Dong Shoulong, male, PhD, University of Auckland, New Zealand, lecturer, School of Chemistry and Chemical Engineering, Beijing Institute of Technology, is committed to improving the automation and intelligence level of process industry, and has carried out research work in industrial measurement and control system design/development, process system modeling/simulation/optimization, intelligent carbon capture technology and other aspects. In recent years, he has presided over/participated in 2 vertical projects, 8 enterprise horizontal cooperation projects, and 1 international science and technology cooperation project. So far, he has published more than 30 academic papers in academic journals and conferences at home and abroad, of which more than 20 are included in SCI/EI.

His main research areas include on-line inspection and process control, process system modeling and simulation, carbon capture and utilization technology, intelligent instrument and embedded system development.

2016.02-2019.09 PhD in Chemical and Materials Engineering, University of Auckland, New Zealand
2000.09-2003.03 Beijing Institute of Technology, Master of Engineering in Control Theory and Control Engineering
1996.09-2000.07 Beijing Institute of Technology, Industrial Automation, Bachelor of Engineering

2005.07-present School of Chemistry and Chemical Engineering, Beijing Institute of Technology, Lecturer
2003.04-2005.06 Assistant Professor, School of Chemical Engineering and Environment, Beijing Institute of Technology

Explored the application of near-infrared spectroscopy analysis technology in the field of energetic materials, including single/double/triple base propellants, propellants, industrial explosives, etc., and conducted related chemometric algorithm research, achieving fast and accurate multi-component quantitative analysis, effectively improving product quality and production efficiency;
A thermal dynamic simulation testing system has been developed to meet the heat resistance testing requirements of composite materials/thermal barrier coatings in the aerospace field. It can achieve a maximum heat resistance test of 1200 ℃ according to the set temperature curve; We have developed a thermal ablation testing device based on a two axis sliding rail to verify the high-temperature interlayer matching of the heat-resistant coating< br> We have conducted a series of explorations in complex industrial system modeling and simulation, big data processing and data visualization, machine vision and intelligent applications, and accumulated rich experience, which can provide personalized solutions for specific application scenarios< br>