创建: Mar 13, 2018 | 11:41
介绍
The construction of Tsinghua University Free-fall Facility (TUFF) has completed in 2019. TUFF locates at the Lee Shau Kee Building of Tsinghua University. It allows for a 2.3-s free fall such that a wide range of fluid and combustion problems can be studied. The experimental data from microgravity experiments can be used in validating theoretical models and assisting development of space-based engineering database in the area of fuel storage and fire safety. 
创建: Apr 28, 2019 | 12:10
介绍
The Tsinghua-UTokyo collaborative project- FIAVAW, solicitated by the UN Office of Outer Space Affairs for the China Space Station experiments, has moved into the implementation scheme phase. While the primary investigators from both Tsinghua (Yu Cheng Liu, PI) and UTokyo (Shinji Nakaya. co-PI) have prior experiences with space station experiments, the joint team takes initiative to understand the flame oscillation with minimal gravity effects using special optical techniqes and image analysis. The project includes ground-based and space-based experiments as well as detailed numerical simulation and theory development.
创建: Dec 29, 2021 | 10:15
介绍
This project is supported by the National Key Research and Development Program of China under grant number 2021YFA0716201 and monitored by High Technology Research and Development Center (HTRDC). Objectives include experimentally obtaining laminar combustion behaviors of zero-carbon and low-carbon fuels using microgravity facilities for utilizing new generation of energy. Droplet-wall interaction with liquid-liquid reactions as well as single and group combustion of complex fuel mixtures will be investigated under microgravity conditions.
创建: Dec 29, 2021 | 10:22
介绍
This project is supported by the National Natural Science Foundation of China (NSFC) under grant No. 52076117 as a full extention of our previous NSFC project for functional-group-based modelling apprach for distillation and droplet vaporization of complex fuels. It is expected that the transport, vapor-liquid phase equilibrium of non-ideal liquid mixtures and combustion chemical kinetics are modelled under the same framework of quasi-discrete approach. The project targets at models with much less cost but still remain the most important information required for typical spray combustion modelling.
创建: Dec 29, 2021 | 10:28
介绍
This project is supported by the 921 Office of China Manned Space for designing and manufacturing the combustion science apparatus onboard the China Space Station. The project is co-led by Institute of Engineering Thermophysics of CAS and Tsinghua University, targeting at the next generation apparatus on space station that meets the need for combustion community.
