A5047750690- Combustion and flame dynamics
- Radiative Heat Transfer Studies
- Advanced Thermoelectric Materials and Devices
- Fire dynamics and safety research
- Thermal Radiation and Cooling Technologies
- Thermal properties of materials
- Thermochemical Biomass Conversion Processes
- Heat Transfer and Optimization
- Gas Dynamics and Kinetic Theory
- Heat and Mass Transfer in Porous Media
- Advanced Thermodynamics and Statistical Mechanics
- Advanced Combustion Engine Technologies
- Coal Combustion and Slurry Processing
Wuhan University of Science and Technology
2018-2023
The development of the oxy-fuel porous media combustion technique not only takes advantage characteristics combustion, such as a relatively low lean-burn limit and small volume, but also dramatically facilitates carbon capture storage. In this paper, two-layer burner model is established, in which two-temperature equation adopted for calculation purposes. Differences behaviour between air-fuel conditions are compared. results show that difference physical properties CO2 air main reason...
Combustion in a porous medium can be beneficial for enhancing reaction rate and temperature uniformity. Therefore, considering the combination with oxy-fuel combustion address some shortcomings burners, cylindrical two-layer burner model is established based on OpenFOAM this paper. A two-temperature equation adopted simulation of heat transfer process. The CH4 skeletal kinetic mechanism complex chemistry integration OpenSMOKE++. Corresponding experimental methods were used complementary...
This study presents the idea of using a porous media burner to improve oxy-methane combustion reaction rate and broaden stability limit. Numerical studies on premixed CH4/O2/CO2 in two-layer medium two-dimensional symmetrical volume-average model with skeleton mechanism based OpenFOAM. The characteristics burners variable cross-sectional (VC) straight cylindrical (SC) structures were compared, including stable range, temperature field, thermal cycle efficiency, CO emissions. It is confirmed...
The development of the oxy-fuel porous media combustion technique not only takes advantage characteristics combustion, such as a relatively low lean-burn limit and small volume, but also dramatically facilitates carbon capture storage. In this paper, two-layer burner model is established, in which two-temperature equation adopted for calculation purposes. Differences behaviour between air-fuel conditions are compared. results show that difference physical properties CO 2 air main reason...
Combustion in a porous medium can be beneficial for enhancing reaction rate and temperature uniformity. Therefore, considering the combination with oxy-fuel combustion address some shortcomings burners. In this paper, two-layer burner model is established based on OpenFOAM. A two-temperature equation adopted simulation of heat transfer process. The CH 4 skeletal kinetic mechanism complex chemistry integration OpenSMOKE++. Corresponding experimental methods were used complementary studies....