Publications by Jianping Wang
Peer reviewed
Articles
[1]
M. T. Hoq, J. Wang and N. Taylor, "An Incremental Quantity Based Distance Protection with Capacitor Voltage Estimation for Series Compensated Transmission Lines," IEEE Access, vol. 9, pp. 164493-164502, 2021.
[2]
M. T. Hoq, J. Wang and N. Taylor, "Review of recent developments in distance protection of series capacitor compensated lines," Electric power systems research, vol. 190, 2021.
Conference papers
[3]
M. T. Hoq, J. Wang and N. Taylor, "An Incremental Quantity Based Protection with Capacitor Voltage Estimation for Mid-Line Series Compensation," in 16th International Conference on Developments in Power System Protection (DPSP), Newcastle, United Kingdom, January 2022., 2022.
[4]
M. T. Hoq, J. Wang and N. Taylor, "Impact of High Levels of Series Compensation on Line Distance Protection," in IET Conference Publications, 2020.
[5]
M. T. Hoq, J. Wang and N. Taylor, "The Impact of Current Inversion on Line Protection in High Voltage Transmission Lines with Series Compensation," in The Conference on Energy, Power Systems and Power- and Industrial Electronics (NORPIE), Narvik, Norway, 25-27 September 2019, 2019.
[6]
F. Hohn, J. Wang and L. Nordström, "Design of a Distributed Signal Processing Unit for Transmission Line Protection in a Centralized Substation Protection Architecture," in IECON 2018 - 44th Annual Conference of the IEEE Industrial Electronics Society, 2018, pp. 138-144.
Non-peer reviewed
Other
[7]
M. T. Hoq, J. Wang and N. Taylor, "Assessing Distance Protection Methods for Series Compensated Transmission Lines," (Manuscript).
[8]
M. T. Hoq, J. Wang and N. Taylor, "Distance Protection of Series Compensated Transmission Line using Lissajous Curves and Conic Section General Equation," (Manuscript).
[9]
M. T. Hoq, J. Wang and N. Taylor, "Time Domain Distance Protection for Series Compensated Transmission Lines Using RL and RLC Line Models," (Manuscript).
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2024-12-08 02:47:50