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Minhyeok Lee
University of Tokyo
11Publications
2H-index
24Citations
Publications 11
Newest
#1Minhyeok Lee (UTokyo: University of Tokyo)H-Index: 2
#2Yong Fan (UTokyo: University of Tokyo)H-Index: 5
Last.Yuji Suzuki (UTokyo: University of Tokyo)H-Index: 31
view all 5 authors...
Abstract Wall-stabilized cool flames have been studied through numerical analysis and a series of experiments. One- and two-dimensional numerical simulations were performed to estimate the characteristics of the wall-stabilized cool flames, such as flammability and temperature/species distributions. Based on the computational results, the ignition condition of the cool flame at a fixed wall temperature has been identified with the strain rate between the van't Hoff point and the cool flame extin...
1 CitationsSource
#1Minhyeok Lee (UTokyo: University of Tokyo)H-Index: 2
#2Taejin Kwan (UTokyo: University of Tokyo)
Last.Yuji Suzuki (UTokyo: University of Tokyo)H-Index: 31
view all 5 authors...
Source
#1Minhyeok Lee (UTokyo: University of Tokyo)H-Index: 2
#2Yong Fan (UTokyo: University of Tokyo)H-Index: 5
Last.Yuji Suzuki (UTokyo: University of Tokyo)H-Index: 31
view all 3 authors...
Source
#1Junjie Peng (UTokyo: University of Tokyo)
#2Minhyeok Lee (UTokyo: University of Tokyo)H-Index: 2
Last.Yuji Suzuki (UTokyo: University of Tokyo)H-Index: 31
view all 5 authors...
Source
#1Christopher B. Reuter (Princeton University)H-Index: 8
#2Minhyeok Lee (Princeton University)H-Index: 2
Last.Yiguang Ju (Princeton University)H-Index: 57
view all 4 authors...
Abstract The low-temperature oxidation of hydrocarbon fuels has received increasing attention as advanced engines seek to operate in less conventional combustion regimes. Large n -alkanes are a notable component of many real transportation fuels and possess strong reactivity in this important low-temperature range. These n -alkanes have been studied extensively in various canonical kinetic experiments but seldom in systems with strong coupling between low-temperature chemistry, transport, and he...
19 CitationsSource
#1Minhyeok LeeH-Index: 2
#2Kenichi MorimotoH-Index: 5
Last.Yuji SuzukiH-Index: 31
view all 3 authors...
In this paper, a MEMS-based wireless wall temperature sensor for application to combustion studies is proposed. The resonant frequency change of an LCR circuit on the sensor is used to detect the temperature change, and is transferred by inductive coupling between the sensor and the read-out coil. Sensitivity analysis has been made to examine the effect of the resistance/capacitance change of the sensor on the resonant frequency shifts. Based on the present analysis, the sensing principle with e...
Source
#2Minhyeok LeeH-Index: 2
Last.Yiguang JuH-Index: 57
view all 4 authors...
Source
#1Taejin Kwan (UTokyo: University of Tokyo)
#2Minhyeok Lee (UTokyo: University of Tokyo)H-Index: 2
Last.Yuji Suzuki (UTokyo: University of Tokyo)H-Index: 31
view all 4 authors...
Source
#1Minhyeok LeeH-Index: 2
#2Kenichi MorimotoH-Index: 5
Last.Yuji SuzukiH-Index: 31
view all 3 authors...
We present a novel flexible wireless wall temperature sensor with high spatio- temporal resolution and its performance evaluation in an unsteady thermal field. A base part of the sensor is made of thermally-stable polyimide and the copper films. Using a Si hard mask fabricated by standard lithography and DRIE process, 1 mm-sized sensing resistor is sputtered on the copper coil. We enhance the time response for each measurement by reducing the frequency sweeping points. It is shown that the accur...
2 CitationsSource
#1Minhyeok Lee (UTokyo: University of Tokyo)H-Index: 2
#2Kenichi Morimoto (UTokyo: University of Tokyo)H-Index: 5
Last.Yuji Suzuki (UTokyo: University of Tokyo)H-Index: 31
view all 3 authors...
Source
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