Indoor/Outdoor Relationships between PM10 and Associated Organic Compounds in a Primary School

Alves, Célia; Urban, Roberta Cerasi; Pegas, Priscilla; Nunes, Teresa

doi:10.4209/aaqr.2013.04.0114

Cited by 40 publications

(24 citation statements)

References 55 publications

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“…Further study will be needed to verify this finding. Overall, the measured concentrations of indoor VOCs were low in this study (Alves et al, 2014). The air pollutant concentrations were similar to those reported in the United States (Hodgson et al, 2000).…”

Section: Discussionsupporting

confidence: 68%

Prevalence of Sick Building Syndrome-Related Symptoms among Hospital Workers in Confined and Open Working Spaces

Chang

Yang

Wang

et al. 2015

Aerosol Air Qual. Res.

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Despite providing health care to others every day, people who work in a hospital are usually ignored about their healthy issue. This study is aimed to investigate the prevalence of sick building syndrome (SBS)-related symptoms among hospital workers. All participants in this study completed questionnaires during the year 2013. Indoor air pollutants, Carbon monoxide (CO), Carbon Dioxide (CO 2 ), particulate matter (PM) and Volatile organic compounds (VOCs), as well as bacteria and fungi concentrations were recorded during sampling. Associations between SBS-related symptoms, individual characteristics, and chemical concentrations were evaluated by multiple linear regression. About 84% of the subjects suffered from at least one SBS-related symptom, among which the most frequently reported symptom was nasal symptoms, accounting for 66%. Chemicals such as CO 2 , PM, VOCs tended to be significantly associated with SBS-related symptoms. There are various effects depending on the type of chemicals present and whether the working spaces are open or confined.

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Section: Discussionsupporting

confidence: 68%

Prevalence of Sick Building Syndrome-Related Symptoms among Hospital Workers in Confined and Open Working Spaces

Chang

Yang

Wang

et al. 2015

Aerosol Air Qual. Res.

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“…Activities of pupils, causing the resuspension of large particles are mainly responsible for the higher PM exposure in classrooms. The above statement is in agreement with previous published researches by [34] and [35]. For the same months, I/O ratio of PM 2.5 and PM 1 remained <1, which demonstrates the significant influence of external sources of emission.…”

Section: Air Exchange Ratessupporting

confidence: 93%

Indoor Air Quality and Thermal Conditions in a Primary School with a Green Roof System

Barmparesos

Assimakopoulos

et al. 2018

Atmosphere

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This paper presents experimental results from a typical school building in Athens, equipped partly with a green roof system (GRS). Environmental monitoring took place in six classrooms located both under the concrete roof and the GRS sectors as well as in the immediate external environment during the warm and cold periods of a school year. Daily measurements of pollutants CO 2 , TVOCs (Total Volatile Organic Compound), PM 1 , PM 2.5 , and PM 10 were performed in selected classes. Moreover, indoor ambient temperature (T) and relative humidity (RH) measurements were implemented in order to estimate the absolute humidity (AH) and assess the indoor environmental conditions. The results highlight that during summer, the GRS reduces temperature in a classroom on the top floor by about 2.8 • C, in comparison with the respective classroom under the concrete roof and that AH remained relatively stable for both classrooms. Amid winter, a reverse behavior occurs only for temperature. Moreover, air exchange rates (AER) were calculated by using the CO 2 decay method for all of the classrooms. The results demonstrated insufficient ventilation for all experimental sights. Finally, concentrations of PM 1 , PM 2.5 and PM 10 , were found to be relatively decreased, with average values of 0.79, 3.39, and 27.80 µg m −3 . Levels of CO 2 and TVOCs were elevated during class hours ranging from 469 to 779 ppm and from 6.63 ppm to 13.33 ppm, respectively, but generally within the respective limits of exposure. The examination of the indoor/outdoor (I/O) ratio of air pollutants, demonstrated that the outdoor meteorology affects only PM 1 and PM 2.5 , as PM 10 and TVOCs are strongly affected by internal sources and the activities of pupils.

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“…Indoor PM increased rapidly when occupants entered the room, slept and got up, then fell slowly after sleeping until they arose the next day. This was strongly related to the activities and movement of the occupants, which led to re-suspension of previously deposited particles or their delayed deposition or settling [31]. …”

Section: Resultsmentioning

confidence: 99%

Exposure to Particle Matters and Hazardous Volatile Organic Compounds in Selected Hot Spring Hotels in Guangdong, China

Song

Yan

et al. 2016

Atmosphere

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Abstract:In Guangdong province, many hot springs were exploited and developed into popular places for tourist. In addition, hotels have been set up near hot spring sites to attract people, including local citizens, to spend their spare time inside these so-called "spring hotels". In our study, indoor air quality was investigated in four hot spring hotels in Guangdong province, China. Measured indoor pollutants included CO 2 , CO, PM 10 , PM 2.5 and Volatile Organic Compounds (VOCs). As the result show, high concentrations of carbon dioxide might be attributed to poor ventilation; and the variations of indoor PM 10 , PM 2.5 concentrations were related to occupants' activities. Alpha-pinene and toluene were the most common VOC species in the hot spring hotels other than monocyclic aromatic hydrocarbons like Benzene, Toluene, Ethylbenzene and Xylenes (BTEX), which were at medium levels among the reported indoor pollutants. High cancer risk of benzene in the newly decorated rooms should be seriously taken into consideration in the future. Indoor to Outdoor air concentration ratios (I/O) for CO 2 and VOCs were higher than 1, indicating their strong indoor sources. Negative correlations were found between indoor CO 2 and all the other compounds, and VOCs were shown to be significantly correlated (p < 0.01) to each other, including aromatic hydrocarbons and mono-terpenes. For indoor and outdoor air compounds, correlation coefficients among all compounds did not show a significant correlation, which indicated that these pollutants had different sources. Principal components analysis by SPSS showed that indoor materials, inhabitants' activities and respiration, cleaning products and outdoor sources were the main sources of indoor detected pollutants in hot spring hotels.

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Indoor/Outdoor Relationships between PM10 and Associated Organic Compounds in a Primary School

Cited by 40 publications

References 55 publications

Prevalence of Sick Building Syndrome-Related Symptoms among Hospital Workers in Confined and Open Working Spaces

Prevalence of Sick Building Syndrome-Related Symptoms among Hospital Workers in Confined and Open Working Spaces

Indoor Air Quality and Thermal Conditions in a Primary School with a Green Roof System

Exposure to Particle Matters and Hazardous Volatile Organic Compounds in Selected Hot Spring Hotels in Guangdong, China

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