Add to ORKGThis paper focuses on two areas, gas and stress. It discusses the measurement of relevant parameters for mine design and aims to assist operating mines keep abreast of changing conditions to avoid problems. An understanding of the factors which affect the reservoir capacity of a coal seam is essential as an aid to better mine planning
AbstractThe stress sensitivity of coal bed methane(CBM) has strong influence on the production. Duri...
A few number of gas reservoir parameters regulate the intensity and the extent of gas emissions duri...
Deep (>4920 ft; >1500 m) coal seams of the Cooper Basin accommodate large amounts of natural gas; ho...
Removing gases form mine environment represents the most important challenge that any mine operator ...
Gas production from coal seams has attracted a great deal of attention around the world and in parti...
One of the most hazardous forms of dynamic phenomena associated with underground coal mining has bee...
In coal seam gas (CSG), also known as coalbed methane (CBM), appraisal, the development potential of...
This paper reviews the basic factors and practice of mining gassy coals worldwide. It then suggests ...
The main constrain for effective gas drainage in coal mines is the low permeability nature of coal r...
During mining or roadway development, the distribution of stress and pore pressure in the coal face ...
Many Australian underground coal mines have or are likely to encounter areas of increased gas conten...
Due to the poroelasticity of coal, both porosity and permeability change over the life of the field ...
Advances in coal production over the last 20 years have led to an increase in coal mine gas emission...
Advances in coal production over the last 20 years have led to an increase in coal mine gas emission...
Coal seams are compact gas reservoirs and can contain large volumes of methane (CH4) and carbon diox...
AbstractThe stress sensitivity of coal bed methane(CBM) has strong influence on the production. Duri...
A few number of gas reservoir parameters regulate the intensity and the extent of gas emissions duri...
Deep (>4920 ft; >1500 m) coal seams of the Cooper Basin accommodate large amounts of natural gas; ho...
Removing gases form mine environment represents the most important challenge that any mine operator ...
Gas production from coal seams has attracted a great deal of attention around the world and in parti...
One of the most hazardous forms of dynamic phenomena associated with underground coal mining has bee...
In coal seam gas (CSG), also known as coalbed methane (CBM), appraisal, the development potential of...
This paper reviews the basic factors and practice of mining gassy coals worldwide. It then suggests ...
The main constrain for effective gas drainage in coal mines is the low permeability nature of coal r...
During mining or roadway development, the distribution of stress and pore pressure in the coal face ...
Many Australian underground coal mines have or are likely to encounter areas of increased gas conten...
Due to the poroelasticity of coal, both porosity and permeability change over the life of the field ...
Advances in coal production over the last 20 years have led to an increase in coal mine gas emission...
Advances in coal production over the last 20 years have led to an increase in coal mine gas emission...
Coal seams are compact gas reservoirs and can contain large volumes of methane (CH4) and carbon diox...
AbstractThe stress sensitivity of coal bed methane(CBM) has strong influence on the production. Duri...
A few number of gas reservoir parameters regulate the intensity and the extent of gas emissions duri...
Deep (>4920 ft; >1500 m) coal seams of the Cooper Basin accommodate large amounts of natural gas; ho...