Development of dynamic monitoring model for blast furnace bottom erosion, ironmaking, 200 1.04, Vol.20, No.2,
Application of neural network in prediction of silicon content in hot metal of Meishan blast furnace, Iron and Steel, 200 1.05, Vol.50, No.5,
Action response of blast furnace smelting process, Journal of Anhui University of Technology, 200 1.06, Vol. 19, No.3.
Development and application of continuous analysis system for blast furnace top gas, Iron and Steel, 2004, Volume 39, No.6.
Basic research on coke degradation in oxygen-enriched and high-hydrogen blast furnace, iron and steel research, vol. 2005 12, No.3.
Feasibility of a new technology of mixed injection of pulverized coal and hydrogen-rich fuel into blast furnace, iron and steel research, June 2009, P 13- 16.
Study on injecting natural gas and pulverized coal into blast furnace in pure oxygen environment, HT2008ASME Summer Heat Transfer Conference: 200808 10- 14; 200808 10- 14; Jacksonville, Florida (USA); Jacksonville, Florida (USA)
Study on combustion behavior of pulverized coal and waste tires by TG-FTIR, 20 10 Asia-Pacific power and energy engineering conference, March 28-3 1 0, 20 10, Chengdu, China.
Formation of dioxins in sintering process and its emission reduction methods. 20 10 national annual conference on ironmaking, 20 10, Beijing.
The invention patent (ZL03 13 1995.5), an iron-making process of pure oxygen blast furnace with high efficiency and low CO2 emission, was granted on August 24th, 2005.