Document Type
Conference Item
Publication Date
1-1-2012
Abstract
Modeling tools are useful for educational and industrial use. Such tools help the new engineers to simulate the power system under normal and faulted conditions. This paper presents the design and various data conversion steps of a digital frequency relay. The designed relay will cover both over and under frequency conditions. The digital relay has superiority over electromechanical relay in terms of accuracy and speed. The large frequency variations could lead to complete power system blackout. History has seen several blackouts due to frequency instability, either due to supply-demand unbalance or N-1 contingency. After distributed generation and the possible islanding issues, frequency relay has again gain the attention of the researchers and industrialists. The performance of proposed digital frequency relay will be observed under different system dynamics on MATLAB/SIMULINK®.
Keywords
Frequency relay, Relay modeling, Swing equation, Data conversion, Digital relays, Electromechanical relays, Frequency instabilities, Frequency variation, Industrial use, Islanding, MATLAB /simulink, Modeling and simulation, Modeling tool, N-1 contingencies, Power system blackout, Supply-demand, System Dynamics, Under frequencies, Computer simulation, Data handling, Distributed power generation, Industrial applications, Electric relays
Divisions
fac_eng
Event Title
2012 IEEE International Conference on Power and Energy, PECon 2012
Event Location
Kota Kinabalu
Event Dates
2012
Event Type
conference
Additional Information
Conference code: 95813 Export Date: 17 April 2013 Source: Scopus Art. No.: 6450305 :doi 10.1109/PECon.2012.6450305 Language of Original Document: English Correspondence Address: Aman, M.M.; University of MalayaMalaysia; email: mohsinaman@gmail.com References: Saadat, H., (2010) Power System Analysis, , 3rd ed. : WCB/McGraw-Hill Singapore; Aman, M.M., Digital directional and non-directional over current relays: Modelling and performance analysis (2011) NED University Journal of Research, 8; Aman, M.M., Modeling and simulation of reverse power relay for generator protection (2012) 2012 IEEE International Power Engineering and Optimization Conference (PEOCO2012), Melaka, Malaysia, pp. 6-7. , June 2012; Aman, M.M., Modeling and simulation of digital negative sequence relay for unbalanced protection of generator (2012) Power Engineering and Optimization Conference (PEDCO), pp. 72-77. , Melaka, Malaysia 2012 Ieee International; Kundur, P., (1994) Power System Stability and Control, 4. , McGraw-hill New York; Girgis, A.A., Ham, F.M., A new fft-based digital frequency relay for load shedding (1982) Power Apparatus and Systems, IEEE Transactions on, pp. 433-439; Lobos, T., Rezmer, J., Real-time determination of power system frequency (1997) Instrumentation and Measurement, IEEE Transactions on, 46, pp. 877-881; (2010), http://www05.abb.com/global/scot/scot229.nsf/veritydisplay/ 294c235c3e25ca9bc1256ed90047c1a1/file/sdf-1ib41-504b.pdf, ABB Solid State Under Frequency Relay. Avaialble from: Access on 10 Septftp://ftp.areva-td.com/P92xENTF22.pdf, Areva MiCOM P921/P922/P923 Voltage and Frequency Relays (Technical Guide) Available fromBright, C.G., Corocof: Comparison of rate of change of frequency protection. A solution to the detection of loss of mains (2001) Developments in Power System Protection 2001, Seventh International Conference on (IEE), pp. 70-73; Butler, S., (2009) UK Electricity Networks the Nature of UK Electricity Transmission and Distribution Networks in An Intermittent Renewable and Embedded Electricity Generation Future; http://www.mathworks.com/matlabcentral/fileexchange/authors/126622, MATLAB File Exchange. Author: Muhammad Mohsin Aman. Available fromN1 - Sponsors: IEEE Malaysia; IEEE Malaysia Power Electronics/Industrial; Electronics/Industrial Applications Joint Chapter; IEEE Malaysia Power and Energy Chapter