Recently, the National Natural Science Foundation of China announced the results of the 2020 National Natural Science Foundation project evaluation. Professor Liao Qianginour institute led the groupofMulti-reverse Flow Transmission And Transformation Control was successfully selectedasthe National Natural Science Foundation of China innovation research group. It is 6 years since the last time for CQU to obtain the National Natural Science Foundation innovation research group project, which is our school's long-term adherence to multidisciplinary cross-cutting research crystallization.
The group of Multi-reverse Flow Transmissionand Transformation Control relies on our hospital engineering thermophysics national key disciplines, power engineering and engineering thermophysics first-level doctoral authorization point, joint chemical college chemical process strengthening and reaction to the national local joint engineering laboratory and bioengineering college bioflow science and technology facing the country's major strategic needs,long-term around the energy efficient clean transformation and utilization of the opposite should flow transfer and transformation control of the key thermophysical basic scientific issues and application technology issues, through multidisciplinary cross-cutting, committed to multi-phase flow heat transfer strengthening and regulation, multi-phase chemical reaction flow transfer regulation and multi-phase biological transformation process strengthening and other aspects of cross-cutting and applied basic research,bothat home and abroad. The academic leaders of this group areprofessor Liao Qiang,dean of our Institute, and the core members include not onlyprofessor Zhu Xun, rofessor Li Jun andprofessor ChenRongof our institute, but alsoprofessor Wei Zidong of School of Chemical and Chemical Engineering andprofessor Cai Kaiyong of the School of Bioengineering.
Established in 2000, the National Natural Science Foundation of China's Innovation Research Group Project aims to support outstanding young and middle-aged scientists as academic leaders and research backbones, to cooperate in innovative research around an important research direction, to train and cultivate research groups that occupy a place in the forefront of international science, and is currently China's most influential academic and most competitive talent planning project.
Under the careful guidance of the school leaders and the full support of theacademy and other relevant departments, the members of the group attach great importance to the organization of the declaration of innovative groups, around the major needs, organize scientific research forces several years in advance planning and repeated discussion and demonstration, and finally stand out in the fierce competition. The approval of this project marks that the academic advantages and characteristics of energy utilization and engineering thermophysics of our hospital have been fully affirmed. This group will further face the challenges of China's energy revolution and energy industry upgrading, carry out original research on multi-phase thermal strengthening and regulation theory under complex and extreme conditions, microscale multi-phase transmission and reaction regulation theory and technology, biomass multi-reaction process transfer regulation and directional transformation theory, natural biological system transmission and transformation process bionic theory and methods, and further lead the development of disciplines and achieve world-class scientific research results.