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El-Zohri, E., Abdel-Salam, M., Shafey, H., Ahmed, A. (2012). MATHEMATICAL MODELING OF FIRE-INDUCED FLASHOVER DUE TO DEPOSITION OF SOOT PARTICLES ON SUSPENSION INSULATORS OF A HVTL. JES. Journal of Engineering Sciences, 40(No 2), 433-455. doi: 10.21608/jesaun.2012.113136
Emad H. El-Zohri; M. Abdel-Salam; Hamdy M. Shafey; A. Ahmed. "MATHEMATICAL MODELING OF FIRE-INDUCED FLASHOVER DUE TO DEPOSITION OF SOOT PARTICLES ON SUSPENSION INSULATORS OF A HVTL". JES. Journal of Engineering Sciences, 40, No 2, 2012, 433-455. doi: 10.21608/jesaun.2012.113136
El-Zohri, E., Abdel-Salam, M., Shafey, H., Ahmed, A. (2012). 'MATHEMATICAL MODELING OF FIRE-INDUCED FLASHOVER DUE TO DEPOSITION OF SOOT PARTICLES ON SUSPENSION INSULATORS OF A HVTL', JES. Journal of Engineering Sciences, 40(No 2), pp. 433-455. doi: 10.21608/jesaun.2012.113136
El-Zohri, E., Abdel-Salam, M., Shafey, H., Ahmed, A. MATHEMATICAL MODELING OF FIRE-INDUCED FLASHOVER DUE TO DEPOSITION OF SOOT PARTICLES ON SUSPENSION INSULATORS OF A HVTL. JES. Journal of Engineering Sciences, 2012; 40(No 2): 433-455. doi: 10.21608/jesaun.2012.113136

MATHEMATICAL MODELING OF FIRE-INDUCED FLASHOVER DUE TO DEPOSITION OF SOOT PARTICLES ON SUSPENSION INSULATORS OF A HVTL

Article 9, Volume 40, No 2, March and April 2012, Page 433-455  XML PDF (589.73 K)
Document Type: Research Paper
DOI: 10.21608/jesaun.2012.113136
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Authors
Emad H. El-Zohri email 1; M. Abdel-Salam2; Hamdy M. Shafey3; A. Ahmed2
1Electrical Engineering Department, Faculty of Industrial Education, Sohag University, Sohag, Egypt
2Electrical Engineering Department, Faculty of Engineering, Assiut University, Assiut, Egypt
3Mechanical Engineering Department, Faculty of Engineering, Assiut University, Assiut, Egypt
Abstract
This paper presents a mathematical integrated model that simulates the coupled events causing flashover due to the deposition of soot particles on suspension insulators of high voltage transmission lines (HVTL). The model considers non-steady three-dimensional multi-phase flow of agricultural fire producing the soot particles. In addition, the model describes in detail the mechanism of the soot deposition combined with the developing of the electric field. The model equations are simultaneously solved using an iterative finite-volume numerical technique together with the indirect boundary element and charge simulation methods. The model validity and accuracy are verified through the discussion of the results for a representative case study of a 15 kV cap-and-pin insulator string. The discussion includes a comparison of the present numerical predictions for characteristics of the deposited soot layer, electric field distribution, and characteristics of flashover occurrence, with the available results in the literature.
Keywords
Mathematical model; Agricultural fires modeling; Soot deposition; and Fire-induced flashover
Main Subjects
Mechanical, Power, Production, Design and Mechatronics Engineering.
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