Doctorate at Institute of Electrical Engineering, Chinese Academy of Sciences, China
Qiran Liu is a promising researcher currently pursuing a Ph.D. in Electrical Engineering at the Institute of Electrical Engineering, Chinese Academy of Sciences. He holds a Bachelor’s degree in Electrical Engineering from China University of Petroleum. Liuโs research focuses on multi-energy coupling systems, renewable energy hydrogen production, and optimizing hydrogen-electric coupling systems.
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๐จโ๐ Academic and Professional Background
Dr. Qiran Liu was born in Jinan, Shandong Province, China, in 2000. He earned his Bachelor’s degree in Electrical Engineering from the China University of Petroleum (East China), Shandong, in 2022. Currently, he is pursuing a Ph.D. in Electrical Engineering at the Institute of Electrical Engineering, Chinese Academy of Sciences in Beijing. His research interests are focused on multi-energy coupling system control, renewable energy hydrogen production, and hydrogen-electric coupling system optimization.
๐ Research Focus
Qiranโs research explores a dual-layer optimization strategy for photovoltaic-storage-hydrogen systems in coal chemical industry parks. This work aims to enable the sustainable transformation of coal chemical processes by integrating renewable energy.
๐ง Innovations
Qiranโs recent study presents an innovative method to transform the coal chemical industry through renewable hydrogen production. He has developed an energy management scheme utilizing time-of-use electricity pricing, renewable energy generation, and load balancing to maximize daily income. Building on this model, he also created an annual revenue maximization optimization model, which takes into account investment and operational costs for photovoltaic, hydrogen production, hydrogen storage, and electricity storage systems. This model provides an optimal capacity configuration to maximize annual profitability.
๐ฑ Areas of Research
Carbon Reduction in Coal Chemical Industry: Focusing on practical methods to cut down carbon emissions by employing clean, renewable energy sources.
Energy Management: Developing strategies to optimize energy flow and resource allocation.
Capacity Optimization: Determining the ideal setup for different system components to achieve economic and environmental goals.
Hydrogen Production from Renewable Energy Sources: Advancing techniques to produce hydrogen sustainably, using solar and other renewable energies to minimize reliance on traditional, carbon-intensive methods.
Publications Top Noted๐ย
Research on dual-layer optimization strategy of photovoltaic-storage-hydrogen system in coal chemical industry park
Authors: Huo, Q., Liu, Q., Deng, H., Shi, C., Wei, T.
Journal: Renewable Energy
Year: 2024
Energy Optimal Dispatching of Ports Multi-Energy Integrated System Considering Optimal Carbon Flow
Authors: Wang, W., Huo, Q., Liu, Q., Zhu, J., Wei, T.
Journal: IEEE Transactions on Intelligent Transportation Systems
Year: 2024
Optimal Allocation of Photovoltaic-Storage-Hydrogen Capacity in Coal Chemical Industry Park
Authors: Huo, Q., Liu, Q., Deng, H., Shi, C., Wei, T.
Journal: 2023 5th Asia Energy and Electrical Engineering Symposium, AEEES 2023
Year: 2023
Research on coordinated control of flexible on-load voltage regulator and STATCOM
Authors: Liu, Q., Huo, Q., Yin, J., Sun, L., Wei, T.
Journal: Energy Reports
Year: 2022
Study on coordinated voltage regulation strategy of flexible on-load tap changer and distributed generator
Authors: Li, J., Huo, Q., Yin, J., Sun, L., Wei, T.
Journal: Energy Reports
Year: 2022