Skip to main content

ARIIDTM - A Research on Innovative Islanding Detection Technique for Microgrid - Research Thesis by Dr.V.Arivumani

Abstract: Islanding detection is a way of protecting the renewable energy integrated Microgrid from the power grid network during abnormal conditions like hazards, faults, etc. Various islanding detection methods (Passive, Active, Hybrid and Remote methods) are implemented with new technologies to protect renewable energy-powered Microgrids integrated with the power grid network. However, among these methods, Passive methods are preferred and reported in most of the literature due to their known feasibility. These methods are straightforward to model with few processing elements, fewer computational requirements, and faster detection of islanding events without affecting the power quality. Yet, these methods have larger NonDetection Zone (NDZ) in which the islanding is not performed for minor power mismatches. Other than a voltage-frequency relay, most practices have less NDZ but more interrupted tripping, affecting the Microgrid's equipment. In this research, islanding detection is performed by sensing the voltage deviation (overvoltage and undervoltage) and voltage unbalance conditions using four proposed techniques. Angular symmetrical component (ASC) based islanding detection technique is performed using Delta Voltage Deviation (DVD) and Tangent Angle of Unbalance (TAU) parameters. Voltage and angle deviation (VAD) based islanding detection is performed by estimating absolute maximum deviation of voltage and phase angle from rated voltage and 1200 respectively. Voltage deviation and unbalance (VDU) based islanding detection is performed by estimating absolute maximum voltage deviation and voltage unbalance factor which is estimated from individual line voltage deviations. Finally, the islanding detection is simply performed using minimum and maximum line voltage (MMV) among three unequal line iv voltages in the unbalance conditions. The threshold setting of Voltage deviation is fixed as 10% as per IEC 62116. The threshold setting of tangent angle of unbalance, maximum phase angle deviation, voltage unbalance factor, and the % of minimum voltage with maximum voltage are set as 10 , 20 , 2% and 97% respectively. The proposed methods are validated in solar photovoltaic integrated Microgrid under various islanding and non-islanding events with the help of MATLAB/SIMULINK software. Performance of the proposed islanding detection methods are compared with the conventional methods available in the literature, such as Overvoltage / Undervoltage / Overfrequency / Underfrequency relay, Rate of Change of Frequency (ROCOF), and Voltage Unbalance and Total Harmonic Distortion (VUTHD) by simulation results. From the simulation results, it is evident that the proposed techniques effectively identify the islanding events under voltage deviation and unbalance conditions in microgrid. Also, the relays will not detect the islanding during internal events like linear and non-linear load switching. From the investigations made, it is found that Minimum and Maximum Voltage based islanding detection involves fewer computational requirements and hence it is found suitable for islanding detection in real time under any abnormal conditions.

 The Thesis is available in ShodhGanga: https://shodhganga.inflibnet.ac.in/jspui/handle/10603/564562

Citation Link: http://hdl.handle.net/10603/564562

Comments

Popular posts from this blog

Welcome Visitors!

   I am Dr.V.Arivumani working as Assistant Professor in Department of Electrical and Electronics Engineering, at Government College of Engineering, Bargur, Krishnagiri District (Since April 2013). UG - EEE - 2003 | PG - Power System - 2006 | PhD - 2024 Teaching service from 2006 - GKM, SAACE, DCE, Vels University, and GCE Bargur (Present) State-level  Second Rank in TRB Exam for Assistant Professors in Government Engineering Colleges I have the World's Shortest Email address:  v@co1.in  (8 characters). Currently, I own the domain  Co1.in  (Co One dot in) PPPs Publications      Programs        Patents

My Article: Angular symmetrical components-based anti-islanding method for solar photovoltaic-integrated microgrid

This article examines how an innovative Angular Symmetrical Components of Voltages be applied to islanding detection and voltage unbalance factor estimation at a photovoltaic inverter-based distribution unit. Positive and Negative Sequence Components are converted into a polar form such as Line Aggregate RMS (LARMS) Voltage and Tangent Angle of Unbalance (TAU) which are determined from two line voltage signals. Three voltage relays are replaced with a single relay which compares the LARMS voltage and TAU with threshold limits to identify the condition of balance. ASCOV relay does not generate the trip signal in a non-islanding situation such as linear load switching and nonlinear load switching. The Non-Detection Zone (NDZ) of this ASCOV relay is very low compared to other relays. The proposed anti-islanding method is tested in a SPV powered microgrid using MATLAB/SIMULINK and the performance was studied under islanding and non-islanding events. Consequently, the simulation outcome ind