Your search keyword '"Sarima Niampradit"' showing total 3 results

1. The Health Risks of Airborne Polycyclic Aromatic Hydrocarbons (PAHs): Upper North Thailand

Author

Jira Kongpran, Wissanupong Kliengchuay, Sarima Niampradit, Narut Sahanavin, Weerayuth Siriratruengsuk, and Kraichat Tantrakarnapa

Subjects

health risk assessment, north Thailand, PAHs, PM2.5, Environmental protection, TD169-171.8

Abstract

Abstract Every year, Northern Thailand faces haze pollution during the haze episode. The particulate matter (PM), including fine fraction (PM2.5), a coarse fraction (PM2.5–10), and 16 polycyclic aromatic hydrocarbons (PAHs), was measured in six provinces in upper north Thailand during the haze and non‐haze episodes in 2018. Eighty‐three percent of the PM2.5 measurements (21.8–194.0 µg/m3) during the haze episode exceeded the national ambient air quality standard in Thailand. All 16 PAHs were detected in the study area in both periods. The average concentration of total PAHs (particle‐bound and gas‐phase) during the haze episode was 134.7 ± 80.4 ng/m3, which was about 26 times higher than those in the non‐haze (5.1 ± 9.7 µg/m3). Naphthalene and acenaphthene were the dominant PAHs in the gas phase; whereas, indeno[123‐cd] pyrene, benzo[a]pyrene, and Benzo[ghi]Perylene were dominant in the particle‐bound phase. The estimated inhalation excess cancer risk from PAHs exposure was 9.3 × 10−4 and 2.5 × 10−5 in the haze episode and non‐haze, respectively. Diagnostic ratios and principal component analysis revealed that PAHs were derived from mixed sources of vehicle emission and solid combustion in the haze episode and vehicle emission in the non‐haze period. High pollution levels of PM and large cancer risk attributable to the exposure of PAHs in the haze episode suggest urgent countermeasures to reduce the source emission, especially from the solid combustion in the area.

Published

2021

2. The Elemental Characteristics and Human Health Risk of PM2.5 during Haze Episode and Non-Haze Episode in Chiang Rai Province, Thailand

Author

Sarima Niampradit, Wissanupong Kliengchuay, Rachaneekorn Mingkhwan, Suwalee Worakhunpiset, Nuttapohn Kiangkoo, Suntorn Sudsandee, Anuttara Hongthong, Weerayuth Siriratruengsuk, Thunyaluk Muangsuwan, and Kraichat Tantrakarnapa

Subjects

Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, PM2.5, elemental composition, health risk assessment, haze episode

Abstract

Fine particle matter (PM2.5) was directly related to seasonal weather, and has become the influencing factor of air quality that is harmful for human health in Chiang Rai province. The aims were determining the elemental composition in PM2.5 and human health risk in haze (March 2021) and non-haze episodes (July–August 2021). Nine elements in PM2.5 were measured by using an Atomic Absorption Spectrophotometer, and an enrichment factor was used to identify the emission source. The results showed that the average concentration of PM2.5 was 63.07 μg/m3 in haze episodes, and 25.00 μg/m3 in a non-haze episode. The maximum concentration was 116.7 μg/m3 in March. The majority of elements originated from anthropogenic sources. In haze episodes, PM2.5 mean concentration was approximately 4.2 times that of the WHO guidelines (15 μg/m3 24 h), and 1.3 times that of the Thai Ambient Air Quality Standard (50 μg/m3). The analysis of backward air mass trajectory showed that transboundary and local sources significantly influenced PM2.5 at the monitoring site in the sampling period. In the health risk assessment, the non-carcinogenic risk of Cd was the highest, with a Hazard Quotient (HQ) of 0.048, and the cancer risk of Cr was classified as the highest cancer risk, with the values of 1.29 × 10−5, higher than the minimum acceptable level.

Published

2022

3. The Health Risks of Airborne Polycyclic Aromatic Hydrocarbons (PAHs): Upper North Thailand

Author

Kraichat Tantrakarnapa, Sarima Niampradit, Jira Kongpran, Weerayuth Siriratruengsuk, Wissanupong Kliengchuay, and Narut Sahanavin

Subjects

Pollution, Haze, Epidemiology, Health, Toxicology and Mutagenesis, media_common.quotation_subject, Pollution: Urban, Regional and Global, General or Miscellaneous, Megacities and Urban Environment, Atmospheric Composition and Structure, PM2.5, Management, Monitoring, Policy and Law, Biogeosciences, Environmental protection, Oceanography: Biological and Chemical, chemistry.chemical_compound, north Thailand, Paleoceanography, PAHs, TD169-171.8, Waste Management and Disposal, Urban Systems, Water Science and Technology, Naphthalene, media_common, Aerosols, Global and Planetary Change, Marine Pollution, Public Health, Environmental and Occupational Health, Acenaphthene, Geohealth, Aerosols and Particles, Particulates, Ambient air, Oceanography: General, Pollution: Urban and Regional, chemistry, Quality standard, Environmental chemistry, Pyrene, Environmental science, health risk assessment, Public Health, Natural Hazards, Research Article

Abstract

Every year, Northern Thailand faces haze pollution during the haze episode. The particulate matter (PM), including fine fraction (PM2.5), a coarse fraction (PM2.5–10), and 16 polycyclic aromatic hydrocarbons (PAHs), was measured in six provinces in upper north Thailand during the haze and non‐haze episodes in 2018. Eighty‐three percent of the PM2.5 measurements (21.8–194.0 µg/m3) during the haze episode exceeded the national ambient air quality standard in Thailand. All 16 PAHs were detected in the study area in both periods. The average concentration of total PAHs (particle‐bound and gas‐phase) during the haze episode was 134.7 ± 80.4 ng/m3, which was about 26 times higher than those in the non‐haze (5.1 ± 9.7 µg/m3). Naphthalene and acenaphthene were the dominant PAHs in the gas phase; whereas, indeno[123‐cd] pyrene, benzo[a]pyrene, and Benzo[ghi]Perylene were dominant in the particle‐bound phase. The estimated inhalation excess cancer risk from PAHs exposure was 9.3 × 10−4 and 2.5 × 10−5 in the haze episode and non‐haze, respectively. Diagnostic ratios and principal component analysis revealed that PAHs were derived from mixed sources of vehicle emission and solid combustion in the haze episode and vehicle emission in the non‐haze period. High pollution levels of PM and large cancer risk attributable to the exposure of PAHs in the haze episode suggest urgent countermeasures to reduce the source emission, especially from the solid combustion in the area., Key Points Eighty‐three percent of the PM2.5 measurements (21.8–194.0 μg/m3) during the haze episode exceeded the ambient air quality standard in ThailandThe average concentration of total polycyclic aromatic hydrocarbons during the haze episode was about 26 times higher than those in the non‐hazeIndeno[123‐cd] pyrene, benzo[a]pyrene, and Benzo[ghi]Perylene were dominant in the particle‐bound phase

Published

2021