T/CECS 873—2021《室内空气微生物污染控制技术规程》解读
摘要:介绍了T/CECS 873—2021《室内空气微生物污染控制技术规程》的编制思路与关键内容,包括标准编制背景、过程、技术内容和要点等。对标准关键条文进行了解读,以便于使用者实施应用。
关键词:室内空气品质空气微生物污染污染控制污染等级评价指标标准解读
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参考文献[1] 曹国庆,李劲松,钱华,等.建筑室内微生物污染与控制[M].北京:中国建筑工业出版社,2022:23- 29.
[2] SRIKANTH P,SUDHARSANAM S,STEINBERG R.Bio-aerosols in indoor environment:composition,health effects and analysis[J].Indian journal of medical microbiology,2008,26(4):302- 312.
[3] 牟向东,李海潮.环境微生物暴露与儿童支气管哮喘[J].中华结核和呼吸杂志,2011(7):499.
[4] 吴金贵,卢国良.环境内毒素暴露与哮喘[J].国外医学(卫生学分册),2009,36(1):37- 40.
[5] 张铭健,曹国庆.国内外室内空气微生物限值标准简介及对比分析[J].暖通空调,2019,49(5):40- 45,33.
[6] 李景广.我国建筑室内空气质量标准体系建设[J].暖通空调,2013,43(12):68- 73.
[7] YE J,QIAN H,ZHANG J S,et al.Concentrations and size-resolved I/O ratios of household airborne bacteria and fungi in Nanjing,southeast China[J].Science of the total environment,2021,774:145559.
[8] 吴定萌,张莹,李安桂,等.建筑室内外空气真菌浓度相关性案例测试分析[J].暖通空调,2021,51(2):1- 5,72.
[9] 苗豆豆,陈超,赵晨.北京地区某高校教室细菌气溶胶浓度随季节变化特性实测调研[J].暖通空调,2021,51(2):12- 19.
[10] 张金萍,张翠林,王智,等.北京地区医院建筑冬季室内微生物气溶胶浓度水平及暴露评价[J].建筑科学,2020,36(8):180- 186.
[11] 张金萍,尹海全,王智,等.北京地区校园建筑冬季室内微生物气溶胶浓度水平分析[J].建筑科学,2020,36(6):156- 165.
[12] 于丹,蔡志斌,王丽娜,等.北京地区冬季高校宿舍空气微生物浓度和粒径分布特征[J].建筑科学,2020,36(2):56- 60,103.
[13] 于丹,蔡志斌,李冉,等.冬季高校室内空气微生物体积浓度和粒径分布特征[J].中国学校卫生,2019,40(11):1706- 1708.
[14] 赵晨,陈超,苗豆豆,等.高校教室细菌气溶胶来源及其影响因素分析[J].建筑科学,2020,36(10):20- 26.
[15] 张莹,孔强强,吴定萌,等.西安某高校图书馆真菌气溶胶浓度和粒径分布特征[J].西安建筑科技大学学报(自然科学版),2020,52(2):296- 301,308.
[16] GUO J G,XIONG Y,SHI C H,et al.Characteristics of airborne bacterial communities in indoor and outdoor environments during continuous haze events in Beijing:implications for health care[J].Environment international,2020,139:105721.
[17] GUO J G,KONG Q,LIU C,et al.Evaluating the health risks of pneumonia from airborne bacterial communities using 16S rDNA sequences of pneumonia-related pathogens[J].Biomedical and environmental sciences,2021,34(4):265- 271.
[18] 孙宗科,毛怡心,丁培,等.大气污染期间室内空气微生物多样性分析[J].环境与健康杂志,2020,37(4):283- 286,376.
[19] GUO K Q,QIAN H,YE J,et al.Indoor exposure levels of bacteria and fungi in residences,schools,and offices in China:a systematic review[J].Building and environment,2021,205:108258.
[20] 魏小兵,贺会利,刘明成,等.环境中病毒富集与检测方法研究进展[J].中国畜牧兽医,2014,41(4):270- 274.
[21] 张唯,彭博宇,于振江,等.疫情期间公厕病原微生物的传播途径与防控措施建议[J].环境卫生工程,2021,29(1):9- 13.
[22] 毛怡心,丁培,孙宗科.马桶冲水行为与微生物气溶胶传播[J].微生物学报,2018,58(12):2070- 2077.
[23] 丁晓珏,张颖,齐小依.“平疫结合”医疗设施可行性排水措施[J].工程建设与设计,2021(增刊1):129- 133.
[24] 中华人民共和国国家健康卫生委员会.关于印发对新型冠状病毒感染实施“乙类乙管”总体方案的通知[EB/OL].[2023-09-01].http://www.nhc.gov.cn/xcs/zhengcwj/202212/e97e4c449d7a475794624b8ea1 2123c6.shtml.
[2] SRIKANTH P,SUDHARSANAM S,STEINBERG R.Bio-aerosols in indoor environment:composition,health effects and analysis[J].Indian journal of medical microbiology,2008,26(4):302- 312.
[3] 牟向东,李海潮.环境微生物暴露与儿童支气管哮喘[J].中华结核和呼吸杂志,2011(7):499.
[4] 吴金贵,卢国良.环境内毒素暴露与哮喘[J].国外医学(卫生学分册),2009,36(1):37- 40.
[5] 张铭健,曹国庆.国内外室内空气微生物限值标准简介及对比分析[J].暖通空调,2019,49(5):40- 45,33.
[6] 李景广.我国建筑室内空气质量标准体系建设[J].暖通空调,2013,43(12):68- 73.
[7] YE J,QIAN H,ZHANG J S,et al.Concentrations and size-resolved I/O ratios of household airborne bacteria and fungi in Nanjing,southeast China[J].Science of the total environment,2021,774:145559.
[8] 吴定萌,张莹,李安桂,等.建筑室内外空气真菌浓度相关性案例测试分析[J].暖通空调,2021,51(2):1- 5,72.
[9] 苗豆豆,陈超,赵晨.北京地区某高校教室细菌气溶胶浓度随季节变化特性实测调研[J].暖通空调,2021,51(2):12- 19.
[10] 张金萍,张翠林,王智,等.北京地区医院建筑冬季室内微生物气溶胶浓度水平及暴露评价[J].建筑科学,2020,36(8):180- 186.
[11] 张金萍,尹海全,王智,等.北京地区校园建筑冬季室内微生物气溶胶浓度水平分析[J].建筑科学,2020,36(6):156- 165.
[12] 于丹,蔡志斌,王丽娜,等.北京地区冬季高校宿舍空气微生物浓度和粒径分布特征[J].建筑科学,2020,36(2):56- 60,103.
[13] 于丹,蔡志斌,李冉,等.冬季高校室内空气微生物体积浓度和粒径分布特征[J].中国学校卫生,2019,40(11):1706- 1708.
[14] 赵晨,陈超,苗豆豆,等.高校教室细菌气溶胶来源及其影响因素分析[J].建筑科学,2020,36(10):20- 26.
[15] 张莹,孔强强,吴定萌,等.西安某高校图书馆真菌气溶胶浓度和粒径分布特征[J].西安建筑科技大学学报(自然科学版),2020,52(2):296- 301,308.
[16] GUO J G,XIONG Y,SHI C H,et al.Characteristics of airborne bacterial communities in indoor and outdoor environments during continuous haze events in Beijing:implications for health care[J].Environment international,2020,139:105721.
[17] GUO J G,KONG Q,LIU C,et al.Evaluating the health risks of pneumonia from airborne bacterial communities using 16S rDNA sequences of pneumonia-related pathogens[J].Biomedical and environmental sciences,2021,34(4):265- 271.
[18] 孙宗科,毛怡心,丁培,等.大气污染期间室内空气微生物多样性分析[J].环境与健康杂志,2020,37(4):283- 286,376.
[19] GUO K Q,QIAN H,YE J,et al.Indoor exposure levels of bacteria and fungi in residences,schools,and offices in China:a systematic review[J].Building and environment,2021,205:108258.
[20] 魏小兵,贺会利,刘明成,等.环境中病毒富集与检测方法研究进展[J].中国畜牧兽医,2014,41(4):270- 274.
[21] 张唯,彭博宇,于振江,等.疫情期间公厕病原微生物的传播途径与防控措施建议[J].环境卫生工程,2021,29(1):9- 13.
[22] 毛怡心,丁培,孙宗科.马桶冲水行为与微生物气溶胶传播[J].微生物学报,2018,58(12):2070- 2077.
[23] 丁晓珏,张颖,齐小依.“平疫结合”医疗设施可行性排水措施[J].工程建设与设计,2021(增刊1):129- 133.
[24] 中华人民共和国国家健康卫生委员会.关于印发对新型冠状病毒感染实施“乙类乙管”总体方案的通知[EB/OL].[2023-09-01].http://www.nhc.gov.cn/xcs/zhengcwj/202212/e97e4c449d7a475794624b8ea1 2123c6.shtml.
Interpretation of T/CECS 873-2021 Technical specificationfor indoor airborne microbial contamination control
Abstract: This paper presents the compilation ideas and key contents of T/CECS 873-2021 Technical specification for indoor airborne microbial contamination control, including the background, process, main technical contents, key points and so on. The key provisions of the standard are interpreted to facilitate the user's implementation.
Keywords: indoor air quality; airborne microbial contamination; contamination control; contamination level evaluation indicator; standard interpreting;
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