Search results for: Siwatt Pongpiachan

Authors: Woranuch Deelaman, Chomsri Choochuay, Siwatt Pongpiachan, Danai Tipmanee

Abstract:

In this work, perform an analysis to identify the source of PAHs in particulate matter (PM). The five sizes are 0.1, 0.5, 1, 2.5, and 10 microns from Nakhon Ratchasima province, Thailand. Nakhon Ratchasima is a province in the northeastern part of Thailand. It has an area of 20,493 square kilometers and a forest area of 2,297,735 rai, making it the second largest area in the country. The major economies of Nakhon Ratchasima Province have an important structure, including the industrial sector. The agricultural sector and wholesale and retail trade accounted for 22.46 percent, 19.82 percent, and 14.91 percent, respectively. This study, we collected particulates using the Nano-sampler II sampling tool for a month. PM samples (n = 20) were collected in Tambon Suranari (14°52'05.6"N, 102°00'31.8"E) is a sub-district located in the Mueang district of Nakhon Ratchasima province. It is an important area consisting of community sites, educational institutions, universities, hospitals, religious places, and industrial areas. The samples collected from November 1, 2024 to November 30, 2024. Then, the PM samples were wrapped with aluminium foil and stored at −4 °C until the analysis.The PAHs were chemically extracted for eight hours using a Soxhlet extractor and internal standards (deuterated-fluorene (d10-Fl): phenanthrene, anthracene, fluoranthene, pyrene, 11 H-benzo[a]fluorene, 11 H-benzo[b]fluorene, chrysene; deuterated-perylene (d12-Per): benzo[b]fluoranthene, benzo[k]fluoranthene, benzo[a] pyrene, benzo[e]pyrene, indeno[1,2,3-cd]pyrene, dibenz[a,h]anthracene, and benzo[g,h,i]perylene using DCM as a solvent, and then analyzed 15 PAHs from the PM using a gas chromatograph-mass spectrometer (Shimadzu GCMS-QP, 2010 Ultra) in the selective ion monitoring mode. The sources of PAHs in Nakhon Ratchasima particulate matter were determined using a combination of multivariate descriptive statistics and diagnostic binary ratios of PAHs. The source of PAHs in particulate matter was identified using five diagnostic binary ratios of PAH isomer pairs: An/(An + Phe), Fluo/(Fluo + Pyr), B[a]A/(B[a]A + Chry), Ind/(Ind + B[g,h,i]P), and B[a]P/B[g,h,i]P. According to the diagnostic ratio, the majority of the PAHs found in the particulate matter samples came from pyrogenic sources, which include incomplete burning of biomass and petroleum. Additionally, multivariate descriptive statistics (principal components analysis (PCA)) were used to identify the source of 15 PAHs in the Nakhon Ratchasima sample of particulate matter. The results of the PCA identification of aromatic polycyclic hydrocarbons in PM show that incomplete combustion from the use of fuel is also a major source of aromatic polycyclic hydrocarbons in Nakhon Ratchasima province. In the future, we anticipate that the study will help the environmental planning management of Thailand's Nakhon Ratchasima province and many other nations.

Keywords: polycyclic aromatic hydrocarbons (PAHs), particulate matter (PM), diagnostic binary ratio, source apportionment

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Authors: Chomsri Choochuay, Woranuch Deelaman, Siwatt Pongpiachan, Danai Tipmanee

Abstract:

Particulate matter (PM) is essential for comprehending climate change, alleviating negative health impacts, and formulating air pollution management strategies. There isn't enough knowledge about the chemical processes and factors that affect the occurrence and development of particle formation events. This study looked at the number of PM in the air and how they were distributed in size in Phuket province, Thailand, during the dry season (November). it used a cascade impactor (Nanosampler II Model 3182 Specifications) with 47-mm quartz filters and a 40 L min–1 flow rate. Each sample was collected over a period of 120 hours, and then it was properly stored in individual petri slide plates before being placed in the refrigerator. This was done to ensure that the samples' chemical makeup was preserved until further analysis was required. The focus of our research is to find the source of PM in the sampling area, and polycyclic aromatic hydrocarbons (PAHs) have been used for identification and quantification. The Soxhlet extraction method performed the PAHs analysis. the first mixed the sample with an internal standard. it used dichloromethane (DCM) as the solvent and continued the extraction for 8 hours. Finally, it separated the PAHs from the solution using column chromatography, which got it ready for the next step of the analysis process. PAHs are non-polar organic molecules. the accomplished this by integrating in-port thermal desorption with gas chromatography/mass spectrometry (GC/MS). This method allows for the effective separation and identification of PAHs in complex environmental samples. By comparing the results from both techniques, we can gain deeper insights into the presence and concentration of these harmful compounds. For the source appointment of PM in ambient air in Phuket, it used the different forms of PAHs as indicators depending on their sources; there is a method for determining their origins known as the “diagnostic ratio.” The result shows the diagnostic ratios employed with their normally reported values for source points in this investigation. The comparisons of (Fluo/Fluo + Pry vs. An/An + Phe) and (B[a]A/B[a]A + Chry vs. Ind/Ind + B[g,h,i]P) showed that most PAHs come from things that people do. Therefore, human activities are the primary source of PAHs in PM samples. PMs that have been conducted in Phuket's ambient air pointed out that the major source of PAHs is thought to be the incomplete combustion of petroleum products, which is caused by the combustion of vehicular exhausts, as well as open burning of agricultural areas to prepare for the next crop season. According to this study, vehicle exhaust and biomass burning are the main sources of PAHs in Phuket's air. This implies that reducing emissions from these sources is crucial for enhancing air quality. Implementing stricter regulations on vehicle emissions and promoting cleaner combustion practices could be effective strategies for mitigating this issue.

Keywords: particulate matter (PM), polycyclic aromatic hydrocarbons (PAHs), air pollutions, source appointment

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