PERSONAL EXPOSURE MONITORING TO PM2.5 USING PORTABLE SENSORS ON ONLINE MOTORCYCLE TAXI DRIVERS AND PACKAGE COURIERS IN BANDUNG CITY
Air pollution, especially Particulate Matter 2.5 (PM2.5), has become a disturbing global problem. In Indonesia, air pollution has reached alarming levels. Big cities like Bandung face serious issues related to air pollution, especially high levels of PM2.5. Vulnerable groups susceptible to the ne...
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| Format: | Theses |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/87024 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Air pollution, especially Particulate Matter 2.5 (PM2.5), has become a disturbing
global problem. In Indonesia, air pollution has reached alarming levels. Big cities
like Bandung face serious issues related to air pollution, especially high levels of
PM2.5. Vulnerable groups susceptible to the negative impacts of air pollution
include individuals who work outdoors such as online motorcycle taxi drivers and
package couriers. They are directly exposed to air pollution while working, which
can result in significant health decline. The purpose of this study was to assess
personal exposure to PM2.5 in various lingkungan mikros for 24 hours in Bandung
City, using low-cost sensors, aiming to understand exposure patterns and identify
factors that influence PM2.5 exposure levels. The sensor used to measure PM2.5
concentration is a portable AS-LUNG sensor uses a combination of GPS and
demographic surveys The results showed that individual exposure to PM2.5 varied
in the male online motorcycle taxi driver group, female online motorcycle taxi
driver group, and parcel courier group respectivel\ b\ 49.56 ?g/m3, 62.76 ?g/m3,
and 67.28 ?g/m3. CigareWWe Vmoke e[poVXre ZaV Whe main conWribXWing facWor
influencing increased PM2.5 exposure in all participant groups. The average
analysis of potential long-term health risks showed that only the male online
moWorc\cle Wa[i driYer parWicipanW groXp ZaV VWill in Whe ³Vafe´ caWegor\ ZiWh a RiVk
Quotient (RQ) value < 1. This finding underlines the importance of mitigation
measures to reduce PM2.5 exposure so as to prevent negative impacts on health. |
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