Research objectives

Cross-scale non-equilibrium transport phenomena are common fundamental issues in the fields of energy, environment, chemicals, materials, etc., and are also common scientific issues of major national needs such as clean and efficient use of energy, new energy development, and aerospace. Focusing on the frontier direction of cross-scale non-equilibrium transport, the team studies the scale correlation and multi-field coupling mechanism of transport process from the micro-energy particle level to construct a theoretical model of trans-scale transport, and design efficient and reliable prediction and analysis method, and application to cross-scale multi-phase seepage in geological storage and utilization of greenhouse gases, interface phenomena in new energy storage conversion devices, cross-scale heat transfer in new materials, detection of particulate matter in atmospheric environment, unbalanced aerodynamics of aircraft , electronic device packaging and thermal management and other technical fields.

Research direction

(1) Mesoscopic physical models and numerical methods for trans-scale transport;

(2) Multi-scale heat transfer and thermal management techniques;

(3) Micro-nano scale molecular dynamics simulation and energy storage technology development;

(4) Hypersonic flow theory and calculation.

Team members