Yu Dunxi

Professor

（+86）27-87545526

yudunxi@hust.edu.cn

Academic Areas: Thermal engineering

Research Interests: Sustainable Utilization of Carbonaceous Fuels, Particulate Formation and Control during Combustion, Hydrogen Production and Utilization, Development and Application of Advanced Energy Materials

Academic Degrees

PhD, 2007, School of Energy and Power Engineering, Huazhong University of Science and Technology, Wuhan, China;

Master, 2002, School of Energy and Power Engineering, Huazhong University of Science and Technology, Wuhan, China;

Bachelor, 1999, School of Energy and Power Engineering, Huazhong University of Science and Technology, Wuhan, China.

Professional Experience

Professor (2013-present); School of Energy and Power Engineering, Huazhong University of Science and Technology;

Associate Professor (2007-2013); School of Energy and Power Engineering, Huazhong University of Science and Technology;

Lecturer (2004-2007); School of Energy and Power Engineering, Huazhong University of Science and Technology.

Selected Publications

• [1]     Wang,      Z., Huang, P., Xie, Y., et al. Performance of elemental mercury removal by      activated char prepared from high-chlorine Turpan-Hami coal. Fuel. 2022,      307.

• [2]     Yu,      X., Yu, D., Yu, G., et al. Temperature-resolved evolution and speciation      of sulfur during pyrolysis of a high-sulfur petroleum coke. Fuel. 2021,      295.

• [3]     Yu,      X., Yu, D., Liu, F., et al. High-temperature pyrolysis of petroleum coke      and its correlation to in-situ char-CO2 gasification reactivity.      Proceedings of the Combustion Institute. 2021, 38(3): 3995-4003.

• [4]     Yu,      D., Yu, X., Wu, J., et al. A Comprehensive Review of Ash Issues in Oxyfuel      Combustion of Coal and Biomass: Mineral Matter Transformation, Ash      Formation, and Deposition. Energy & Fuels. 2021, 35(21): 17241-17260.

• [5]     Wu,      J., Yu, D., Yu, X., et al. High-temperature transformation of pyrite in      CO2: Effects of residence time and the presence of O-2. Proceedings of the      Combustion Institute. 2021, 38(4): 5493-5500.

• [6]     Lou,      C., Pu, Y., Zhao, Y., et al. An in-situ method for time-resolved sodium      release behaviour during coal combustion and its application in industrial      coal-fired boilers. Proceedings of the Combustion Institute. 2021, 38(3):      4199-4206.

• [7]     Liu,      F., Yu, G., Yu, D., et al. Calcium catalytic behavior during in-situ      gasification of different aged coal chars in CO2 and steam. Fuel. 2021,      287.

• [8]     Han,      J., Yu, D., Wu, J., et al. Co-firing raw and torrefied rice husk with a      high-Na/Ca/Cl coal: Impacts on fine particulates emission and elemental      partitioning. Fuel. 2021, 292.

• [9]     Chen,      S., Cheng, M., Xu, J., et al. Numerical Analysis on Reduction of Ultrafine      Particulate Matter by a Kaolin Additive during Pulverized Coal Combustion.      Energy & Fuels. 2021, 35(11): 9538-9549.

• [10]   Yu,      G., Yu, D., Liu, F., et al. Different impacts of magnesium on the      catalytic activity of exchangeable calcium in coal gasification with CO2      and steam. Fuel. 2020, 266.

• [11]   Xiong,      Z., Gao, Y., Li, X., et al. A novel CO2-water leaching method for AAEM      removal from coal: Suppression of PM formation and release during Zhundong      coal combustion. Fuel. 2020, 271.

• [12]   Wu,      J., Wang, Y., Han, J., et al. Ash Formation and Deposition in Oxy-fuel      Combustion of Rice Husk, Coal, and Their Blend with 70% Inlet O-2. Energy      & Fuels. 2020, 34(1): 890-899.

• [13]   Dai,      B., Wu, X., Zhang, J., et al. Characteristics of iron and sulphur in      high-ash lignite (Pakistani lignite) and their influence on long-term T23      tube corrosion under super-critical coal-fired boiler conditions. Fuel.      2020, 264.

• [14]   Yu,      G., Yu, D., Liu, F., et al. Different catalytic action of ion-exchanged      calcium in steam and CO2 gasification and its effects on the evolution of      char structure and reactivity. Fuel. 2019, 254.

• [15]   Wu,      J., Yu, D., Zeng, X., et al. Impacts of CO2 on the pyrite-kaolinite      interaction and the product sintering strength. Proceedings of the      Combustion Institute. 2019, 37(4): 4479-4486.

• [16]   Wang,      Y., Wu, J., Li, X., et al. Ash aerosol partitioning and ash deposition      during the combustion of petroleum coke/natural gas mixtures. Fuel. 2019,      256.

• [17]   Wang,      Y., Wu, J., Li, X., et al. Comparison Study of Ash Partitioning and      Deposition Behavior between Two Rice Husk Fuels under a 100 kW Combustor.      Energy & Fuels. 2019, 33(11): 11968-11975.

• [18]   Li,      C., Wen, C., Wang, W., et al. Reduction effect of co-firing of torrefied      straw and bituminous coal on PM1 emission under both air and oxyfuel      atmosphere. Proceedings of the Combustion Institute. 2019, 37(3):      2723-2731.

• [19]   Ja'baz,      I., Jiao, F., Wu, X., et al. Kinetic Study of Long-Term T23 Tube Corrosion      upon Low-Rank Coal Ash Deposition under Oxy-Fuel Combustion Conditions.      Energy & Fuels. 2019, 33(10): 10209-10217.

• [20]   Han,      J., Yu, D., Yu, X., et al. Effect of the torrefaction on the emission of      PM10 from combustion of rice husk and its blends with a lignite.      Proceedings of the Combustion Institute. 2019, 37(3): 2733-2740.

• [21]   Han,      J., Yu, D., Wu, J., et al. Fine Ash Formation and Slagging Deposition      during Combustion of Silicon-Rich Biomasses and Their Blends with a      Low-Rank Coal. Energy & Fuels. 2019, 33(7): 5875-5882.

• [22]   Fan,      B., Yu, D., Zeng, X., et al. Occurrence of Calcium and Magnesium in the      Ash from Zhundong Coal Combustion: Emphasis on Their Close Juxtaposition.      Energy & Fuels. 2019, 33(3): 2556-2564.

Awards:

2020 Selected into “Ten Thousand Talents Program”

2020 Selected into “Innovative Talents Promotion Plan”

2016 Natural Science Award in Hubei Province (First Prize)

2007 Natural Science Award in Hubei Province (Second Prize)

2011 New Century Excellent Talents in University of China

Courses Taught

Fundaments of Thermodynamics and Heat Transfer

An Introduction to Energy and Power Engineering

Carbon Capture, Utilization and Storage

Fundaments of Combustion

Advanced Combustion

Projects

1. National Key Research and Development Program of China: 2016YFB0600600, Control technologies for PM2.5 and Hg from coal combustion, 2016/07—2020/12

2. National Natural Science Foundation of China：51676075, Effects of co-firing coal with torrefied biomass on ash formation, deposition and corrosion, 2016/01—2020/12

3. National Natural Science Foundation of China：51376071, Kinetics and modeling of pyrite transformation under conditions of oxy-fuel combustion with flue gas recirculation, 2014/01—2017/12

4.  National Natural Science Foundation of China：51076051, Coal ash properties and their effects on ash deposition during oxy-fuel combustion with flue gas recirculation, 2011/01—2013/12

5.   National Natural Science Foundation of China：51111120244, Mechanisms of ash carbonation under conditions of O2/CO2 combustion, 2011/07—2017/12

6.   National Natural Science Foundation of China：50706013, Quantitative characterization of microscopic structure and morphology of high-temperature coal chars and their effects on combustion, 2008/01—2010/12