LUO YAN头像

LUO YAN

Associate professor

Research direction: Multiphase Flow and Heat Transfer

Education:

  • Department: Mechanical and Electrical Engineering
  • ORCID:
  • DBLP:

10 Access

  • Email: luoyan@mail.buct.edu.cn
  • Office :
  • Introduction
  • Research
  • Teaching
  • Funding
  • Publications
  • Awards
  • Honor Reward
  • Admission

Introduction

I received a Bachelor's degree at North China Electric Power University in 2011. In 2015, I participated in a joint doctoral program at the University of Leeds, UK. In 2017, I obtained a PhD from the same university. That same year, I began working at Beijing University of Chemical Technology.

I have long been engaged in research in the field of engineering thermophysics. I have published more than 10 SCI papers as the first author or corresponding author. Additionally, I have led research projects funded by the National Natural Science Foundation of China (NSFC), including general and youth projects.

Education

Work Experience

Social Position

Social Activities

Research

Research on multiphase flow and heat transfer in energy systems such as nuclear and solar energy, and energy utilization technologies based on machine learning.

Teaching

Postgraduates

Funding

1、National Natural Science Foundation of China (NSFC) General Project, 52176052, Study on Quenching Boiling Characteristics and Mechanisms During Reflooding of Nuclear Fuel Rods, 2022/01-2025/12.

2、National Natural Science Foundation of China (NSFC) Youth Project, 51806009, Heat Transfer Characteristics and Thermal Stress Control Mechanism of Solar Absorbers under Alternating Heat Flux and Corrosion, 2019/01-2021/12.

Vertical Project

Horizontal Project

Publications

1. Luo Y., Wang Z., Zhu J., et al. Multi-objective robust optimization of a solar power tower plant under uncertainty[J]. Energy. 2022, 238: 121716. (SCI)

2. Xiong P, Lu T, Luo Y.*., et al. Study on liquid-vapor interface oscillation characteristics and heat transfer of film boiling during quenching of fuel cladding surfaces[J]. Applied Thermal Engineering, 2022: 119615. (SCI)

3. Luo Y., Li G., Wang Z., et al. Analysis of Temperature and Thermal Stress for a Solar Power Tower Molten Salt Receiver under Multi-Source Uncertainties[J]. Applied Sciences, 2022, 12(21): 10740. (SCI)

4. Luo Y., Li G., Lu T., et al. Analysis of thermal stress, fatigue life and allowable flux density for the molten salt receiver in solar power tower plants[J]. International Journal of Low-Carbon Technologies, 2022, 17: 1385-1398. (SCI)

5. Chu F.M., Gao Q.H., Li S., Yang G.*, Luo Y.*. Mass transfer characteristic of ammonia escape and energy penalty analysis in the regeneration process[J]. Applied Energy. 2020, 258: 113975. (SCI)

6. Luo Y., Lu T., Hu Y. Efficient optimized design of solar power tower plants based on successive response surface methodology [J]. International Journal of Low-Carbon Technologies. 2019, 14(4): 475-486. (SCI)

7. Luo Y., Lu T., Du X.Z. Novel optimization design strategy for solar power tower plants [J]. Energy Conversion and Management. 2018, 177: 682-692. (SCI)

8. Luo Y., Du X., Awad A., et al. Thermal energy storage enhancement of a binary molten salt via in-situ produced nanoparticles[J]. International Journal of Heat and Mass Transfer, 2017, 104: 658-664. (SCI)



Awards

Patent

Honor Reward

Admissions Information