Particulate-bound polycyclic aromatic hydrocarbons in naturally ventilated multi-storey residential buildings of Singapore: Vertical distribution and potential health risks

The main objective of the study is to quantify the polycyclic aromatic hydrocarbons (PAHs) concentration levels (US EPA priority components) in fine traffic-generated particles (PM 2.5) at various heights of typical multi-storey public housing buildings located in close proximity, i.e. within 30 m a...

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Published in	Building and environment Vol. 44; no. 2; pp. 418 - 425
Main Authors	Kalaiarasan, M., Balasubramanian, R., Cheong, K.W.D., Tham, K.W.
Format	Journal Article
Language	English
Published	Kidlington Elsevier Ltd 01.02.2009 Elsevier
Subjects	Ambient temperature Applied sciences Building technical equipments Buildings Buildings. Public works Diesel engines Engine blocks Environmental engineering Equivalence Estimates Exact sciences and technology Fine particulate matter Health Health effects of aerosols High rise building Inhalation Meteorological parameters Naphthalene PAHs Pollution indoor buildings Polyallylamine hydrochloride Polycyclic aromatic hydrocarbons Priorities Public housing Relative humidity Risk Slabs Types of buildings Vehicles Ventilation. Air conditioning Vertical distribution Vertical distribution profile Asia Singapore Vertical distribution profile PAHs Health effects of aerosols Fine particulate matter Wind Hydrocarbon Site analysis Vertical distribution Traffic Risk analysis Polycyclic aromatic compound Natural ventilation Particle Health hazards Indoor pollution High rise building
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Abstract	The main objective of the study is to quantify the polycyclic aromatic hydrocarbons (PAHs) concentration levels (US EPA priority components) in fine traffic-generated particles (PM 2.5) at various heights of typical multi-storey public housing buildings located in close proximity, i.e. within 30 m and along a busy major expressway in Singapore. The secondary objective is to estimate the potential health risks associated with inhalation exposure, based on the toxic equivalency factors (TEFs) at the various floors of these buildings. Two typical public housing buildings, both naturally ventilated residential apartment blocks, of point block configuration (22-storey) and slab block configuration (16-storey) were selected for the study. Particulate samples were collected for chemical analysis at three representative floors: the lower, the mid, and the upper floors of the buildings. Key meteorological parameters such as wind speed, wind direction, ambient temperature, and relative humidity were also measured at the representative floors. All samples were analyzed for the 16 PAH priority pollutants listed by US EPA. The vertical PAH distribution profile varies with height of building depending on the type of block configuration. The total mean concentrations of particulate PAHs for point and slab blocks are 3.32±1.76 ng/m 3 (0.56–7.2 ng/m 3) and 6.0±1.88 ng/m 3 (3.19–10.26 ng/m 3), respectively. For the point block, the highest mean total PAH concentration occurred at the mid floor followed by the upper floor. The lower floor had the least mean total PAH concentration. For the slab block, the highest mean total PAH concentration occurred at the lower floor and remained almost constant up to the mid floor and thereafter gradually decreased from mid floor to upper floor of the building. These results suggest that the building configuration influences the vertical distribution of particulate PAHs. The dominant particulate PAHs measured at the point block are naphthalene, acenaphthylene, benzo( b)fluoranthene, and benzo( g, h, i)perylene while those for the slab block, the main particulate PAHs are naphthalene, phenanthrene, fluoranthene, and benzo( g, h, i)perylene. The Bpe/Ind ratio for both blocks ranged from 0.92±0.2 to 1.63±0.6 indicating particulate PAHs are contributed by a mixture of both diesel and petrol engine type of vehicles, with diesel engine vehicles contributing a higher percentage of particulate PAHs to the different floor levels of both buildings. The total BaP eq concentrations for point and slab blocks are 1.06±0.64 ng/m 3 (0.14–2.45 ng/m 3) and 0.94±1.22 ng/m 3 (0.10–4.59 ng/m 3), respectively. The total BaP equivalency results showed the potential health risk to cancer due to inhalation exposure is of concern for residents living in both blocks since the total BaP eq concentrations for both blocks were very close to, or slightly exceeded the maximum permissible risk level of 1 ng/m 3 of benzo( a)pyrene.
AbstractList	Particulate-bound polycyclic aromatic hydrocarbons in naturally ventilated multi-storey residential buildings of Singapore were examined. Key meteorological parameters such as wind speed, wind direction, ambient temperature, and relative humidity were also concurrently measured at the same sampling locations. The particulate samples were collected using portable, battery-operated low volume samplers (MiniVol). The traffic data obtained were recorded continuously by the Land Transport Authority (LTA) of Singapore. The traffic composition analysis indicated that petrol-driven passenger cars fitted with catalytic converters were the major contributor to traffic counts. The vertical PAH distribution profile varied considerably with the height of building depending on the type of block configuration. The main objective of the study is to quantify the polycyclic aromatic hydrocarbons (PAHs) concentration levels (US EPA priority components) in fine traffic-generated particles (PM 2.5) at various heights of typical multi-storey public housing buildings located in close proximity, i.e. within 30 m and along a busy major expressway in Singapore. The secondary objective is to estimate the potential health risks associated with inhalation exposure, based on the toxic equivalency factors (TEFs) at the various floors of these buildings. Two typical public housing buildings, both naturally ventilated residential apartment blocks, of point block configuration (22-storey) and slab block configuration (16-storey) were selected for the study. Particulate samples were collected for chemical analysis at three representative floors: the lower, the mid, and the upper floors of the buildings. Key meteorological parameters such as wind speed, wind direction, ambient temperature, and relative humidity were also measured at the representative floors. All samples were analyzed for the 16 PAH priority pollutants listed by US EPA. The vertical PAH distribution profile varies with height of building depending on the type of block configuration. The total mean concentrations of particulate PAHs for point and slab blocks are 3.32±1.76 ng/m 3 (0.56–7.2 ng/m 3) and 6.0±1.88 ng/m 3 (3.19–10.26 ng/m 3), respectively. For the point block, the highest mean total PAH concentration occurred at the mid floor followed by the upper floor. The lower floor had the least mean total PAH concentration. For the slab block, the highest mean total PAH concentration occurred at the lower floor and remained almost constant up to the mid floor and thereafter gradually decreased from mid floor to upper floor of the building. These results suggest that the building configuration influences the vertical distribution of particulate PAHs. The dominant particulate PAHs measured at the point block are naphthalene, acenaphthylene, benzo( b)fluoranthene, and benzo( g, h, i)perylene while those for the slab block, the main particulate PAHs are naphthalene, phenanthrene, fluoranthene, and benzo( g, h, i)perylene. The Bpe/Ind ratio for both blocks ranged from 0.92±0.2 to 1.63±0.6 indicating particulate PAHs are contributed by a mixture of both diesel and petrol engine type of vehicles, with diesel engine vehicles contributing a higher percentage of particulate PAHs to the different floor levels of both buildings. The total BaP eq concentrations for point and slab blocks are 1.06±0.64 ng/m 3 (0.14–2.45 ng/m 3) and 0.94±1.22 ng/m 3 (0.10–4.59 ng/m 3), respectively. The total BaP equivalency results showed the potential health risk to cancer due to inhalation exposure is of concern for residents living in both blocks since the total BaP eq concentrations for both blocks were very close to, or slightly exceeded the maximum permissible risk level of 1 ng/m 3 of benzo( a)pyrene. The main objective of the study is to quantify the polycyclic aromatic hydrocarbons (PAHs) concentration levels (US EPA priority components) in fine traffic-generated particles (PM sub(2) sub(.) sub(5)) at various heights of typical multi-storey public housing buildings located in close proximity, i.e. within 30m and along a busy major expressway in Singapore. The secondary objective is to estimate the potential health risks associated with inhalation exposure, based on the toxic equivalency factors (TEFs) at the various floors of these buildings. Two typical public housing buildings, both naturally ventilated residential apartment blocks, of point block configuration (22-storey) and slab block configuration (16-storey) were selected for the study. Particulate samples were collected for chemical analysis at three representative floors: the lower, the mid, and the upper floors of the buildings. Key meteorological parameters such as wind speed, wind direction, ambient temperature, and relative humidity were also measured at the representative floors. All samples were analyzed for the 16 PAH priority pollutants listed by US EPA. The vertical PAH distribution profile varies with height of building depending on the type of block configuration. The total mean concentrations of particulate PAHs for point and slab blocks are 3.32+/-1.76ng/m super(3) (0.56-7.2ng/m super(3)) and 6.0+/-1.88ng/m super(3) (3.19-10.26ng/m super(3)), respectively. For the point block, the highest mean total PAH concentration occurred at the mid floor followed by the upper floor. The lower floor had the least mean total PAH concentration. For the slab block, the highest mean total PAH concentration occurred at the lower floor and remained almost constant up to the mid floor and thereafter gradually decreased from mid floor to upper floor of the building. These results suggest that the building configuration influences the vertical distribution of particulate PAHs. The dominant particulate PAHs measured at the point block are naphthalene, acenaphthylene, benzo(b)fluoranthene, and benzo(g,h,i)perylene while those for the slab block, the main particulate PAHs are naphthalene, phenanthrene, fluoranthene, and benzo(g,h,i)perylene. The Bpe/Ind ratio for both blocks ranged from 0.92+/-0.2 to 1.63+ /-0.6 indicating particulate PAHs are contributed by a mixture of both diesel and petrol engine type of vehicles, with diesel engine vehicles contributing a higher percentage of particulate PAHs to the different floor levels of both buildings. The total BaP sub(e) sub(q) concentrations for point and slab blocks are 1.06+/-0.64ng/m super(3) (0.14-2.45ng/m super(3)) and 0.94+/-1.22ng/m super(3) (0.10-4.59ng/m super(3)), respectively. The total BaP equivalency results showed the potential health risk to cancer due to inhalation exposure is of concern for residents living in both blocks since the total BaP sub(e) sub(q) concentrations for both blocks were very close to, or slightly exceeded the maximum permissible risk level of 1ng/m super(3) of benzo(a)pyrene.
Author	Balasubramanian, R. Kalaiarasan, M. Cheong, K.W.D. Tham, K.W.
Author_xml	– sequence: 1 givenname: M. surname: Kalaiarasan fullname: Kalaiarasan, M. email: g0403455@nus.edu.sg – sequence: 2 givenname: R. surname: Balasubramanian fullname: Balasubramanian, R. email: eserbala@nus.edu.sg – sequence: 3 givenname: K.W.D. surname: Cheong fullname: Cheong, K.W.D. email: bdgckw@nus.edu.sg – sequence: 4 givenname: K.W. surname: Tham fullname: Tham, K.W. email: bdgtkw@nus.edu.sg
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Keywords	Vertical distribution profile PAHs Health effects of aerosols Fine particulate matter Wind Hydrocarbon Site analysis Vertical distribution Traffic Risk analysis Polycyclic aromatic compound Natural ventilation Particle Health hazards Indoor pollution High rise building
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Snippet	The main objective of the study is to quantify the polycyclic aromatic hydrocarbons (PAHs) concentration levels (US EPA priority components) in fine... Particulate-bound polycyclic aromatic hydrocarbons in naturally ventilated multi-storey residential buildings of Singapore were examined. Key meteorological...
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SubjectTerms	Ambient temperature Applied sciences Building technical equipments Buildings Buildings. Public works Diesel engines Engine blocks Environmental engineering Equivalence Estimates Exact sciences and technology Fine particulate matter Health Health effects of aerosols High rise building Inhalation Meteorological parameters Naphthalene PAHs Pollution indoor buildings Polyallylamine hydrochloride Polycyclic aromatic hydrocarbons Priorities Public housing Relative humidity Risk Slabs Types of buildings Vehicles Ventilation. Air conditioning Vertical distribution Vertical distribution profile
Title	Particulate-bound polycyclic aromatic hydrocarbons in naturally ventilated multi-storey residential buildings of Singapore: Vertical distribution and potential health risks
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