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二氧化碳(CO2)需求控制通风在大学计算机教室中的应用及对头痛、疲劳和感知室内环境的可能影响:一项干预研究。

Carbon dioxide (CO2) demand-controlled ventilation in university computer classrooms and possible effects on headache, fatigue and perceived indoor environment: an intervention study.

机构信息

Department of Medical Science, Occupational and Environmental Medicine, University Hospital, Uppsala University, 751 85 Uppsala, Sweden.

出版信息

Int Arch Occup Environ Health. 2013 Feb;86(2):199-209. doi: 10.1007/s00420-012-0756-6. Epub 2012 Mar 16.

DOI:10.1007/s00420-012-0756-6
PMID:22422010
Abstract

PURPOSE

To study the effects of a CO(2) demand-controlled ventilation system (variable flow) in computer classrooms on perceived air quality and sick building syndrome.

METHODS

University students (27% women) participated in a blinded study. Two classrooms had variable flow (mean 5.56 ac/h); two others had constant ventilation flow (mean 5.07 ac/h). After one week, ventilation conditions were shifted. The students reported symptoms/perceptions during the last hour on rating scales. Temperature, air humidity, CO(2), PM10 and number concentration of particles were measured simultaneously. Cat (Fel d 1), dog (Can f 1), horse (Equ cx) and house dust mites (Der f 1 and Der p 1) allergens were measured in dust. Those participating twice in the same classroom (N = 61) were analysed longitudinally.

RESULTS

Mean CO(2) was 784 ppm (9% of time >1,000 ppm) with variable flow and 809 ppm with constant flow conditions (25% of time >1,000 ppm). Mean temperature (22.6 °C), PM10 (18 μg/m(3)) and number concentration (1,860 pt/cm(3)) were unchanged. The median levels of cat, dog, horse and Der f 1 allergens were 10,400 ng/g, 4,900 ng/g, 13,700 U/ng and 260 ng/g dust, respectively. There were slightly less headache (p = 0.003), tiredness (p = 0.007) and improved perceived air quality (p = 0.02) with variable flow.

CONCLUSIONS

Use of a CO(2)-controlled ventilation system, reducing elevated levels of CO(2), may slightly reduce headache and tiredness and improve perceived air quality. The high levels of pet allergens, due to track in of allergens from the home and possible accumulation due to electrostatic forces, illustrate a need for improved cleaning.

摘要

目的

研究计算机教室内二氧化碳需求控制通风系统(变流量)对空气感知质量和病态建筑综合征的影响。

方法

大学生(27%为女性)参与了一项双盲研究。两个教室采用变流量(平均 5.56 ac/h);另外两个教室采用恒流量通风(平均 5.07 ac/h)。一周后,通风条件发生了变化。学生在评分量表上报告最后一小时的症状/感知。同时测量温度、空气湿度、CO2、PM10 和颗粒数浓度。在灰尘中测量猫(Fel d 1)、狗(Can f 1)、马(Equ cx)和屋尘螨(Der f 1 和 Der p 1)过敏原。那些在同一个教室两次参与(N = 61)的人进行了纵向分析。

结果

采用变流量时,平均 CO2 为 784 ppm(9%的时间> 1000 ppm),采用恒流量时为 809 ppm(25%的时间> 1000 ppm)。平均温度(22.6°C)、PM10(18μg/m3)和数浓度(1860 pt/cm3)不变。猫、狗、马和 Der f 1 过敏原的中值水平分别为 10400 ng/g、4900 ng/g、13700 U/ng 和 260 ng/g 灰尘。采用变流量时,头痛(p = 0.003)、疲倦(p = 0.007)和感知空气质量改善(p = 0.02)略有减少。

结论

使用 CO2 控制通风系统,降低 CO2 水平,可能会略微减少头痛和疲倦感,并改善感知空气质量。由于过敏原从家中带入并可能因静电积累,宠物过敏原水平较高,说明需要加强清洁。

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