ISSN : 2583-2646

Automatic Visualization of Single-Phase and Two-Phase Faults through a System of Two IPRs 240 with Signalling

ESP Journal of Engineering & Technology Advancements
© 2024 by ESP JETA
Volume 4  Issue 1
Year of Publication : 2024
Authors : Bedel Giscard Onana Essama, Jacquie Therese Ngo Bisse, Joseph Koko Koko, Salome Ndjakomo Essiane, Jean Gaston Tamba, Jacques Atangana
:10.56472/25832646/JETA-V4I1P103

Citation:

Bedel Giscard Onana Essama, Jacquie Therese Ngo Bisse, Joseph Koko Koko, Salome Ndjakomo Essiane, Jean Gaston Tamba, Jacques Atangana, 2024. Automatic Visualization of Single-Phase and Two-Phase Faults through a System of Two IPRs 240 with Signalling, ESP Journal of Engineering & Technology Advancements  4(1): 32-45.

Abstract:

This paper is devoted to the automatic management of a type of fault (One or two broken phases) occurring on an electrical power transmission line. This line allows the transmission of the power flow from the affected phase to those which are in normal condition. Even if the line is affected by permanent single-phase or two-phase contingencies, the proposed automatic system supplies the receiver side with a few percentages of the nominal power, permanently maintaining the balanced nature of the three-phase power supply to the load. The transmission of information, fault alert affecting the line, to a few enlisted operators is carried out in real time by sending messages directly to their mobile phones or to their e-mail addresses followed by the sound alarm and the illumination of the relevant LEDs. The interest of this work then constitutes a significant and innovative solution for environments with high short-circuit levels on electrical energy transmission networks and contributes to their operating flexibility, even their reliability. The PLC (Programmable Logic Controller) associated with the communication module, modelled, consists of a series of standard logic gates of NOT, AND and OR operators. It has been implemented in the Zelio Soft2 software. The results obtained from the simulation show the reliability and the maintainability of the type 240 interphase power regulators (IPR) in solving the problems of power flow and signalling.

References:

[1] L Angquist, B Lundin and J Samuelsson, Power Oscillation Damping Using Controlled Reactive Power Compensation - A Comparison Between Series And Shunt Approaches, IEEE, N92 SM 539-7 PWRS. 8, (1993) 687-700.
[2] Y. Shan, Yu Ji-Lai, G. Zhi-zhong, Performances Coordination Strategies of Dynamic Controlled Inter-Phase Power Controller (DCIPC), International Conference on Power System technology-POWERCON, (2004) 367-372.
[3] J Lemay, J Brochu, F Beauregard, P. Pelltier, Interphase Power Controller-complementing the family of FACTS controllers, IEEE Canadian Review, (2000) 1-5.
[4] J Lemay and Al, The Plattsburgh Interphase Power Controller, IEEE, Transmission and Distribution Conference, New Orleans, 2 (1999) 648-653.
[5] J. Brochu, G Morin, F Beauregard, P. Pelletier, The Interphase Power Controller A New Concept for Managing Power Flow Within AC Networks, IEEE Transaction one Power Delivery, (1994) 834-839.
[6] J. J. Mandeng, Study of a new system of asymmetrical compensation of line of electric transport of power per regulator of power duaux interphase to three branches, thesis of Doctorate/PhD, University of Douala - Cameroun, (2018) 141.
[7] B Gopinnath, S. Suresh KUMAR, N Vinothini, Modeling of Unified Interphase Power Controller (UIPC) and Its Comparison with IPC and UPFC, International newspaper of Engineering Research and Technology, (2013) 65-69.
[8] Mr. Firouzi, G B Gharehpetian, B Mozafari, Power-Flow Control and Short-Circuit Current Limitation of Wind Farms Using Unified Interphase Power Controller, IEEE Transactions one Power Delivery, (2017) 62-71.
[9] J Brochu, F Beauregard, J Lemay, G Morin, P. Pelletier, R.S. Thallam, Application of the interphase power controller technology for transmission line power flow control", IEEE Transactions PWRD, 12(2) (1997) 888-894.
[10] J Brochu, F Beauregard, G Morin, J Lemay, P. Pelletier, S. Kheir, The IPC technology - have new approach for substation uprating with passivates short-circuit limitation, IEEE/PES Winter Meeting, Tampa, FL., (1997) 830-834.
[11] J Brochu, Interphase Power Controller, second edition, CITEQ, ABB, International Polytechnic Press, 31 (2001) 55-58.
[12] F.Z.Gherbi, F.Lakdja, R. Berber, H. Boudjella, Economic control system by means of Device FACTS, Media mira Publisher Science, 51 (2010).
[13] S. Mr. H. Hosseini, Mr. Vakilian and G B Gharehpetian, Modelling of IPC To transform Windings for Fast Transient Studies, International conference one power systems transients (IPST) 5 (2005).
[14] J J Mandeng, C H. Kom and J Mbihi, Modeling And Simulations of year Electric Power Transmission Line Under Asymmetric Compensation by Dual Power Interphase Controllers , International newspaper of energy conversion, (2015) 111-117.
[15] J J Mandeng, J Mbihi, and C H. Kom, Design of year Dual Automed IPCs 240 system for Asymmetric Power Flow Compensation in year AC Electric Network", Transactions one electrical engineering, 6 (2017) 32-39.
[16] Mr. Najjar, S. Farhangi and H. Iman-Eini, A Method to control the Interphase Power Controller with Common cd. Drunk, Electric Power Components and systems, (2017) 1-11.
[17] Mandeng, J. Mbihi, J. Kom, Design of an Automated Dual IPCs 240 System for Asymmetric Power Flow Compensation in an AC Electric Network, Science Publisher, 6 (2017) 32 – 39.
[18] G. Sybille et al, Simulator demonstration of the interphase power controller technology, IEEE Trans. on Power Delivery, 11(4) (1996) 1985-1992.

Keywords:

Automatic visualization, IPR 240, Contingency, Short-circuits, One-Broken phase, Two-broken Phases, Interphase Power Regulator, Signalling.