STUDY OF METHANE GAS FLOW CHARACTERISTICS THROUGH ROCK FRACTURES AT LABORATORY SCALE
Abandoned coal mines can release methane gas (CH4) at a nearly constant rate over a long period. This methane gas (CH4) can flow to the surface through cracks and fissures in the rock layers above the coal mine. This research examines methane gas (CH4) flow characteristics in rock fractures throu...
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id-itb.:854652024-08-20T15:57:42ZSTUDY OF METHANE GAS FLOW CHARACTERISTICS THROUGH ROCK FRACTURES AT LABORATORY SCALE Satrio Saidpudin, M. Indonesia Final Project Fracture size, fracture type, diffusion coefficient, concentration, intrinsic permeability INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/85465 Abandoned coal mines can release methane gas (CH4) at a nearly constant rate over a long period. This methane gas (CH4) can flow to the surface through cracks and fissures in the rock layers above the coal mine. This research examines methane gas (CH4) flow characteristics in rock fractures through laboratory experiments, focusing on how fracture morphology size and type affects gas flow. Key parameters studied include methane concentration, diffusion coefficient (Dm), and intrinsic permeability (k). Results indicate that higher gas flow velocities correlate with greater diffusion coefficients (Dm), while smaller fractures result in lower diffusion coefficients (Dm) values. Simple fractures yield higher diffusion coefficients (Dm) than complex ones. Measured diffusion coefficients for the samples are: S1 (1.098 × 10-6 m²/s), S2 (1.465 × 10-6 m²/s), S3 (8.055 × 10-6 m²/s), K1 (2.929 × 10-7 m²/s), K2 (7.323 × 10-7 m²/s), and K3 (2.563 × 10-6 m²/s). The intrinsic permeability values are: S1 (8.333 × 10-8 m²), S2 (7.5 × 10-7 m²), S3 (2.083 × 10-6 m²), K1 (8.333 × 10-8 m²), K2 (7.5 × 10-7 m²), and K3 (2.083 × 10-6 m²). text |
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Abandoned coal mines can release methane gas (CH4) at a nearly constant rate
over a long period. This methane gas (CH4) can flow to the surface through cracks
and fissures in the rock layers above the coal mine. This research examines methane
gas (CH4) flow characteristics in rock fractures through laboratory experiments,
focusing on how fracture morphology size and type affects gas flow. Key
parameters studied include methane concentration, diffusion coefficient (Dm), and
intrinsic permeability (k). Results indicate that higher gas flow velocities correlate
with greater diffusion coefficients (Dm), while smaller fractures result in lower
diffusion coefficients (Dm) values. Simple fractures yield higher diffusion
coefficients (Dm) than complex ones. Measured diffusion coefficients for the
samples are: S1 (1.098 × 10-6 m²/s), S2 (1.465 × 10-6 m²/s), S3 (8.055 × 10-6 m²/s),
K1 (2.929 × 10-7 m²/s), K2 (7.323 × 10-7 m²/s), and K3 (2.563 × 10-6 m²/s). The
intrinsic permeability values are: S1 (8.333 × 10-8 m²), S2 (7.5 × 10-7 m²), S3 (2.083
× 10-6 m²), K1 (8.333 × 10-8 m²), K2 (7.5 × 10-7 m²), and K3 (2.083 × 10-6 m²). |
| format |
Final Project |
| author |
Satrio Saidpudin, M. |
| spellingShingle |
Satrio Saidpudin, M. STUDY OF METHANE GAS FLOW CHARACTERISTICS THROUGH ROCK FRACTURES AT LABORATORY SCALE |
| author_facet |
Satrio Saidpudin, M. |
| author_sort |
Satrio Saidpudin, M. |
| title |
STUDY OF METHANE GAS FLOW CHARACTERISTICS THROUGH ROCK FRACTURES AT LABORATORY SCALE |
| title_short |
STUDY OF METHANE GAS FLOW CHARACTERISTICS THROUGH ROCK FRACTURES AT LABORATORY SCALE |
| title_full |
STUDY OF METHANE GAS FLOW CHARACTERISTICS THROUGH ROCK FRACTURES AT LABORATORY SCALE |
| title_fullStr |
STUDY OF METHANE GAS FLOW CHARACTERISTICS THROUGH ROCK FRACTURES AT LABORATORY SCALE |
| title_full_unstemmed |
STUDY OF METHANE GAS FLOW CHARACTERISTICS THROUGH ROCK FRACTURES AT LABORATORY SCALE |
| title_sort |
study of methane gas flow characteristics through rock fractures at laboratory scale |
| url |
https://digilib.itb.ac.id/gdl/view/85465 |
| _version_ |
1822999181859487744 |