STUDY ON THE INFLUENCE OF COAL CHARACTERISTICS FROM THE BARITO AND SOUTH SUMATRA BASINS ON GASIFICATION REACTIVITY USING THERMOGRAVIMETRIC ANALYSIS-MASS SPECTROMETRY (TGA-MS)
The abundant coal resources in Indonesia drive the development of further technologies like gasification for more environmentally friendly utilization. Gasification reactivity is a critical factor in designing and operating gasification reactors. Therefore, understanding the characteristics of In...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/84920 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The abundant coal resources in Indonesia drive the development of further
technologies like gasification for more environmentally friendly utilization.
Gasification reactivity is a critical factor in designing and operating gasification
reactors. Therefore, understanding the characteristics of Indonesian coal is
necessary to comprehend its impact on gasification reactivity. This study uses two
coal samples: BB-01 from Central Kalimantan Province and BB-02 from South
Sumatra. The gasification reactivity analysis was performed using
thermogravimetry, focusing on thermal characteristics during the pyrolysis and
gasification processes. Thermogravimetric analysis involves heating the samples
from 50°C to 900°C at a rate of 10°C/min using an Argon (Ar) atmosphere,
conditioning the samples for 10 minutes at 900°C to achieve isothermal conditions,
and changing the atmosphere to 25% air and 75% Argon (Ar). The coal
characteristics were analyzed using proximate analysis, ultimate analysis, and
calorific value analysis. Mass spectrometry analysis was conducted for m/z 2, 16,
18, 28, and 44. The results indicate that the BB-01 sample is classified as High-
Volatile A Bituminous coal, while the BB-02 sample is classified as High-Volatile
C Bituminous coal. During the gasification process, the BB-01 sample exhibited
higher reactivity compared to the BB-02 sample, influenced by the higher ash
content in the BB-01 sample. During the pyrolysis process, the products H2, CH4,
H2O, CO, and CO2 are produced, while during the gasification process, the
dominant products formed are H2O and CO2. |
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