ANALYSIS OF SUBBITUMINOUS COAL MINIMUM EXPLOSIBLE CONCENTRATION COAL DUST EXPLOSION SIZE 74-44 MICROMETER USING 20 LITER EXPLOSION CHAMBER
Many hazards and risks can occur during the mining process, including a coal dust explosion in an underground coal mine. A coal dust explosion can occur if five causative components are met simultaneously: fuel, oxygen, heat source, dispersion, and confinement. This research aims to determine the...
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id-itb.:752542023-07-26T10:42:23ZANALYSIS OF SUBBITUMINOUS COAL MINIMUM EXPLOSIBLE CONCENTRATION COAL DUST EXPLOSION SIZE 74-44 MICROMETER USING 20 LITER EXPLOSION CHAMBER Wahyunintan Putri, Marlina Indonesia Final Project Coal dust explosion, Siwek Chamber 20 liter, MEC, dust distribution, particle size INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/75254 Many hazards and risks can occur during the mining process, including a coal dust explosion in an underground coal mine. A coal dust explosion can occur if five causative components are met simultaneously: fuel, oxygen, heat source, dispersion, and confinement. This research aims to determine the Minimum Explosible Concentration (MEC), which is the minimum concentration of coal dust that can explode, to serve as a reference for avoiding coal dust explosions. The instrument used for the research is a 20 liter Siwek chamber, following the procedures outlined in ASTM E1226-19 and ASTM E1515-14. The test used a heat source of 4,61 kJ ignitor and a dust particle size of 74-44 ?m at concentrations of 50 g/???????? - 500 g/????????. According to ASTM E1515-14, dust is considered explosive if the Pressure Ratio (PR) value is ? 2 and the deflagration index (Kst) value is ? 1,5. Based on the conducted research, all tested concentrations were classified as explosion class 1 (weak explosion). From the analysis of the test data, the MEC value was obtained at a concentration of 130 g/????????. It can be concluded from the research that several factors influence the MEC value, such as volatile matter, calorific value, fixed carbon, particle size, and particle size range. In this study, particle size and particle size range had the most significant impact to MEC. As the particle size and range increase, the MEC value also increases because the distribution of dust during testing becomes uneven, and the reactive surface area decreases. text |
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Many hazards and risks can occur during the mining process, including a coal dust
explosion in an underground coal mine. A coal dust explosion can occur if five
causative components are met simultaneously: fuel, oxygen, heat source,
dispersion, and confinement. This research aims to determine the Minimum
Explosible Concentration (MEC), which is the minimum concentration of coal dust
that can explode, to serve as a reference for avoiding coal dust explosions. The
instrument used for the research is a 20 liter Siwek chamber, following the
procedures outlined in ASTM E1226-19 and ASTM E1515-14. The test used a heat
source of 4,61 kJ ignitor and a dust particle size of 74-44 ?m at concentrations of
50 g/???????? - 500 g/????????. According to ASTM E1515-14, dust is considered explosive
if the Pressure Ratio (PR) value is ? 2 and the deflagration index (Kst) value is ?
1,5. Based on the conducted research, all tested concentrations were classified as
explosion class 1 (weak explosion). From the analysis of the test data, the MEC
value was obtained at a concentration of 130 g/????????. It can be concluded from the
research that several factors influence the MEC value, such as volatile matter,
calorific value, fixed carbon, particle size, and particle size range. In this study,
particle size and particle size range had the most significant impact to MEC. As the
particle size and range increase, the MEC value also increases because the
distribution of dust during testing becomes uneven, and the reactive surface area
decreases. |
| format |
Final Project |
| author |
Wahyunintan Putri, Marlina |
| spellingShingle |
Wahyunintan Putri, Marlina ANALYSIS OF SUBBITUMINOUS COAL MINIMUM EXPLOSIBLE CONCENTRATION COAL DUST EXPLOSION SIZE 74-44 MICROMETER USING 20 LITER EXPLOSION CHAMBER |
| author_facet |
Wahyunintan Putri, Marlina |
| author_sort |
Wahyunintan Putri, Marlina |
| title |
ANALYSIS OF SUBBITUMINOUS COAL MINIMUM EXPLOSIBLE CONCENTRATION COAL DUST EXPLOSION SIZE 74-44 MICROMETER USING 20 LITER EXPLOSION CHAMBER |
| title_short |
ANALYSIS OF SUBBITUMINOUS COAL MINIMUM EXPLOSIBLE CONCENTRATION COAL DUST EXPLOSION SIZE 74-44 MICROMETER USING 20 LITER EXPLOSION CHAMBER |
| title_full |
ANALYSIS OF SUBBITUMINOUS COAL MINIMUM EXPLOSIBLE CONCENTRATION COAL DUST EXPLOSION SIZE 74-44 MICROMETER USING 20 LITER EXPLOSION CHAMBER |
| title_fullStr |
ANALYSIS OF SUBBITUMINOUS COAL MINIMUM EXPLOSIBLE CONCENTRATION COAL DUST EXPLOSION SIZE 74-44 MICROMETER USING 20 LITER EXPLOSION CHAMBER |
| title_full_unstemmed |
ANALYSIS OF SUBBITUMINOUS COAL MINIMUM EXPLOSIBLE CONCENTRATION COAL DUST EXPLOSION SIZE 74-44 MICROMETER USING 20 LITER EXPLOSION CHAMBER |
| title_sort |
analysis of subbituminous coal minimum explosible concentration coal dust explosion size 74-44 micrometer using 20 liter explosion chamber |
| url |
https://digilib.itb.ac.id/gdl/view/75254 |
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