Investigation on the effects of the operating conditions on electron energy in the atmospheric-pressure helium plasma jet

Liu, Yadi; Tan, Zhenyu; Wang, Xiaolong; Li, Xiaotong; Chen, Xinxian

doi:10.1063/1.5087769

Cited by 7 publications

(3 citation statements)

References 44 publications

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“…The electron energy in an NTP is affected by the operating conditions. , The gas temperature also varies widely in different discharge forms, thus resulting in a variety of reaction paths and different products. Based on the BDEs, the underlying reaction mechanism governing the plasma-enabled guaiacol conversion will be analyzed below.…”

Section: Resultsmentioning

confidence: 99%

Selective Clipping of a Lignin-Derived Monomer by Plasma for Bio-Oil Upgrading

Liu

Dou

Sun

et al. 2022

ACS Sustainable Chem. Eng.

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Oxygen atom removal is the key to improving the heating value and thermal stability of biomass-derived bio-oils. Nonthermal plasma provides a highly promising method for bio-oil upgrading under ambient conditions without catalysts. However, the diversity of products formed in plasma processing makes it necessary to understand the interaction mechanisms and reaction pathways. Here, we present a new approach for selectively clipping a lignin-derived monomer (guaiacol) by nonthermal plasma and propose a product selection mechanism governing the relationship between the product distribution and mean electron energy. Density functional theory calculations and a one-dimensional plasma fluid model show that the gas temperature determines whether the reaction is directed toward aromatic ring hydrogenation or hydrodeoxygenation. Increasing the voltage amplitude or decreasing the pulse rise time increases the mean electron energy, which facilitates removing the oxygenated functional groups. The main products can be adjusted from catechol to cresol and phenol and then to benzene, toluene, and xylene. The work shows the correlation of the product distribution with the mean electron energy and analyzes the underlying reaction pathways, guiding the practical application of plasma-enabled bio-oil conversion.

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Section: Resultsmentioning

confidence: 99%

Selective Clipping of a Lignin-Derived Monomer by Plasma for Bio-Oil Upgrading

Liu

Dou

Sun

et al. 2022

ACS Sustainable Chem. Eng.

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“…The scattering matrix of each layer can be described as: (20) where 𝑑 represents the thickness of each layer. By coupling the electromagnetic boundary conditions of adjacent thin layers, > AP2208-1607.R2 the terahertz reflection coefficient 𝑅 and transmission coefficient 𝑇 in the APPJ can be obtained.…”

Section: B Terahertz Wave Transmission Model In Appjmentioning

confidence: 99%

“…The plasma sources concerned in the above terahertz wave transmission researches are all ICP devices due to its high-density characteristics. Atmospheric pressure plasma jet (APPJ) devices, whose plasma environment (electron density is as high as 10 19 m -3 or even 10 20 m -3 ) [19][20] is very close to the reentry plasma sheath [14][15], which has almost not been paid attention to in terahertz transmission research. In 2021, Chen et al used THz-TDS technology to diagnose the electron density of helium plasma jets and measured the transmittance of terahertz waves in the plasma jet [21].…”

Section: Introductionmentioning

confidence: 99%

Plasma and Terahertz-Wave Propagation Characteristics in Atmospheric-Pressure Plasma Jet Under Different Operating Conditions

Ouyang

Liu

Mao

et al. 2023

IEEE Trans. Antennas Propagat.

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High density plasma source device is of great significance for ground experiment verification of vehicle reentry communication. APPJ, as a high-density plasma source, has received little attention in ground experiments on vehicle communications. In this paper, terahertz wave propagation characteristics in APPJ are investigated by joint simulation of APPJ discharge and terahertz transport model and related experimental measurements. THz-IF system is used to diagnose the electron density and terahertz transmission characteristics of APPJ for the first time, and the measured results are in good agreement with simulation results of joint simulation model in this paper and measured results of THz-TDS system of other researchers. Sheath thickness and electron density produced by self-designed APPJ are highly matched with the plasma sheath environment of HIFIRE-5b vehicle. Further analysis of the influence of different voltages and needle electrode radius on the terahertz transmission characteristics shows that the absorption effect plays a major role in terahertz wave attenuation in APPJ, and contribution of collision effect almost disappears, which is completely consistent with the phenomenon observed in HIFIRE-5b vehicle. The joint simulation model and THZ-IF method developed in this paper are of great significance for the ground test verification of reentry communication schemes.

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