Ching Min Cheng scite author profile

Heat dissipation from electrical appliances is a significant issue with contemporary electrical devices. One factor in the improvement of heat dissipation is the heat transfer performance of the working fluid. In this study, we used plasma arc technology to produce a nanofluid of carbon nanoparticles dispersed in distilled water. In a one-step synthesis, carbon was simultaneously heated and vaporized in the chamber, the carbon vapor and particles were then carried to a collector, where cooling furnished the desired carbon/water nanofluid. The particle size and shape were determined using the light-scattering size analyzer, SEM, and TEM. Crystal morphology was examined by XRD. Finally, the characterization include thermal conductivity, viscosity, density and electric conductivity were evaluated by suitable instruments under different temperatures. The thermal conductivity of carbon/water nanofluid increased by about 25% at 50°C compared to distilled water. The experimental results demonstrated excellent thermal conductivity and feasibility for manufacturing of carbon/water nanofluids.

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Evaluation of heat-exchange performance of carbon-based nanofluids for air-cooled exchangers with different cross-section shapes

Teng

Cheng

2020

Applied Thermal Engineering

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Effects of Flux Precoating and Process Parameter on Welding Performance of Inconel 718 Alloy TIG Welds

Lin

Cheng

2013

J. of Materi Eng and Perform

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Evolution of microstructures and mechanical properties of AZ31B magnesium alloy weldment with active oxide fluxes and GTAW process

Lin

Liu

Tsai

et al. 2011

Journal of the Chinese Institute of Engineers

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Ching Min Cheng

Performance assessment of heat storage by phase change materials containing MWCNTs and graphite

Preparation and characterization of carbon nanofluid by a plasma arc nanoparticles synthesis system

Evaluation of heat-exchange performance of carbon-based nanofluids for air-cooled exchangers with different cross-section shapes

Effects of Flux Precoating and Process Parameter on Welding Performance of Inconel 718 Alloy TIG Welds

Evolution of microstructures and mechanical properties of AZ31B magnesium alloy weldment with active oxide fluxes and GTAW process

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