Kyunghwan Lee scite author profile

The characteristics of auto-ignition and micro-explosion behaviors of a single fuel droplet have been investigated experimentally with varying droplet sizes, ambient temperature, and water content. The fuel used for this experiment was pure n-decane, which was emulsified with several water content varied from 10% to 30% to compare the effects of water content in the emulsified fuel. Imaging with a high-speed digital camera was adopted to measure the ignition delay and flame life-time, as well as to observe micro-explosion behavior. The increase of droplet size and furnace temperature causes a decrease of the ignition delay time. The flame life-time is augmented as the droplet size increases, however it doesn't seem to be affected by the ambient temperature relatively. As the water content increases, the ignition delay increases and the micro-explosion behavior is strengthened. The start timings of micro-explosion and fuel puffing are compared for different droplet sizes and the amount of water content.

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Activation Energies $(E_{a})$ of Failure Mechanisms in Advanced NAND Flash Cells for Different Generations and Cycling

Lee

Kang

Seo

et al. 2013

IEEE Trans. Electron Devices

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Hydrogen Production via Water Electrolysis: The Benefits of a Solar Cell-Powered Process

Chang

Lee

et al. 2018

IEEE Electrific. Mag.

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Kyunghwan Lee

Microstructure and growth kinetics of the Mo5Si3 and Mo3Si layers in MoSi2/Mo diffusion couple

Single-Switch High-Frequency DC–DC Converter Using Parasitic Components

Characteristics of auto-ignition and micro-explosion behavior of a single droplet of water-in-fuel

Activation Energies $(E_{a})$ of Failure Mechanisms in Advanced NAND Flash Cells for Different Generations and Cycling

Hydrogen Production via Water Electrolysis: The Benefits of a Solar Cell-Powered Process

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