Kwanyoung Noh scite author profile

High-temperature ignition is essential for the ignition and combustion of energetic metal fuels, including aluminum and magnesium particles which are protected by their highmelting-temperature oxides. A plasma torch characterized by an ultrahigh-temperature plasma plume fulfills such high-temperature ignition conditions. A new steam plasma igniter is designed and successfully validated by aluminum power ignition and combustion tests. The steam plasma rapidly stabilizes in both plasma and steam jet modes. Parametric investigation of the steam plasma jet is conducted in terms of arc strength. A high-speed camera and an oscilloscope method visualize the discharge characteristics, and optical emission spectroscopy measures the thermochemical properties of the plasma jet. The diatomic molecule OH fitting method, the Boltzmann plot method, and short exposure capturing with an intensified charge coupled device record the axial distributions of the rotational gas temperature, excitation temperature, and OH radical distribution, respectively. The excitation temperature at the nozzle tip is near 5500 K, and the gas temperature is 5400 K.

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Atomization characteristics of slurry fuels using a pressure swirl atomizer

Noh¹,

Kim²,

Kim³

2022

Journal of Non-Newtonian Fluid Mechanics

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Fabrication and Thermophysical Properties of Nickel-coated Aluminum Powder by Electroless Plating

Lee

Yoon

Noh

et al. 2015

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Steam-Plasma Igniter for Aluminum Powder Combustion

Lee

Lim

Noh

et al. 2014

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High temperature ignition is essential to the ignition and combustion of energetic metal fuels including the aluminum and magnesium particles protected by their oxides of high melting temperature. A plasma torch characterized by ultrahigh-temperature plasma plume fulfills such high-temperature ignition condition. A steam plasma igniter is newly designed and successfully validated with aluminum power ignition and combustion tests. The steam plasma rapidly stabilizes in both plasma and steam jet mode. Parametric investigation of the steam plasma jet is conducted in terms of the arc strength. A high-speed camera and oscilloscope method visualizes the discharge characteristics, and optical emission spectroscopy measures thermochemical properties of the plasma jet. Diatomic molecule OH fitting method, Boltzmann plot method, and short exposure capturing with an intensified charge coupled device record the axial distributions of the rotational gas temperature, excitation temperature, and OH radical distribution, respectively. The excitation temperature at the nozzle tip occurs near 5500 K, and the gas temperature 5400 K.

show abstract

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Kwanyoung Noh

Flame structure of methane/oxygen shear coaxial jet with velocity ratio using high-speed imaging and OH, CH chemiluminescence

A Steam-Plasma Igniter for Aluminum Powder Combustion

Atomization characteristics of slurry fuels using a pressure swirl atomizer

Fabrication and Thermophysical Properties of Nickel-coated Aluminum Powder by Electroless Plating

Steam-Plasma Igniter for Aluminum Powder Combustion

Contact Info

Product

Resources

About

Kwanyoung Noh

Flame structure of methane/oxygen shear coaxial jet with velocity ratio using high-speed imaging and OH*, CH* chemiluminescence

A Steam-Plasma Igniter for Aluminum Powder Combustion

Atomization characteristics of slurry fuels using a pressure swirl atomizer

Fabrication and Thermophysical Properties of Nickel-coated Aluminum Powder by Electroless Plating

Steam-Plasma Igniter for Aluminum Powder Combustion

Contact Info

Product

Resources

About

Flame structure of methane/oxygen shear coaxial jet with velocity ratio using high-speed imaging and OH, CH chemiluminescence