Sungcho Kim scite author profile

Numerical simulation to grasp the flame structure and NO emissions in a H 2 -air counterflow diffusion flame diluted with CO 2 is conducted for a wide range of atmospheric air temperatures and highly preheated air temperatures. Special concern is given to the important role of the chemical effects of added CO 2 , especially in highly preheated air temperature flames diluted with CO 2 . There exists a limit of the oxidizer-side temperature below which flame cannot be sustained. It is observed in highly preheated air temperature flames that intensely diluted cases with CO 2 show extremely low NO emission levels. The chemical effects of added CO 2 reduce flame strength. It is also seen that the difference between the maximum flame temperature and the preheated air temperature becomes smaller and smaller with increasing preheated air temperature and mole fraction of added CO 2 , and this thus implies the acquisition of evenly distributed gas temperatures in industrial furnaces. The NO emission index increases as the oxidizer-side temperature increases and decreases as the mole fraction of added CO 2 increases. The chemical effects of added CO 2 suppress NO emissions, mainly because of the reduction of thermal NO. It is also stressed that the reaction N + CO 2 f NO + CO, which is represented herein as reaction step (R283), is a relatively important contributor to prompt NO production.

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A Numerical Study on Time-Dependent Melting and Deformation Processes of Phase Change Material (PCM) Induced by Localized Thermal Input

Kim¹,

Hossain²,

Kim³

et al. 2011

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Effects of mass transfer time relaxation parameters on condensation in a thermosyphon

et al. 2015

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Control functions and grid qualities measurements in the elliptic grid generation around arbitrary surfaces

Kim

2000

Int. J. Numer. Meth. Fluids

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Sungcho Kim

Edge flame instability in low-strain-rate counterflow diffusion flames

A Study on H₂−Air Counterflow Flames in Highly Preheated Air Diluted with CO₂

A Numerical Study on Time-Dependent Melting and Deformation Processes of Phase Change Material (PCM) Induced by Localized Thermal Input

Effects of mass transfer time relaxation parameters on condensation in a thermosyphon

Control functions and grid qualities measurements in the elliptic grid generation around arbitrary surfaces

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Resources

About

Sungcho Kim

Edge flame instability in low-strain-rate counterflow diffusion flames

A Study on H2−Air Counterflow Flames in Highly Preheated Air Diluted with CO2

A Numerical Study on Time-Dependent Melting and Deformation Processes of Phase Change Material (PCM) Induced by Localized Thermal Input

Effects of mass transfer time relaxation parameters on condensation in a thermosyphon

Control functions and grid qualities measurements in the elliptic grid generation around arbitrary surfaces

Contact Info

Product

Resources

About

A Study on H₂−Air Counterflow Flames in Highly Preheated Air Diluted with CO₂