ANALYSIS OF DIURNAL VARIATION OF PM2.5 CONCENTRATION AND TRAJECTORY ON EXTREME DAYS IN JULY 2023 IN SOUTH TANGERANG
South Tangerang is a rapidly developing city, with most of its areas dominated by residential zones and industrial activities. The city is in a lowland region with elevations ranging from 0 to 62,5 meters above sea level. The highest population density is recorded in Pamulang District, with ov...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/86202 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | South Tangerang is a rapidly developing city, with most of its areas dominated by
residential zones and industrial activities. The city is in a lowland region with
elevations ranging from 0 to 62,5 meters above sea level. The highest population
density is recorded in Pamulang District, with over 360.000 inhabitants. According
to the Nafas report (2023), South Tangerang ranked first as the city with the highest
PM2.5 concentration in Indonesia in July 2023, with an average PM2.5 level
reaching 60 ?gm-3, classified under the "unhealthy" air quality index according to
WHO and US EPA standards. Therefore, it is essential to identify the diurnal
variation of PM2.5 concentration and analyze pollutant trajectories on extreme
days to understand the spread of pollutants in South Tangerang.
This study utilized PM2.5 concentration data from five sensor points across South
Tangerang, measured both spatially and temporally during extreme days in July
2023. Additionally, wind speed and direction data from the Budiarto
Meteorological Station (ISD_Lite) and meteorological data from ERA5 reanalysis
were used. These data were processed to determine how meteorological conditions
and wind patterns contributed to the accumulation of pollutants as well as the
potential spread of PM2.5 during these extreme days.
The results showed that the highest PM2.5 concentration occurred during the early
morning (00.00–06.00 WIB) when wind speeds ranged from 0.5 to 0.7 m/s, with
winds predominantly blowing from the southwest (higher elevations) to the
northeast (lower elevations), and during the evening (16.00–23.00 WIB) when wind
speeds ranged from 2.0 to 0.1 ms-1, with winds blowing from the north (lower
elevations) to the south (higher elevations). The highest recorded concentration,
117.79 ?gm-3, was observed in the Serpong area. The relationship between PM2.5
concentration, wind speed, and wind direction indicated a strong negative
correlation (-0.68), where a decrease in wind speed led to an accumulation of
PM2.5. However, wind speed and direction were not the only factors influencing
the increase in PM2.5 concentration. On extreme pollution days, forward trajectory
analysis showed that pollutants spread toward the northwest (Serang and
Tangerang Regency), while backward trajectory analysis indicated that pollutants
originated from industrial areas in the southeast (Bogor Regency and Depok) |
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