Microbial Risks in Household UF Purifiers and Disinfection Strategy with Electrolysis

Microbial Risks in Household UF Purifiers and Disinfection Strategy with Electrolysis

The research studied microbial deterioration in household ultrafiltration membrane (UF) purifiers with residence time and anti-bacterial strategy with electrolysis. The pilot test was conducted on a household drinking water purifier. A 72-h stagnation test and a 60-min anti-bacterial test with elect...

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Main Authors: Chen Yucheng, Fu Jian-nan, Wang Yi, Ding Jian, Lian Xiaoying, Wei Weizhi, Chen Xiao
Format: Article
Language:English
Published: EDP Sciences 2020-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/03/e3sconf_arfee2020_02028.pdf
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spelling doaj-1173dadc53584281be07e0638bc110392021-02-02T08:58:46ZengEDP SciencesE3S Web of Conferences2267-12422020-01-011430202810.1051/e3sconf/202014302028e3sconf_arfee2020_02028Microbial Risks in Household UF Purifiers and Disinfection Strategy with ElectrolysisChen Yucheng0Fu Jian-nan1Wang Yi2Ding Jian3Lian Xiaoying4Wei Weizhi5Chen Xiao6College of Defense Engineering, The Army Engineering University of PLACollege of Defense Engineering, The Army Engineering University of PLACollege of Defense Engineering, The Army Engineering University of PLACollege of Defense Engineering, The Army Engineering University of PLACollege of Defense Engineering, The Army Engineering University of PLACollege of Defense Engineering, The Army Engineering University of PLACollege of Defense Engineering, The Army Engineering University of PLAThe research studied microbial deterioration in household ultrafiltration membrane (UF) purifiers with residence time and anti-bacterial strategy with electrolysis. The pilot test was conducted on a household drinking water purifier. A 72-h stagnation test and a 60-min anti-bacterial test with electrolysis were subsequently done. There were some findings in this study: (1) The level of HPC exceeded the hygienic standard when the stagnation time was more than 3 h. (2) The lag phase of bacterial growth was no more than 12 h in filters. (3) With the method of electrolysis, microbial contamination induced by water stagnation can be controlled in the acceptable range, which was more efficient than the method of flushing with tap water.https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/03/e3sconf_arfee2020_02028.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Chen Yucheng
Fu Jian-nan
Wang Yi
Ding Jian
Lian Xiaoying
Wei Weizhi
Chen Xiao
spellingShingle Chen Yucheng
Fu Jian-nan
Wang Yi
Ding Jian
Lian Xiaoying
Wei Weizhi
Chen Xiao
Microbial Risks in Household UF Purifiers and Disinfection Strategy with Electrolysis
E3S Web of Conferences
author_facet Chen Yucheng
Fu Jian-nan
Wang Yi
Ding Jian
Lian Xiaoying
Wei Weizhi
Chen Xiao
author_sort Chen Yucheng
title Microbial Risks in Household UF Purifiers and Disinfection Strategy with Electrolysis
title_short Microbial Risks in Household UF Purifiers and Disinfection Strategy with Electrolysis
title_full Microbial Risks in Household UF Purifiers and Disinfection Strategy with Electrolysis
title_fullStr Microbial Risks in Household UF Purifiers and Disinfection Strategy with Electrolysis
title_full_unstemmed Microbial Risks in Household UF Purifiers and Disinfection Strategy with Electrolysis
title_sort microbial risks in household uf purifiers and disinfection strategy with electrolysis
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2020-01-01
description The research studied microbial deterioration in household ultrafiltration membrane (UF) purifiers with residence time and anti-bacterial strategy with electrolysis. The pilot test was conducted on a household drinking water purifier. A 72-h stagnation test and a 60-min anti-bacterial test with electrolysis were subsequently done. There were some findings in this study: (1) The level of HPC exceeded the hygienic standard when the stagnation time was more than 3 h. (2) The lag phase of bacterial growth was no more than 12 h in filters. (3) With the method of electrolysis, microbial contamination induced by water stagnation can be controlled in the acceptable range, which was more efficient than the method of flushing with tap water.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/03/e3sconf_arfee2020_02028.pdf
work_keys_str_mv AT chenyucheng microbialrisksinhouseholdufpurifiersanddisinfectionstrategywithelectrolysis
AT fujiannan microbialrisksinhouseholdufpurifiersanddisinfectionstrategywithelectrolysis
AT wangyi microbialrisksinhouseholdufpurifiersanddisinfectionstrategywithelectrolysis
AT dingjian microbialrisksinhouseholdufpurifiersanddisinfectionstrategywithelectrolysis
AT lianxiaoying microbialrisksinhouseholdufpurifiersanddisinfectionstrategywithelectrolysis
AT weiweizhi microbialrisksinhouseholdufpurifiersanddisinfectionstrategywithelectrolysis
AT chenxiao microbialrisksinhouseholdufpurifiersanddisinfectionstrategywithelectrolysis
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