PM10, O₃, CO Concentrations and Elemental Analysis of Airborne Particles in a School Building

Measurements of indoor and outdoor PM10, as well as indoor O₃ and CO concentrations were conducted and are presented here. These measurements were carried out at an institute building, located in a suburban industrial area in Greece. Both indoor and outdoor PM10 samples were also collected and their...

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Published inWater, air & soil pollution: Focus Vol. 8; no. 1; pp. 77 - 87
Main Authors Triantafyllou, A. G, Zoras, S, Evagelopoulos, V, Garas, S
Format Journal Article
LanguageEnglish
Published Dordrecht Dordrecht : Springer Netherlands 01.02.2008
Springer Netherlands
Subjects
Atmospheric Protection/Air Quality Control/Air Pollution
CO indoor levels
Earth and Environmental Science
Environment
Environmental tobacco smoke
Hydrogeology
I/O ratio
Indoor air quality
PM
PM₁₀ elemental analysis
School buildings
CO indoor levels
I/O ratio
School buildings
elemental analysis
PM
O
Indoor air quality
Environmental tobacco smoke
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Abstract Measurements of indoor and outdoor PM10, as well as indoor O₃ and CO concentrations were conducted and are presented here. These measurements were carried out at an institute building, located in a suburban industrial area in Greece. Both indoor and outdoor PM10 samples were also collected and their elemental composition was identified by ED-XRF analysis. Twenty seven major, minor and trace elements were identified. The measurements took place generally in different periods of institute operation, from June 2004 to February 2005. The indoor PM10 concentrations which were measured during the normal operation period of the institute were found to be many times higher than the respective outdoor PM10 concentrations of the same periods. On the contrary, the indoor PM10 concentrations which were measured during the holiday period were found to be lower than their corresponding outdoor values. Indoor O₃ and CO concentrations were found to be in low level. Indoor PM10 concentrations were found to be in a relative good correlation with O₃ (r = 0.45) and in high correlation (r = 0.98) with CO concentrations. On average, total elements concentrations were much higher indoors relative to outdoors. Based on above findings we attempted to determine the pollution sources of the indoor environment and to investigate some parameters or chemical processes that affect indoor pollutants' levels.
AbstractList Measurements of indoor and outdoor PM10, as well as indoor O 3 and CO concentrations were conducted and are presented here. These measurements were carried out at an institute building, located in a suburban industrial area in Greece. Both indoor and outdoor PM10 samples were also collected and their elemental composition was identified by ED-XRF analysis. Twenty seven major, minor and trace elements were identified. The measurements took place generally in different periods of institute operation, from June 2004 to February 2005. The indoor PM10 concentrations which were measured during the normal operation period of the institute were found to be many times higher than the respective outdoor PM10 concentrations of the same periods. On the contrary, the indoor PM10 concentrations which were measured during the holiday period were found to be lower than their corresponding outdoor values. Indoor O 3 and CO concentrations were found to be in low level. Indoor PM10 concentrations were found to be in a relative good correlation with O 3 ( r  = 0.45) and in high correlation ( r  = 0.98) with CO concentrations. On average, total elements concentrations were much higher indoors relative to outdoors. Based on above findings we attempted to determine the pollution sources of the indoor environment and to investigate some parameters or chemical processes that affect indoor pollutants’ levels.
Measurements of indoor and outdoor PM10, as well as indoor O₃ and CO concentrations were conducted and are presented here. These measurements were carried out at an institute building, located in a suburban industrial area in Greece. Both indoor and outdoor PM10 samples were also collected and their elemental composition was identified by ED-XRF analysis. Twenty seven major, minor and trace elements were identified. The measurements took place generally in different periods of institute operation, from June 2004 to February 2005. The indoor PM10 concentrations which were measured during the normal operation period of the institute were found to be many times higher than the respective outdoor PM10 concentrations of the same periods. On the contrary, the indoor PM10 concentrations which were measured during the holiday period were found to be lower than their corresponding outdoor values. Indoor O₃ and CO concentrations were found to be in low level. Indoor PM10 concentrations were found to be in a relative good correlation with O₃ (r = 0.45) and in high correlation (r = 0.98) with CO concentrations. On average, total elements concentrations were much higher indoors relative to outdoors. Based on above findings we attempted to determine the pollution sources of the indoor environment and to investigate some parameters or chemical processes that affect indoor pollutants' levels.
Author Evagelopoulos, V
Zoras, S
Garas, S
Triantafyllou, A. G
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Issue 1
Keywords CO indoor levels
I/O ratio
School buildings
elemental analysis
PM
O
Indoor air quality
Environmental tobacco smoke
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Snippet Measurements of indoor and outdoor PM10, as well as indoor O₃ and CO concentrations were conducted and are presented here. These measurements were carried out...
Measurements of indoor and outdoor PM10, as well as indoor O 3 and CO concentrations were conducted and are presented here. These measurements were carried out...
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springer
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StartPage 77
SubjectTerms Atmospheric Protection/Air Quality Control/Air Pollution
CO indoor levels
Earth and Environmental Science
Environment
Environmental tobacco smoke
Hydrogeology
I/O ratio
Indoor air quality
PM
PM₁₀ elemental analysis
School buildings
Title PM10, O₃, CO Concentrations and Elemental Analysis of Airborne Particles in a School Building
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