Pages that link to "Item:Q5032114"

The following pages link to Effects of pressure and fuel dilution on coflow laminar methane–air diffusion flames: A computational and experimental study (Q5032114):

Displaying 12 items.

• Investigation of the temperature and species distributions in co-flow methane-oxygen laminar diffusion flames (Q392915) (← links)
• Experimental and numerical study on the occurrence of off-stagnation peak in heat flux for laminar methane/air flame impinging on a flat surface (Q631159) (← links)
• A study of steady laminar diffusion flame over methanol pool surface (Q709018) (← links)
• Investigation of the dynamical response of methane/air counterflow flames to inflow mixture composition and flow field perturbations (Q839583) (← links)
• Finite differences study of ignition in a methane-air mixture flow. (Q1429507) (← links)
• Steady laminar flame characteristics over methanol surface with air co-flow (Q1678718) (← links)
• Numerical simulation of laminar co-flow methane–oxygen diffusion flames: effect of chemical kinetic mechanisms (Q3019746) (← links)
• Fuel pyrolysis and its effects on soot formation in non-premixed laminar jet flames of methane, propane, and DME (Q4615759) (← links)
• Modelling laminar diffusion flames using a fast convergence three-dimensional CVFEM code (Q5030775) (← links)
• A computational study of soot formation and flame structure of coflow laminar methane/air diffusion flames under microgravity and normal gravity (Q5073602) (← links)
• Effect of hydrogen addition on the consumption speed of lean premixed laminar methane flames exposed to combined strain and heat loss (Q6093165) (← links)
• An adaptive numerical method for simulating diffusion flame jets (Q6102928) (← links)