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Arabian Journal for Science and Engineering

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29-01-2020 | Research Article-Electrical Engineering

Improved Distance Relaying for Double-Circuit Lines Using Adaptive Neuro-Fuzzy Inference System

Authors: Tamer A. Kawady, Gamal M. Sowilam, Raed Shalwala

Published in: Arabian Journal for Science and Engineering | Issue 3/2020

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Abstract

Utilizing double-circuit lines may represent a challenge for distance relaying functions owing to the significant impacts of the mutual coupling among the adjacent conductors. This paper proposes a new adaptive distance relaying scheme for double-circuit transmission lines using fuzzy logic tuning. The scheme depends on two basic steps. First, the impacts of the mutual coupling of the adjacent conductors on the accuracy of the distance relaying core are minimized based on the decoupling feature of modal transformation. Then, a dedicated online intelligent tuning mechanism is utilized to precisely improve the relay reach. The adaptive neuro-fuzzy inference system is employed to realize an optimum design of the aimed tuning mechanism. A thorough investigation of the proposed scheme is performed utilizing a detailed modeling of a typical 400-kV interconnection system with both single- and double-circuit line segments. The electromagnetic transient program (ATP-EMTP) is employed for modeling the considered power system, whereas the protection scheme is constructed and tested using MATLAB. Finally, the performance of the proposed relaying scheme is investigated under different load conditions, various fault types and fault locations to visualize its efficacy precisely. As compared with conventional distance relaying core, the proposed adaptive distance scheme has a precise fault distance estimation with a reach error less than 6% of the total line length. Accordingly, a corrected declaration of the faulted zone is realized along the entire range of the protected line despite the added fault resistance, loading condition and fault type.

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Araújo, M.R.; Pereira, C.: Influence of mutual coupling modelling on the effectiveness of a distance relaying algorithm applicable to long parallel transmission lines. J. Eng. 12(10), 1043–1047 (2018)

IEEE Std C37-113-2015: IEEE guide for protective relay applications to transmission lines (Revision of IEEE Std C37.113-1999). IEEE (2016)

Bhalja, B.R.; Maheshwari, R.P.: High-resistance faults on two terminal parallel transmission line: analysis, simulation studies, and an adaptive distance relaying scheme. IEEE Trans. Power Deliv. 22(2), 801–812 (2007)CrossRef

Makwana, V.H.; Bhalja, B.R.: A new adaptive distance relaying scheme for mutually coupled series-compensated parallel transmission lines during inter-circuit faults. IEEE Trans. Power Deliv. 26(4), 2726–2734 (2011)CrossRef

Bucco, D.; et al.: Protection challenges for North America’s first combined cable/overhead double-circuit 500 kV transmission line with mutual coupling. In: 70th Annual Conference for Protective Relay Engineers (CPRE), USA, pp. 1–15 (2017)

Santos, A.: Impact of double circuit lines operated in parallel on distance protection. In: The 9th IET International Conference on Developments in Power System Protection (DPSP), UK (2008)

Kawady, T.A.; et al.: Modeling issues of a practical transmission system for protection applications. In: International Middle East Power System Conference (MEPCON’2005); Port Said-Egypt (2005)

Zahran, A.D.; et al.: Improved ground distance protection for cascaded overhead-submarine cable transmission system. In: 19th Middle East Power Systems Conference (MEPCON’2017), Egypt, pp. 778–758 (2017)

Bi, T.K.; et al.: Ground fault distance protection for paralleled transmission lines. IEEE Trans. Ind. Appl. 51(6), 5228–5236 (2015)CrossRef

10.

Kumar, J.; Jena, P.: Adaptive distance relaying for grid-connected line with consideration of single-phase auto-reclosing. Arab. J. Sci. Eng. (2019). https://doi.org/10.1007/s13369-018-3129-y CrossRef

11.

Seyedi, H.; Teimourzadeh, S.; Nezhad, P.S.: Adaptive zero sequence compensation algorithm for double-circuit transmission line protection. IET Gener. Transm. Distrib. 6(6), 1107–1116 (2014)CrossRef

12.

Zhanga, G.; et al.: Single-ended travelling wave-based protection scheme for double-circuit transmission lines. Int. J. Electr. Power Energy Syst. 97, 93–105 (2018)CrossRef

13.

Ming-Yu, Y.; Yong-Li, Z.: Study on adaptive distance protection using multi-agent technology. In: The IEEE International Power Engineering Conference, USA (2005)

14.

Javadi, M.; Marzband, M.; Funsho Akorede, M.; Godina, R.; Saad Al-Sumaiti, A.; Pouresmaeil, E.: A centralized smart decision-making hierarchical interactive architecture for multiple home microgrids in retail electricity market. Energies 2018(11), 1–22 (2018)

15.

Valinejad, J.; Marzband, M.; Funsho Akorede, M.; D Elliott, I.; Godina, R.; Matias, J.C.; Pouresmaeil, E.: Long-term decision on wind investment with considering different load ranges of power plant for sustainable electricity energy market. Energies 10, 1–19 (2018)

16.

Hasheminejad, S.; Ghodratollah, S.S.; Razaz, M.; Joorabian, M.: Traveling-wave-based protection of parallel transmission lines using Teager energy operator and fuzzy systems. IET Gener. Transm. Distrib. 8(8), 1067–1074 (2016)CrossRef

17.

Jongepier, A.G.; Van der Sluis, V.: Adaptive distance protection of double-circuit lines using artificial neural networks. IEEE Trans. Power Deliv. 12(1), 97–105 (1997)CrossRef

18.

Ferreira, V.; et al.: A survey on intelligent system application to fault diagnosis in electric power system transmission lines. Electr. Power Syst. Res. 136(7), 135–153 (2016)CrossRef

19.

Agarwal, S.; Swetapadma, A.; Panigrahi, C.: An improved method using artificial neural network for fault detection and fault pole identification in voltage source converter-based high-voltage direct current transmission lines. Arab. J. Sci. Eng. 43, 4005–4018 (2018)CrossRef

20.

Kari, T.; et al.: An integrated method of ANFIS and Dempster–Shafer theory for fault diagnosis of power transformer. IEEE Trans. Dielectr. Electr. Insul. 2018(1), 360–371 (2018)CrossRef

21.

Reddy, M.; Mohanta, D.: Adaptive-neuro-fuzzy inference system approach for transmission line fault classification and location incorporating effects of power swings. IET Gener. Transm. Distrib. 10(2), 235–244 (2018)CrossRef

22.

Sadeh, J.; Afradi, H.: A new and accurate fault location algorithm for combined transmission lines using adaptive network-based fuzzy inference system. Electr. Power Syst. Res. 129(11), 1538–1545 (2009)CrossRef

23.

Khorashadi-Zadeh, H.; Li, Z.: Transmission line distance protection using ANFIS and positive sequence components. In: iREP Symposium—Bulk Power System Dynamics and Control—VII. Revitalizing Operational Reliability (2007)

24.

Kamel, T.S.; Moustafa Hassan, M.A.; El-Morshedy, A.: Using a combined artificial intelligent approach in distance relay for transmission line protection. In: EPS in the 5th International Conference on Soft Computing, Computing with Words and Perceptions in System Analysis, Decision and Control, USA (2009)

25.

Aziz, M.S.; Hassan, M.A.; Abo-Elzahab, E.: Applications of ANFIS in high impedance faults detection and classification in distribution networks. Int. J. Syst. Dyn. Appl. 1(2), 44–59 (2012)

26.

Khorashadi-Zadeh, H.; Li, Z.: Transmission line distance protection using ANFIS and positive sequence components. In: The iREP Symposium—Bulk Power System Dynamics and Control—VII. Revitalizing Operational Reliability, USA (2007)

27.

Sanaye-Pasand, M.; Jafarian, P.: An adaptive decision logic to enhance distance protection of transmission lines. IEEE Trans. Power Deliv. 26(4), 2134–2144 (2011)CrossRef

28.

Kawady, T.A.: Fault location estimation in power systems with universal intelligent tuning. Ph.D. Thesis, TU-Darmstadt, Germany (2005)

29.

Agrasar, M.; Uriondo, F.; Hernandez, J.R.: Evaluation of uncertainties in double line distance relaying. A global sight. IEEE Trans. Power Deliv. 13(4), 1033–1039 (1998)CrossRef

30.

Tziouvaras, D.A.; Altuv, H.; Calero, F.: Protecting mutually coupled transmission lines: challenges and solutions. In: The 67th Annual Conference for Protective Relay Engineers, USA (2014)

31.

Ziegler, G.: Numerical Distance Protection: Principles and Applications, 3rd edn. Wiley, New York (2008)

32.

Mathworks, MATLAB-2018B, USA (2018)

33.

Lutfy, O.; Noor, S.M.; Marhaban, M.: A simplified PID-like ANFIS controller trained by genetic algorithm to control nonlinear systems. In: The International Conference on Electrical, Control and Computer Engineering, InECCE, USA (2011)

34.

Mlakić, D.; Baghaee, H.R.; Nikolovski, S.: A novel ANFIS-based islanding detection for inverter-interfaced microgrids. IEEE Trans. Smart Grid 10(4), 4411–4424 (2019)CrossRef

35.

Waikar, D.: Mathematical basis for modal-transformation based improved digital distance relaying algorithm. In: International Conference on Advances in Power System Control, Operation and Management, Hong Kong (1997)

36.

Kawady, T.A.; et al.: Distance relaying field problems for composite transmission lines. In: 15th International Conference on Power System Protection, Bled-Slovenia, pp. 171–177 (2006)

37.

Electric Power Research Institute (EPRI); EMTP Development Coordination Group (DCG): Electromagnetic transient programs (EMTP96) rule book. Ver. 3.x. (1999)

38.

Tavares, M.C.; Pissolatto, G.; Portela, C.: Guidelines for Transmission Line Modeling. In: Power Engineering Society Summer Meeting. USA, vol. 2, pp. 786–791 (1999)

39.

Marti, L.: Simulation of transients in underground cables with frequency dependent modal transformation matrices. IEEE Trans. Power Deliv. 3(3), 1099–1110 (1988)CrossRef

40.

Marti. L.: Simulation of electromagnetic transients in underground cables using the EMTP. In: IEE Second International Conference on Advances in Power System Control, Operation and Management. Hong Kong, pp.147–152 (1993)

Title: Improved Distance Relaying for Double-Circuit Lines Using Adaptive Neuro-Fuzzy Inference System
Authors: Tamer A. Kawady
Gamal M. Sowilam
Raed Shalwala
Publication date: 29-01-2020
Publisher: Springer Berlin Heidelberg
Published in: Arabian Journal for Science and Engineering / Issue 3/2020
Print ISSN: 2193-567X
Electronic ISSN: 2191-4281
DOI: https://doi.org/10.1007/s13369-020-04369-x

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