar VN, Panda G (2018) Power quality enhancement in a distribution network using PSO assisted Kalman filter—based shunt active power filter. In: 2018 IEEMA Engineer Infinite Conference (eTechNxT), pp 1–6
Modi G, Kumar S, Singh B (2020) Improved widrow-hoff based adaptive control of multi-objective PV-DSTATCOM system. IEEE Trans Indus Appl 56(2):1930–1939
Prince SK, Panda KP, Patowary M, Panda G (2019) FPA tuned extended Kalman Filter for power quality enhancement in PV integrated Shunt active power filter. In: 2019 international conference on computing, power and communication technologies (GUCON), pp 257–262
Sorte PK, Panda KP, Panda G (2021) Current reference control based MPPT and investigation of power management algorithm for grid-tied solar PV-battery system. IEEE Syst J 1–11
Murali S, Panda KP, Panda G (2018) PV-HESS fed BLDC driven water pumping system with PSO-based MPP tracking employing zeta converter. In: 2018 IEEE innovative smart grid technologies—Asia (ISGT Asia), pp 196–201
Lam C-S, Choi WH, Wong MC (2012) Adaptive DC-link voltage controlled hybrid active power filters for reactive power compensation. IEEE Trans Power Electron 27:1758–1772
Hareesh M, Siva Kumar G, Sreenivasarao D (2017) Dynamic DC voltage regulation of split-capacitor DSTATCOM for power quality improvement. IET Generation Transmission Distribution 11(17):4373–4383
Kiran Prasad K, Myneni H, Ganjikunta SK (2019) Power quality improvement and PV power injection by DSTATCOM with variable DC link voltage control from RSC-MLC. IEEE Trans Sustain Energy 10:876–885
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2022 The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
About this paper
Cite this paper
Kumari, P., Narendra Babu, P., Panda, K.P., Bisoyi, S.K., Panda, G. (2022). Power Quality Improvement in Distribution Network Using PV Integrated DSTATCOM. In: Panda, G., Naayagi, R.T., Mishra, S. (eds) Sustainable Energy and Technological Advancements. Advances in Sustainability Science and Technology. Springer, Singapore. https://doi.org/10.1007/978-981-16-9033-4_14
Download citation
DOI: https://doi.org/10.1007/978-981-16-9033-4_14
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-16-9032-7
Online ISBN: 978-981-16-9033-4
eBook Packages: EnergyEnergy (R0)