聚光光伏在使用点水处理系统中的潜力及其对指示微生物的灭活率。

Photovoltaic concentrator potential and its inactivation rate of indicator microorganism in point of use water treatment system.

作者信息

Lamore Yonas, Alemu Simegn

机构信息

Department of Environmental Health Science, Debre Markos University, Debre Markos, Ethiopia.

Department of Public Health, Debre Markos University, Debre Markos, Ethiopia.

出版信息

SAGE Open Med. 2022 May 20;10:20503121221099106. doi: 10.1177/20503121221099106. eCollection 2022.

DOI:10.1177/20503121221099106

PMID:35620120

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9128048/

Abstract

OBJECTIVE

Unsafe drinking water has a significant health impact all over the world especially, in developing countries. Household water treatments become more affordable than conventional ones for many reasons. Photovoltaic concentrator is environmentally sound and effective inactivation method by converting light energy to electricity. This study aimed to assess the inactivation potential of photovoltaic concentrator on drinking water quality indicator microorganisms at different solar exposure times.

METHODS

A laboratory-based experimental study was conducted at Jimma University's environmental microbiology laboratory to measure the disinfection potential of the photovoltaic concentrator for months in uneven weather conditions. A membrane filtration, a pour plate count method, and a calibrated clear sky calculator were used.

RESULTS

Among indicator microorganisms, was completely inactivated (standard deviation = 11.3°C, R = 0.80) at 2 h of solar exposure whereas heterotrophic plate count was measured as (SD = 12.2°C, R = 0.82) at 35°C for 48 h in the sample that contains 2.81 NTU.

CONCLUSION

Based on the findings, photovoltaic concentrator was one of the most effective inactivation technologies for and .

摘要

目的

不安全饮用水在全球尤其是发展中国家对健康有重大影响。由于多种原因，家庭水处理方式比传统方式更经济实惠。光伏聚光器通过将光能转化为电能，是一种环保且有效的灭活方法。本研究旨在评估光伏聚光器在不同日照时间对饮用水质量指示微生物的灭活潜力。

方法

在吉姆马大学环境微生物实验室进行了一项基于实验室的实验研究，以在天气条件不均的情况下测量光伏聚光器数月的消毒潜力。使用了膜过滤、倾注平板计数法和校准的晴空计算器。

结果

在指示微生物中，在日照2小时时完全被灭活（标准差 = 11.3°C，R = 0.80），而在含有2.81 NTU的样品中，在35°C下48小时的异养平板计数为（标准差 = 12.2°C，R = 0.82）。

结论

基于这些发现，光伏聚光器是对和最有效的灭活技术之一。

注

原文中部分关键微生物名称缺失，已用“ ”表示。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4abd/9128048/8c1d9a4c9b5a/10.1177_20503121221099106-fig1.jpg

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聚光光伏在使用点水处理系统中的潜力及其对指示微生物的灭活率。

Photovoltaic concentrator potential and its inactivation rate of indicator microorganism in point of use water treatment system.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

注

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