Dr. C. (Chunjun) Huang
Dr. C. (Chunjun) Huang
Profiel
Publicaties
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C. Huang, Y. Zong, S. You and C. Træholt, “Analytical Modeling and Control of Grid-Scale Alkaline Electrolyzer Plant for Frequency Support in Wind-Dominated Electricity-Hydrogen Systems", IEEE Transactions on Sustainable Energy, vol. 14, no. 1, pp. 217-232, Jan. 2023.
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C. Huang, G. Strbac, et al., “Modeling and optimal operation of reversible solid oxide cell concerning heat recovery and mode switching dynamics in microgrids", Applied Energy, vol. 357, p. 122477, 2023.
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C. Huang, Y. Zong, S. You, and C. Træholt, et al., “Economic and resilient operation of hydrogen-based microgrids: An improved MPC-based optimal scheduling scheme considering security constraints of hydrogen facilities”, Applied Energy, vol. 335, p. 120762, 2023.
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C. Huang, Y. Zong, S. You, C. Træholt, “Economic model predictive control for multi-energy system considering hydrogen-thermal-electric dynamics and waste heat recovery of MW-level alkaline electrolyzer ”, Energy Conversion and Management,” vol. 265, p. 115697, 2022.
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C. Huang, X. Jin, Y. Zong, S. You, C. Træholt, Y. Zheng, “Operational flexibility analysis of alkaline electrolyzers integrated with a temperature-stabilizing control”, Energy Reports, vol. 9, pp. 16-20, 2023.
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C. Huang, Y. Zong, S. You, C. Træholt, J. E. Thorsen, L. F. S. Larsen, “Economical heat recovery dynamic control and business model for supermarket refrigeration system coupled with district heating system”, Sustainable Energy, Grids and Networks, vol. 32, p. 100800, 2022.
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Y. Zheng, C. Huang*, J. Tan, S. You, Y. Zong, and C. Træholt, “Off-grid Wind/hydrogen Systems with Multi-electrolyzers: Optimized Operational Strategies”, Energy Conversion and Management. vol. 295, p. 117622, 2023.
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Y. Zheng, C. Huang*, S. You, Y. Zong, “Economic evaluation of a power-to-hydrogen system providing frequency regulation reserves: a case study of Denmark”, International Journal of Hydrogen Energy, vol. 48, 2023.
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C. Huang, Y. Zong, S. You, C. Træholt, Z. Zheng and Q. Xie, “Cooperative Control of Wind-HydrogenSMES Hybrid Systems for Fault-Ride-Through Improvement and Power Smoothing”, IEEE Transactions on Applied Superconductivity, vol. 31, no. 8, Nov. 2021, Art no. 5402907.
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C. Huang, Z. Zheng, X. Xiao, X. Chen, “Enhancing low-voltage ride-through capability of PMSG based on cost-effective fault current limiter and modified WTG control”, Electric Power Systems Research, vol. 185, p. 106358, 2020.
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C. Huang, Z. Zheng, X. Xiao, X. Chen, “Cooperative strategy of SMES device and modified control for cost-effective fault ride-through enhancement and power smoothing of 10 MW class superconducting wind turbine ”, Journal of Renewable and Sustainable Energy, vol.12, 2020, 033302.
More detailed publications can be found in my Google Scholar
Biography
Ik heb de B.S. en M.S. behaald in elektrotechniek aan de Universiteit van Sichuan, Chengdu, China, respectievelijk in 2017 en 2020, en de Ph.D. graad in wind- en energiesystemen van de Technische Universiteit van Denemarken (DTU), Denemarken. Momenteel ben ik postdoctoraal onderzoeker aan de Technische Universiteit Delft (TU Delft). Mijn onderzoeksinteresses omvatten offshore wind-waterstofhub, power to hydrogen, geavanceerde besturing van hernieuwbare energiesystemen en operationele optimalisatie van geïntegreerde energiesystemen.
Expertise
- Modellering en besturing van offshore wind-waterstofhub
- Power to hydrogen integratie van hernieuwbare energiesystemen
- Frequentieregulatie van netten met lage traagheid
- Modelvoorspellende besturing
- Netdiensten voor elektriciteitsnetten
- Wiskundige optimalisatie van geïntegreerde energiesystemen
Nevenwerkzaamheden
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2024-06-01 - 2025-05-31