Emission of Dust and VOCs as Burning Incense Under Ventilation Conditions

Modern Environmental Science and Engineering Pub Date : 2022-05-22 DOI:10.15341/mese(2333-2581)/05.08.2022/006

Duong Cong Thinh, Nguyễn Văn Cừ, Thai Phuong Vu

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Abstract

This study determined emissions of incense burning, a traditional worship activity in Asian countries, under different ventilation conditions. The experiments were conducted in a chamber with a volume of 1 m3 (1´1´1 m3) without ventilation or under mechanical ventilation (6 m3/h). There were four different types of traditional and aromatic incense in terms of length (in centimeter) and color, including 27.0 cm (traditional Inc1 - yellow), 21.5 cm (aromatic Inc2 - brown), 30.0 cm (aromatic Inc3 - dark yellow) and 19.0 cm (traditional Inc4- dark red color). The incence was placed and lighted at 0.5 m in height inside of the chamber. PM10 and PM2.5 were directly monitored in the whole process of incense burning using Air Quality Detector (GM8803 and SIBATA - LD-5R) at the same position of 0.5m in height. VOCs was measured by chromatography at three different periods, i.e., before the incense was lighted, during the process of burning, and after the incense burned out. Study results showed that the variation of PM concentrations was separated into three phases: (p1) PM concentrations quickly increased within 15 minutes after being lighted, (p2) PM concentrations were stable from 20 minutes to 35 minutes, (p3) PM concentrations decreased gradually. The maxinum concentrations of PM10 without ventilation for Inc1, Inc2, Inc3, Inc4 were 2138, 2293, 2259, 2210 µg/m3, respectively; and they decreased about 40-70% under ventilation. The maxinum PM2.5 concentrations were about 870-1210 µg/m3 under ventilation or without ventilation. VOCs ended up no Benzen emissions with all the types of experimental incense. Inc1 emitted HCHO concentrations from 4.8 ppm to 5.4 ppm, which was one of the two types containing highest concentrations of Formaldehyde. Meanwhile, Inc3 emitted the lowest VOCs concentrations among the three remaining types, and no Toluen was detected, which showed the optimum effect of clean incense in comparison with traditional one. Key words: incense, VOC, particulate matter, ventilation, indoor pollution

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通风条件下燃烧熏香产生的粉尘和挥发性有机化合物的排放

本研究测定了在不同通风条件下，亚洲国家传统的祭祀活动——焚香的排放量。实验在容积为1 m3(1´1´1 m3)的室内进行，不通风或机械通风(6 m3/h)。按长度(厘米)和颜色分为四种不同类型的传统和芳香香，包括27.0厘米(传统Inc1 -黄色)、21.5厘米(传统Inc2 -棕色)、30.0厘米(传统Inc3 -深黄色)和19.0厘米(传统Inc4-深红色)。在室内放置并点燃高度为0.5 m的香。采用空气质量检测仪(GM8803和SIBATA - LD-5R)在同一位置0.5m高度直接监测焚香全过程的PM10和PM2.5。用色谱法测定了三个不同时期的挥发性有机化合物，即点燃前、燃烧过程中和燃尽后。研究结果表明，PM浓度的变化分为三个阶段:(p1) PM浓度在点亮后15分钟内迅速升高，(p2) PM浓度在20 ~ 35分钟内保持稳定，(p3) PM浓度逐渐下降。不通风时，Inc1、Inc2、Inc3、Inc4的PM10最大浓度分别为2138、2293、2259、2210µg/m3;它们在通风条件下下降了40-70%。通风和不通风条件下PM2.5的最大浓度约为870 ~ 1210µg/m3。在所有类型的实验香中，挥发性有机化合物最终没有苯的排放。Inc1排放的HCHO浓度从4.8 ppm到5.4 ppm不等，是甲醛浓度最高的两种类型之一。同时，在其余三种类型中，Inc3的VOCs浓度最低，没有检测到甲苯，表明清洁香的效果优于传统香。关键词:熏香，VOC，颗粒物，通风，室内污染

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来源期刊

Modern Environmental Science and Engineering

CiteScore

0.30

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0.00%

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