STUDY OF METHANE GAS FLOW CHARACTERISTICS THROUGH POROUS MEDIA AT LABORATORY SCALE
Methane gas (CH?) is a more dangerous greenhouse gas than Carbondioxide. Methane emissions are a by-product of underground coal mining. This methane gas can leak and accumulate in confined spaces or in the atmosphere. The quantity and rate of methane emissions depend on the strata and coal seams...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/85495 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Methane gas (CH?) is a more dangerous greenhouse gas than Carbondioxide.
Methane emissions are a by-product of underground coal mining. This methane gas
can leak and accumulate in confined spaces or in the atmosphere. The quantity and
rate of methane emissions depend on the strata and coal seams in the formations
above and below that are affected by mining. Therefore, it is necessary to determine
the amount of methane emissions from coal seams and overburden with various
lithologies and to study the characteristics of permeability and diffusivity. This
study aims to determine the characteristics of methane gas flow in various types of
rocks (porous media) at the laboratory scale using methane gas sensors and
conducted empirical calculations to compare with previous studies. The
characteristics of the porous media include values of porosity and intrinsic
permeability. Meanwhile, the characteristics of methane gas flow is the diffusion
coefficient that covers the gas flux. Analysis shows that porosity and intrinsic
permeability are directly proportional to flux and diffusion coefficient. The results
show the porosity of sandstone (20%) is greater than siltstone (7%), and their
intrinsic permeability values are 5.316 x 10-17 m2 (5.386 x 10-2 mD) and 1.076 x 10-
18 m2 (1.09 x 10-2 mD), and diffusion coefficient of methane gas for sandstone is
1.298 x 10-7 m2/s and siltstone is 1.623 x 10-8 m2/s. It can be concluded that the type
of porous media affects the characteristics of methane gas flow. The comparison
between the hydraulic conductivity of gas and liquid in sandstone is 3.641 x 10-7
m/s and 10-7.5 m/s and in siltstone 7.37 x 10-8 m/s and 10-11 m/s. |
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