STUDY OF CARBON TRACE AND STORAGE IN GROUNDWATER USING HYDROGEOCHEMICAL AND STABLE ISOTOPE ANALYSIS
Study of carbon trace and storage in groundwater in the Jakarta Groundwater Basin aims to determine changes in isotopic composition in the carbon cycle and carbon storage in groundwater due to increases in CO2 concentrations in the air. The method for tracing the carbon cycle in groundwater uses...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/87143 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Study of carbon trace and storage in groundwater in the Jakarta Groundwater Basin aims
to determine changes in isotopic composition in the carbon cycle and carbon storage in
groundwater due to increases in CO2 concentrations in the air. The method for tracing the carbon
cycle in groundwater uses chemical analysis and natural isotopes ?
13C, ?
18O and ?
2H as well as
calculating the partial pressure of CO2 in water samples (groundwater, rainwater, surface water
and seawater) and gas samples (atmospheric gas and vehicle emissions).
The analysis results show that the dominant groundwater facies in the unconfined aquifer
system is Ca-HCO3 and the confined aquifer system is Na-HCO3. Groundwater dilution by
rainwater is recorded from a decrease in TDS values and changes in the ?
18O isotope composition.
Changes in unconfined aquifers from an average of 326 mg/L to 320 mg/L and confined aquifers
from an average value of 806 mg/L to 752 mg/L as well as changes in the isotopic composition of
?
18O which is depleted in unconfined aquifer groundwater (-5,7 ‰ to -6,5 ‰) and confined
aquifers (-5,9‰ to -6,3‰). For the ?
2H value, enrichment occurs with a value of -37,5 ‰ to -34,0
‰ in the unconfined aquifer and -37.3 ‰ to -36.2 ‰ in the confined aquifer. This change indicates
the presence of carbon gas mixed in the groundwater. Traces of the carbon cycle can be traced
through changes in the ?¹³C isotope composition which in the Jakarta Groundwater Basin reflects
the influence of anthropogenic factors, namely the burning of fossil fuels with a ?¹³C value of
around -23 ‰. As a result, the value of ?¹³C in the atmosphere has decreased from -9 ‰ to -13 ‰.
The gas diffuses into rainwater and change pCO2 of around 1,47-2,46% with ?
13C in the range -
14 ‰ to -19 ‰. Rainwater infiltration into unconfined aquifer groundwater has more dynamic
changes with ?
13C in the range -9 ‰ to -13 ‰ and pCO2 1,30-1,39 % compared to confined aquifer
systems which are more stable ?
13C in the range -8 ‰ to -10 ‰ and pCO2 0,45 – 0,57 %. Based
on the results of groundwater pCO2 calculations, unconfined aquifers store approximately ± 3
times more CO2 than confined aquifers |
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