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Description Variation of a the axial temperature distribution and the flame location, b the temperature distribution on the outer surface of the reactor wall versus imposing the uniform and the fully developed...
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Maximum Arrhenius rate of various reactions in the meso-scale reactors; a along the axis, DR: 3 mm, the inlet velocity 3.5 ms−1, the equivalence ratio (ϕ): 1.79; b along the inner wall, DR: 3 mm,...
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Variation of the temperature versus the inlet velocity: a, c along the reactor axis, aDR = 5 mm, ϕ = 2.06, cDR = 3 mm, ϕ = 1.7, b, d on the outer surface of the reactor wall, bDR = 5 mm, ϕ = 2.06,...
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Variation of the temperature distribution along the axis (a, c) and the outer surface of the reactor wall (b, d) with the external radiative heat transfer coefficient on the (e, є): a, bDin = 5 mm,...
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Velocity contours near the step (0–30 mm from the inlet) in the meso-scale reactors a–c with 5 mm in the reactor inner diameter (DR) and the equivalence ratio of 2.06 and d–e 3 mm in the reactor...
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Distribution of OH mole fraction in a meso-scale reactor with 3 mm in the inner diameter: a along the axis, b along the inner wall, [hout, i (W(m2K)−1, uin: 4.6 m/s, ϕ = 1.7, e: 0.95, KW: 1 W(mK)−1]
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Maximum rate of various reactions in a meso-scale reactor with 5 mm inner diameter (DR) a along the axis, the inlet velocity 3.5 ms−1; b along the inner wall, the inlet velocity 3.5 ms−1; c along...
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Maximum rate of various reactions in a meso-scale reactor with 3 mm inner diameter (DR) a along the axis, the inlet velocity 4.6 ms−1; b along the inner wall, the inlet velocity 4.6 ms−1; c along...
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Comparison between the inlet velocity and the freely propagating flame speed (FPFS) in the meso-scale reactors
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Variation of the flame location versus the inlet velocity: aDR = 3 mm, ϕ = 1.79, bDR = 5 mm, cDR = 5 mm, ϕ = 2.06 [e: 0.95, KW: 1 W(mK)−1, hout: 20 W(m2K)−1]
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Physical characteristics of the flow, the mixture and the meso-scale reactor
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Variation of the temperature distribution along the axis (a, c) and the outer surface of the reactor wall (b, d) versus the external convective heat transfer coefficient [hout, h (W(m2K)−1]: a,...
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Descriptions of the flame status in a meso-scale reactor with 5 mm inner diameter and under various flow rates during the experimental studies [the equivalence ratio: 2.06, flow rates: 0.8 SLM (3.5...
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Variation in mass-weighted average of heat release rate in the studied meso-scale reactors by changing the reactor diameter, inlet velocity, and equivalence ratio
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Variation of the temperature versus equivalence ratio at uin = 3.5 m/s a, cDR: 5 mm, b, dDR: 3 mm [e: 0.95, Kw: 1 W(mK)−1, hout: 20 W(m2K)−1]
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Modeled physical domain and the generated computational grid based on reactors which were already reported in Baigmohammadi et al. (2015a, b) (all dimensions are in mm)
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering -
Description Validation of the numerical results with the experimental results (E, experimental results (Baigmohammadi et al. 2015a); N, numerical results)
Article Title: Numerical Study of Methane–Oxygen Premixed Flame Characteristics in Non-adiabatic Cylindrical Meso-Scale Reactors with the Backward-Facing Step
Publication Title: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering
Displaying all 17 assets.