Lecturer
Email:tuyaojie@hust.edu.cn
Academic areas:Thermal and power engineering
Research interests:Low-NOx combustion technology, combustion noise and vibration, hydrogen energy utilization
Academic Degrees
PhD, 2016, School of Energy and Power Engineering, Huazhong University of Science and Technology, Wuhan, China;
Master, 2013, School of Energy and Power Engineering, Huazhong University of Science and Technology, Wuhan, China;
Bachelor, 2011, School of Energy and Power Engineering, Huazhong University of Science and Technology, Wuhan, China.
Professional Experience
Lecturer (2019-present); School of Energy and Power Engineering, Huazhong University of Science and Technology;
Research fellow (2016-2019); Department of Mechanical Engineering, National University of Singapore.
Selected Publications
·1. M Xu, Y Tu*, G Zeng, W Yang. "Evaluation of ignition process and NOx reduction of coal under moderate and intensive low-oxygen dilution combustion by implementing fuel-rich/lean technology." Fuel 296 (2021): 120657.
·2. Y Tu*, S Xu, M Xie, Z Wang, H Liu. "Numerical simulation of propane MILD combustion in a lab-scale cylindrical furnace." Fuel 290 (2021): 119858.
·3. M Xie, F Dai, Y Tu*. "A numerical study of accelerated moderate or intense low-oxygen dilution (MILD) combustion stability for methane in a lab-scale furnace by off-stoichiometric combustion technology." Chinese Journal of Chemical Engineering 32 (2021): 108-118.
·4. S Xu, Y Xie, P Huang, H Ren, Y Tu*, H Liu*. "Nonpremixed Air/Oxygen Jet Burner to Improve Moderate or Intense Low-Oxygen Dilution Combustion Characteristics in Oxygen-Enriched Conditions." Energy & Fuels 35 (2021): 9609-9622.
·5. Z Wang, P Huang, Y Xie, J Ning, Y Tu, H Liu, D Yu. "Performance of elemental mercury removal by activated char prepared from high-chlorine Turpan-Hami coal." Fuel 307 (2022): 121817.
Courses Taught
Automation of large-scale power sectors (under-graduate student)
Principle of steam turbine (under-graduate student)
Numerical simulation of combustion process (graduate student)
Project
National Natural Science Foundation of China:52006077, Study on the competitive consumption mechanism between oxidation and pyrolysis in NH3 flameless combustion, 2021/01—2023/12