Ar plasma jet generation and its application for water and surface sterilization

Ar plasma jet generation and its application for water and surface sterilization

Microorganisms are widely distributed in the living environment of human, animals and plants. Some of the microorganisms are harmful for their pathogenic effects. Non-thermal plasma technology, especially, the atmospheric pressure plasma jet, is considered to be one of the promising technologies for...

Full description

Bibliographic Details
Main Authors: Feng Fada, He Xianjun, Liang Yingying, Yang Fengzhu, Wang Fushan, Yang Yue, Liu Tiejian
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:E3S Web of Conferences
Online Access:https://doi.org/10.1051/e3sconf/20197802020
id doaj-32ac1b934ca64daba3db0b707a146d68
record_format Article
spelling doaj-32ac1b934ca64daba3db0b707a146d682021-03-02T07:33:35ZengEDP SciencesE3S Web of Conferences2267-12422019-01-01780202010.1051/e3sconf/20197802020e3sconf_fsee2018_02020Ar plasma jet generation and its application for water and surface sterilizationFeng FadaHe XianjunLiang YingyingYang FengzhuWang FushanYang YueLiu TiejianMicroorganisms are widely distributed in the living environment of human, animals and plants. Some of the microorganisms are harmful for their pathogenic effects. Non-thermal plasma technology, especially, the atmospheric pressure plasma jet, is considered to be one of the promising technologies for sterilization. This work proposes a double-dielectric barrier discharge reactor for Ar plasma jet generation. Charteristics of discharge and temperature thermogram of plasma jet are investigated by the means of U-P curve and infrared image, respectively. Performance of the plasma jet is evaluated by surface and water sterilization. The results show that, Ar plasma jet is generated stable with double-dielectric barrier discharge. The length of plasma jet increases as the applied voltage, frequency or gas flow increased, but the plasma jet generation can be restricted in high frequency or gas flow. For E. coli in the water and surface, high sterilization efficiency is observed for a short time treatment by Ar plasma jet.https://doi.org/10.1051/e3sconf/20197802020
collection DOAJ
language English
format Article
sources DOAJ
author Feng Fada
He Xianjun
Liang Yingying
Yang Fengzhu
Wang Fushan
Yang Yue
Liu Tiejian
spellingShingle Feng Fada
He Xianjun
Liang Yingying
Yang Fengzhu
Wang Fushan
Yang Yue
Liu Tiejian
Ar plasma jet generation and its application for water and surface sterilization
E3S Web of Conferences
author_facet Feng Fada
He Xianjun
Liang Yingying
Yang Fengzhu
Wang Fushan
Yang Yue
Liu Tiejian
author_sort Feng Fada
title Ar plasma jet generation and its application for water and surface sterilization
title_short Ar plasma jet generation and its application for water and surface sterilization
title_full Ar plasma jet generation and its application for water and surface sterilization
title_fullStr Ar plasma jet generation and its application for water and surface sterilization
title_full_unstemmed Ar plasma jet generation and its application for water and surface sterilization
title_sort ar plasma jet generation and its application for water and surface sterilization
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2019-01-01
description Microorganisms are widely distributed in the living environment of human, animals and plants. Some of the microorganisms are harmful for their pathogenic effects. Non-thermal plasma technology, especially, the atmospheric pressure plasma jet, is considered to be one of the promising technologies for sterilization. This work proposes a double-dielectric barrier discharge reactor for Ar plasma jet generation. Charteristics of discharge and temperature thermogram of plasma jet are investigated by the means of U-P curve and infrared image, respectively. Performance of the plasma jet is evaluated by surface and water sterilization. The results show that, Ar plasma jet is generated stable with double-dielectric barrier discharge. The length of plasma jet increases as the applied voltage, frequency or gas flow increased, but the plasma jet generation can be restricted in high frequency or gas flow. For E. coli in the water and surface, high sterilization efficiency is observed for a short time treatment by Ar plasma jet.
url https://doi.org/10.1051/e3sconf/20197802020
work_keys_str_mv AT fengfada arplasmajetgenerationanditsapplicationforwaterandsurfacesterilization
AT hexianjun arplasmajetgenerationanditsapplicationforwaterandsurfacesterilization
AT liangyingying arplasmajetgenerationanditsapplicationforwaterandsurfacesterilization
AT yangfengzhu arplasmajetgenerationanditsapplicationforwaterandsurfacesterilization
AT wangfushan arplasmajetgenerationanditsapplicationforwaterandsurfacesterilization
AT yangyue arplasmajetgenerationanditsapplicationforwaterandsurfacesterilization
AT liutiejian arplasmajetgenerationanditsapplicationforwaterandsurfacesterilization
_version_ 1724241274723106816

Similar Items