Li Xiaohong | |
---|---|
Native name | 李晓红 |
Born | June 1959 (age 57) Hechuan County, Chongqing, China |
Residence | Wuhan, China |
Citizenship | China |
Fields | mining engineering |
Institutions |
Chongqing University Wuhan University |
Alma mater | Chongqing University |
Notable awards | Member of Chinese Academy of Engineering (2011) |
Li Xiaohong (June 1959 - ) is a Chinese engineer and educator. He served as the president of Chongqing University from 2003 to 2010, and was appointed as the president of Wuhan University in 2010. In 2011, he was elected as a member of Chinese Academy of Engineering. As a researcher, Li's main interests are in the field of mining engineering. He made contributions to the development of water jet cutters in China, and established new equations about jet parameters and cutting effection, so the use of abrasive jet could be improved.
Li was born into a rural family; he once served as a commune cadre in 1975. In 1978, he entered the Mining Engineering Department, Chongqing University, and was appointed as the party secretary of the department after he graduated in 1982. From June 1989, he trained at UC Berkeley for 3 years. In 1993, he received his doctor's degree in engineering from Chongqing University. Then he served as a visiting scholar at UQ from March to August 1996. Li later served as the dean of College of Resources and Environmental Engineering, Chongqing University, from 1994 to 1998. He served as the president of Chongqing University from 2003 to 2010, and the president of Wuhan University from 2010.
Li began to develop Water Jet TBM Tunneling Machine when trained at UC Berkeley. There, he spent two years to make the machine capable of crushing stones which are extremely hard. He continued this research after he returned to Chongqing University. He finally developed a method of rock crushing, containing eroding coal rock with water jet, crack extension, washing away the debris, and cooling the cutting-tools.
Li and his colleagues studied the mechanism of abrasive mixing in self-oscillation flow, and measured its effects on main parameters, so they could develop the equations about jet parameters and cutting effection. Consequently, they could infer the relation between characteristics of wear particles and effect of cavitation in pulsed abrasive water jet. Based on this, they proposed a design standard of pulsed abrasive water jet nozzles.