Lijuan He | Synthetic Fibers | Best Researcher Award Published on 16/09/2025 by Fiber-Reinforced Polymer Prof. Lijuan He | Synthetic Fibers | Best Researcher Award Professor, University Of Science and Technology Of The Inner Mongol, China Prof. He Lijuan is a distinguished Professor at the Inner Mongolia University of Science and Technology with a strong academic and research background in refrigeration and cryogenic engineering. She earned her Bachelor’s degree in HVAC from Baotou Iron and Steel Institute in 1994, followed by a Master’s degree (2001) and PhD (2009) in Refrigeration and Cryogenic Engineering from Zhejiang University, and later completed postdoctoral research in Mechanical Engineering at University College London in 2015. Her career began as an engineer at Baotou Iron and Steel Co., Ltd. before moving into academia, where she progressed from Associate Professor (2009–2015) to Professor. She has taught undergraduate courses such as Heat Transfer, Professional English, and Refrigeration Technology for Air Conditioning, and graduate courses including Advanced Engineering Thermodynamics and Advanced Heat and Mass Transfer. Her research focuses on low-grade heat transfer and application technology, refrigeration and heat pump system optimization, and refrigerant replacement and recycling technology. Prof. He has authored over 52 indexed papers with 157 citations and an H-index of 6, and holds 14 invention patents and 17 utility model patents. She has received four provincial and ministerial awards, published a monograph, and actively contributes as an expert in multiple national and regional academic, innovation, and policy platforms. Recognized as Grassland Talent in 2019 and an Outstanding Communist Party member, she continues to play an influential role in advancing sustainable energy technologies while mentoring students and contributing to the academic community. Profile: Scopus Featured Publications He, L., Yang, W., Han, Y., et al. (2023). Vapor-liquid equilibrium experiment and prediction of excess property of new working pair CO₂-[BMP][Tf₂N] in absorption refrigeration system. International Journal of Refrigeration, 145, 407–416. He, L., Sun, N. Y., Han, Y. Z., Yang, W. X., & Huang, J. H. (2022). Experimental investigation on the effect of equipment structure on refrigeration performance of combined magnetic refrigeration system. Thermal Science, 26(5B), 1–11. He, L., Wang, S., Liu, S., & Wu, X. (2019). Numerical and experimental evaluation of the performance of a couple vapor absorption-compression refrigeration configuration. International Journal of Refrigeration, 99, 429–439. He, L., Tang, L., & Chen, G. M. (2009). Performance prediction of refrigerant-DMF solutions in a single-stage solar-powered absorption refrigeration system at low generating temperatures. Solar Energy, 83, 2029–2038. He, L., Chen, G., & Cui, X. (2008). Vapor-liquid equilibria for R22 + N,N-dimethylformamide system at temperatures from 283.15 to 363.15 K. Fluid Phase Equilibria, 266, 84–89.
Prof. He Lijuan is a distinguished Professor at the Inner Mongolia University of Science and Technology with a strong academic and research background in refrigeration and cryogenic engineering. She earned her Bachelor’s degree in HVAC from Baotou Iron and Steel Institute in 1994, followed by a Master’s degree (2001) and PhD (2009) in Refrigeration and Cryogenic Engineering from Zhejiang University, and later completed postdoctoral research in Mechanical Engineering at University College London in 2015. Her career began as an engineer at Baotou Iron and Steel Co., Ltd. before moving into academia, where she progressed from Associate Professor (2009–2015) to Professor. She has taught undergraduate courses such as Heat Transfer, Professional English, and Refrigeration Technology for Air Conditioning, and graduate courses including Advanced Engineering Thermodynamics and Advanced Heat and Mass Transfer. Her research focuses on low-grade heat transfer and application technology, refrigeration and heat pump system optimization, and refrigerant replacement and recycling technology. Prof. He has authored over 52 indexed papers with 157 citations and an H-index of 6, and holds 14 invention patents and 17 utility model patents. She has received four provincial and ministerial awards, published a monograph, and actively contributes as an expert in multiple national and regional academic, innovation, and policy platforms. Recognized as Grassland Talent in 2019 and an Outstanding Communist Party member, she continues to play an influential role in advancing sustainable energy technologies while mentoring students and contributing to the academic community. Profile: Scopus Featured Publications He, L., Yang, W., Han, Y., et al. (2023). Vapor-liquid equilibrium experiment and prediction of excess property of new working pair CO₂-[BMP][Tf₂N] in absorption refrigeration system. International Journal of Refrigeration, 145, 407–416. He, L., Sun, N. Y., Han, Y. Z., Yang, W. X., & Huang, J. H. (2022). Experimental investigation on the effect of equipment structure on refrigeration performance of combined magnetic refrigeration system. Thermal Science, 26(5B), 1–11. He, L., Wang, S., Liu, S., & Wu, X. (2019). Numerical and experimental evaluation of the performance of a couple vapor absorption-compression refrigeration configuration. International Journal of Refrigeration, 99, 429–439. He, L., Tang, L., & Chen, G. M. (2009). Performance prediction of refrigerant-DMF solutions in a single-stage solar-powered absorption refrigeration system at low generating temperatures. Solar Energy, 83, 2029–2038. He, L., Chen, G., & Cui, X. (2008). Vapor-liquid equilibria for R22 + N,N-dimethylformamide system at temperatures from 283.15 to 363.15 K. Fluid Phase Equilibria, 266, 84–89.