Abstract
Brittleness index is an important mechanical index to evaluate the fracturability of conventional oil and gas reservoirs. However, the brittleness index of an organic coal reservoir is more complex. In this study, based on array sonic logging and density logging data, coal brittleness index is calculated using an elastic parameter method in the Mabidong coalbed methane (CBM) block in southern Qinshui Basin. In combination with coal-body structure observation, the maceral analysis, and proximate data of coal cores, a comprehensive study of geological influencing factors of coal brittleness index has been carried out. According to coal fragmentation degree, the coal-body structure of coal seams can be divided into primary, cataclastic, and granulate structure. The average interval of brittleness index of primary, cataclastic, and granulate structural coals is 63.3-71.48, 73.01-74.85, and 77.41-82.77, respectively. The results indicate that generally the order of brittleness index is primary structural coal < cataclastic structural coal < granulate structural coal. Young’s modulus and the brittleness index have a good positive correlation. Poisson’s ratio and the brittleness index are negatively correlated in No. 3 coal seam but are positive correlated in No. 15 coal seam. The vitrinite content is positively correlated with brittleness index, and the inertinite content is negatively correlated. For the primary and cataclastic structure coal, the ash and volatile is positively correlated with the brittleness index. The correlation of brittleness index, macerals, and coal quality parameters in the primary structure coal is better than that of the cataclastic and granulate structure coal. The research results are helpful to guide the coal brittleness index and coal-body structure prediction in fracturing of CBM wells.
Highlights
Brittleness is a key mechanical parameter in the evaluation of hydraulic fracturing and wellbore stability of coal and shale reservoirs [1,2,3]
Brittleness of coal refers to the irreversible property of coal breaking, which indirectly reflects the complexity of fractures formed after fracturing in coal and is closely related to the difficulty of fracturing in coal reservoir
Various researchers have devoted to the studies on the evaluation method of rock brittleness [7,8,9,10,11,12,13,14]
Summary
Brittleness is a key mechanical parameter in the evaluation of hydraulic fracturing and wellbore stability of coal and shale reservoirs [1,2,3]. The establishment of the coal brittleness index calculation method based on the coal-body structure and composition has important practical significance for brittleness evaluation of coal reservoirs in CBM exploration and development. The brittleness index of a high-rank coal reservoir and its influencing factors were studied in Mabidong CBM block, Qinshui Basin, China. Based on the observation and description of coal cores of 15 CBM exploration wells, array sonic logging, density logging, and coal quality test data, the elastic parameter method was used to calculate the coal brittleness index reservoirs in this block, and the geological factors on coal brittleness index were analyzed and discussed. The overall research approach of this study is to use the elastic parameter method to calculate the coal brittleness index and combine the coal core analysis data to find out the influencing factors of the coal brittleness index reservoirs. There are 9 wells with data from No 3 coal seam and 6 wells with data from No 15 coal seam
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