Tongji University | China
Mr. Yuxin Zhang is a postgraduate student at Tongji University, specializing in Energy and Power with a focus on refrigeration and high-temperature heat pump systems. His academic journey is centered on advancing sustainable thermal energy technologies, particularly in the context of rail vehicle air-conditioning. Zhang has contributed significantly to the replacement of traditional refrigerants with low-GWP refrigerant mixtures, addressing both environmental and energy efficiency challenges. His research has been published in Energies, a leading SCI-indexed journal, with over 1 citations, an h-index of 1, and multiple supporting documents available through his publication record. Building on this foundation, he has applied for two invention patents related to energy-efficient refrigeration and heating systems. His collaborations with the Shanghai Refrigeration Society and industry-based projects highlight his applied research experience and commitment to bridging academic innovation with industrial implementation. Zhang’s interests span refrigeration cycles, high-temperature heat pump technologies, and sustainable cooling solutions, reflecting his dedication to green energy transitions. Recognized for his early yet impactful contributions, he has actively participated in research addressing climate-friendly alternatives in thermal management. With a growing publication profile and strong research outputs, he aspires to advance innovation in refrigeration engineering and contribute meaningfully to global sustainability goals.
Featured Publications
Zhang, Y., Cao, S., Zhao, L., & Cao, J. (2022). A case application of WRF-UCM models to the simulation of urban wind speed profiles in a typhoon. Journal of Wind Engineering and Industrial Aerodynamics, 220, 104874.
Liu, C., Zhang, Y., Yao, Y., & Huang, Y. (2019). Calculation method for flexural capacity of high strain-hardening ultra-high performance concrete T-beams. Structural Concrete, 20(1), 405–419.
Zhang, Y., Cao, S., & Cao, J. (2022). An improved consistent inflow turbulence generator for LES evaluation of wind effects on buildings. Building and Environment, 223, 109459.
Zhang, Y., Cao, S., Cao, J., & Wang, J. (2023). Effects of turbulence intensity and integral length scale on the surface pressure on a rectangular 5:1 cylinder. Journal of Wind Engineering and Industrial Aerodynamics, 236, 105406.
Zhang, Y., Cao, S., & Cao, J. (2023). Implementation of an embedded LES model with parameter assessment for predicting surface pressure and surrounding flow of an isolated building. Journal of Wind Engineering and Industrial Aerodynamics. Advance online publication.