Particulate Matter as a Giant Fraction of Fossil Fuel in Urbanized Areas

JOURNAL OF NANOSCOPE (JN) Pub Date : 2021-06-30 DOI:10.52700/JN.V2I1.32

S. Ilyas, Ather Hassan

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Abstract

Fossil fuel injects particulate matter into a clean environment which has diverse effects on the biosphere. It is the cry of the masses which stimulates investigation of the local ambient environment for Particulate Matter (PM) and its sources. The purpose has been achieved by using versatile techniques such as Micro-Orifice Uniform Deposit Impactor (MOUDI™) for collection, Fourier Transform Infrared (FTIR) Spectrometry for characterization by Size Mass Concentration, and Atomic Absorption Spectroscopy techniques were utilized to identify and quantify different PM in the study area. The urban territories (different locations of Okara) were found contaminated with coarse, fine, and ultra-fine Particulate matter because of local industries and vehicular emissions. Coarse particles (PM10) of size 3.2 µm and 10 µm, fine particles (PM2.5) and Ultra-fine particles (0.056 µm) were quantified around 8 ?g/m3, 10 ?g/m3 and 25 ?g/m3 respectively. The obtained results could be linked with the widespread use of low-quality fossil fuels and the increased number of vehicles. The ultimate solution to the prevailing scenario can be in hand by switching over to renewable energies such as solar, hydrogen, and wind.

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颗粒物在城市化地区化石燃料中所占比例巨大

化石燃料将微粒物质注入清洁环境，对生物圈产生多种影响。正是群众的呼声激发了对当地环境中颗粒物(PM)及其来源的调查。通过使用多种技术，如微孔均匀沉积冲击器(MOUDI™)进行收集，傅里叶变换红外(FTIR)光谱法通过尺寸质量浓度进行表征，原子吸收光谱技术用于识别和量化研究区域的不同PM，目的已经实现。由于当地的工业和车辆排放，城市地区(大卡拉的不同地点)被发现受到粗、细和超细颗粒物的污染。粒径为3.2µm和10µm的粗颗粒(PM10)、细颗粒(PM2.5)和超细颗粒(0.056µm)分别在8 μ g/m3、10 μ g/m3和25 μ g/m3左右量化。所获得的结果可能与低质量化石燃料的广泛使用和车辆数量的增加有关。解决当前情况的最终办法是转向可再生能源，如太阳能、氢和风能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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JOURNAL OF NANOSCOPE (JN)

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