A numerical study of optimum normalized premixing length for turbulent partially premixed flame in a concentric flow conical nozzle burner /
Ahmed Said Hanafy Mhmoud
A numerical study of optimum normalized premixing length for turbulent partially premixed flame in a concentric flow conical nozzle burner / دراسة عددية لطول الخلط الأمثل للهب مضطرب مخلوط جزئيًا فى موقد الفوهة المخروطى ذو التدفق المركزى Ahmed Said Hanafy Mhmoud ; Supervised Hatem Omar Hariedy , Mohamed Fayed Zayed - Cairo : Ahmed Said Hanafy Mhmoud , 2021 - 53 P. : charts ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Mechanical Power Engineering
The current work involves a numerical studyto validate the numerical models to investigate the effects of the normalized premixing length (L/D) at a certain overall jet equivalence ratio (Ф) and a certain Reynolds number (Re) on the mixing field structure in a concentric flow burner.Also,involves finding the bestnormalized premixing length, L/D, in a concentric flow burner using validated numerical models.Finally, a numerical study of the partially premixed flame structure in a Concentric Flow Conical Nozzle (CFCN) burner by using numerical models,which included calculating the flame curvature and discussing the influence of equivalence ratio on the structure of the flameand finding the lowest value of the equivalence ratio at which the flame be sustainable. All numerical studies were carried out for air-natural gas mixture using ANSYS 2020 R2 Package
Conical nozzle burner Mixing field Partially premixed
A numerical study of optimum normalized premixing length for turbulent partially premixed flame in a concentric flow conical nozzle burner / دراسة عددية لطول الخلط الأمثل للهب مضطرب مخلوط جزئيًا فى موقد الفوهة المخروطى ذو التدفق المركزى Ahmed Said Hanafy Mhmoud ; Supervised Hatem Omar Hariedy , Mohamed Fayed Zayed - Cairo : Ahmed Said Hanafy Mhmoud , 2021 - 53 P. : charts ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Mechanical Power Engineering
The current work involves a numerical studyto validate the numerical models to investigate the effects of the normalized premixing length (L/D) at a certain overall jet equivalence ratio (Ф) and a certain Reynolds number (Re) on the mixing field structure in a concentric flow burner.Also,involves finding the bestnormalized premixing length, L/D, in a concentric flow burner using validated numerical models.Finally, a numerical study of the partially premixed flame structure in a Concentric Flow Conical Nozzle (CFCN) burner by using numerical models,which included calculating the flame curvature and discussing the influence of equivalence ratio on the structure of the flameand finding the lowest value of the equivalence ratio at which the flame be sustainable. All numerical studies were carried out for air-natural gas mixture using ANSYS 2020 R2 Package
Conical nozzle burner Mixing field Partially premixed