The Simulation of Dielectric Barrier Discharge for Breakdown Voltage in Starch Modification

Chankuson, Pitchasak; Chumsri, Paramee; Plodkaew, Apinun

doi:10.3390/app132212143

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Applied Sciences

2023

DOI: 10.3390/app132212143

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The Simulation of Dielectric Barrier Discharge for Breakdown Voltage in Starch Modification

Pitchasak Chankuson,

Paramee Chumsri,

Apinun Plodkaew

Abstract: This paper presents the simulation results for dielectric barrier discharge (DBD) at atmospheric pressure in argon gas for different relative permittivity, granule shape, thickness layer, and granule diameter measurements for starch on the breakdown voltage. DBD is commonly utilized to generate cold plasma for starch modification. The electric field was computed using COMSOL Multiphysics 5.3a software. The breakdown voltage was calculated employing Paschen’s law for this electric field. The voltage was found a… Show more

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2024

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Fluid Modeling of a Non-Thermal Plasma with Dielectric Barrier Discharge and Argon as a Diluent Gas

Mas-Peiro,

Llovell,

Pou

2024

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Non-thermal plasma (NTP) conversion applications have become an emerging technology of increasing global interest due to their particular ability to perform at atmospheric pressure and ambient temperature. This study focuses on a specific case of a dielectric barrier discharge NTP reactor for carbon dioxide conversion with the usage of argon as diluent gas. The plasma computations in COMSOL® Multiphysics are compared to experimental results and coupled with previous thermodynamic characterization of argon species and fluid dynamic calculations. The model is defined as a time-dependent study with a 2D-Geometry of pure argon, with both fluid flow and plasma phenomena. Firstly, the model showcases an accurate understanding of the plasma physics involved, in the form of electron density, excited argon, argon ions, and mean electron energy. It also allows a direct comparison of the velocity, vorticity, pressure, and dynamic viscosity results with fluid flow computations. Secondly, the impact of several variables is studied, notably the inlet volumetric rate, dielectric barrier thickness and material, and reactor length. Limitations in the plasma characterization can occur by not including packed material or all relevant species in experimental CO2 conversion and their respective reactions, which should be aimed at in future contributions.

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Fluid Modeling of a Non-Thermal Plasma with Dielectric Barrier Discharge and Argon as a Diluent Gas

Mas-Peiro,

Llovell,

Pou

2024

Processes

View full text Add to dashboard Cite

show abstract

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The Simulation of Dielectric Barrier Discharge for Breakdown Voltage in Starch Modification

Cited by 1 publication

References 54 publications

Fluid Modeling of a Non-Thermal Plasma with Dielectric Barrier Discharge and Argon as a Diluent Gas

Fluid Modeling of a Non-Thermal Plasma with Dielectric Barrier Discharge and Argon as a Diluent Gas

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