![Xun Jiang](https://profiles-cardiff.imgix.net/attachments/6338?w=200&h=200&auto=format&crop=faces&fit=crop&q=90")
Publication
2025
- Xiao, J., Xue, L., Jiang, X., Wang, C., Liang, H. and Wang, K. 2025. The total accommodation capability curve for a distribution network considering N-1 criterion. Electric Power Systems Research 243, article number: 111508. (10.1016/j.epsr.2025.111508)
- Jiang, X., Zhou, Y., Wu, J. and Ming, W. 2025. Feasible operation region-based constraint management of distribution networks with soft open points. IEEE Transactions on Power Systems (10.1109/TPWRS.2024.3524743)
2024
- Jiang, X., Wang, Y., Zhou, Y., Ming, W. and Wu, J. 2024. Wide bandgap power electronic devices for constraint management in distribution networks. Presented at: 2024 IEEE Workshop on Wide Bandgap Power Devices and Applications in Europe (WiPDA Europe), Cardiff, United Kingdom, 16-18 September 20242024 IEEE Workshop on Wide Bandgap Power Devices and Applications in Europe (WiPDA Europe). IEEE pp. 1-6., (10.1109/WiPDAEurope62087.2024.10797241)
- Jiang, X. 2024. Feasible operation region of an electricity distribution network with SOPs. PhD Thesis, Cardiff University.
- Zu, G., Wang, Y., Jiang, X., Hao, Z. and Zhang, X. 2024. Total supply capability of electricity distribution networks considering flexible interconnection of low‐voltage service transformers. IET Smart Grid (10.1049/stg2.12157)
2023
- Xiao, J., Fan, Y. and Jiang, X. 2023. Decoupling and dimension reduction method for distribution system security region. IET Energy Systems Integration (10.1049/esi2.12105)
- Jiang, X., Zhou, Y., Ming, W. and Wu, J. 2023. Feasible operation region of an electricity distribution network. Applied Energy 331, article number: 120419. (10.1016/j.apenergy.2022.120419)
2022
- Jiang, X., Zhou, Y., Ming, W., Yang, P. and Wu, J. 2022. An overview of soft open points in electricity distribution networks. IEEE Transactions on Smart Grid 13(3), pp. 1899-1910. (10.1109/TSG.2022.3148599)
2021
- Jiang, X., Ming, W., Zhou, Y. and Wu, J. 2021. Optimal operation of soft open points to minimize energy curtailment of distributed generation in electricity distribution networks. Presented at: Applied Energy Symposium 2020, 10-17 October 2020Applied Energy Symposium 2020: Low Carbon Cities and Urban Energy Systems Part III, Vol. 14., (10.46855/energy-proceedings-7459)
- Jiang, X., Wu, J., Zhou, Y. and Ming, W. 2021. Feasible operation region of a distribution network considering thermal constraints. Presented at: 13th International Conference on Applied Energy (ICAE 2021), Bangkok, Thailand, 29 November - 02 December 2021Sustainable Energy Solutions for a Post-COVID Recovery towards a Better Future: Part IV, Vol. 21. Energy Proceedings
2020
- Xiao, J., Zu, G., Wang, Y., Zhang, X. and Jiang, X. 2020. Model and observation of dispatchable region for flexible distribution network. Applied Energy 261, article number: 114425. (10.1016/j.apenergy.2019.114425)
Articles
- Xiao, J., Xue, L., Jiang, X., Wang, C., Liang, H. and Wang, K. 2025. The total accommodation capability curve for a distribution network considering N-1 criterion. Electric Power Systems Research 243, article number: 111508. (10.1016/j.epsr.2025.111508)
- Jiang, X., Zhou, Y., Wu, J. and Ming, W. 2025. Feasible operation region-based constraint management of distribution networks with soft open points. IEEE Transactions on Power Systems (10.1109/TPWRS.2024.3524743)
- Zu, G., Wang, Y., Jiang, X., Hao, Z. and Zhang, X. 2024. Total supply capability of electricity distribution networks considering flexible interconnection of low‐voltage service transformers. IET Smart Grid (10.1049/stg2.12157)
- Xiao, J., Fan, Y. and Jiang, X. 2023. Decoupling and dimension reduction method for distribution system security region. IET Energy Systems Integration (10.1049/esi2.12105)
- Jiang, X., Zhou, Y., Ming, W. and Wu, J. 2023. Feasible operation region of an electricity distribution network. Applied Energy 331, article number: 120419. (10.1016/j.apenergy.2022.120419)
- Jiang, X., Zhou, Y., Ming, W., Yang, P. and Wu, J. 2022. An overview of soft open points in electricity distribution networks. IEEE Transactions on Smart Grid 13(3), pp. 1899-1910. (10.1109/TSG.2022.3148599)
- Xiao, J., Zu, G., Wang, Y., Zhang, X. and Jiang, X. 2020. Model and observation of dispatchable region for flexible distribution network. Applied Energy 261, article number: 114425. (10.1016/j.apenergy.2019.114425)
Conferences
- Jiang, X., Wang, Y., Zhou, Y., Ming, W. and Wu, J. 2024. Wide bandgap power electronic devices for constraint management in distribution networks. Presented at: 2024 IEEE Workshop on Wide Bandgap Power Devices and Applications in Europe (WiPDA Europe), Cardiff, United Kingdom, 16-18 September 20242024 IEEE Workshop on Wide Bandgap Power Devices and Applications in Europe (WiPDA Europe). IEEE pp. 1-6., (10.1109/WiPDAEurope62087.2024.10797241)
- Jiang, X., Ming, W., Zhou, Y. and Wu, J. 2021. Optimal operation of soft open points to minimize energy curtailment of distributed generation in electricity distribution networks. Presented at: Applied Energy Symposium 2020, 10-17 October 2020Applied Energy Symposium 2020: Low Carbon Cities and Urban Energy Systems Part III, Vol. 14., (10.46855/energy-proceedings-7459)
- Jiang, X., Wu, J., Zhou, Y. and Ming, W. 2021. Feasible operation region of a distribution network considering thermal constraints. Presented at: 13th International Conference on Applied Energy (ICAE 2021), Bangkok, Thailand, 29 November - 02 December 2021Sustainable Energy Solutions for a Post-COVID Recovery towards a Better Future: Part IV, Vol. 21. Energy Proceedings
Thesis
- Jiang, X. 2024. Feasible operation region of an electricity distribution network with SOPs. PhD Thesis, Cardiff University.
Research
My research interests lie in the modelling, operation and planning of smart electricity distribution networks to facilitate increasing integration of low carbon technologies, with the goal of achieving net zero carbon transition in electricity sector. I specialise in distribution networks with power electronics and a novel methodology termed as feasible operation region, in the context of rising uncertainties in power generation and demand, and inadequate real-time measurements in distribution networks.
Contact Details
JiangX28@cardiff.ac.uk
Queen's Buildings - East Building, Floor Second Floor, Room E/2.24, 5 The Parade, Newport Road, Cardiff, CF24 3AA
Queen's Buildings - East Building, Floor Second Floor, Room E/2.24, 5 The Parade, Newport Road, Cardiff, CF24 3AA