Feasibility Analysis and Optimal Design of Acidizing of Coalbed Methane Wells

Abstract: Plugging is a prominent reason for production reduction in coalbed methane (CBM) wells. In order to solve this problem, authors conducted the feasibility analysis and optimal design of acidizing of CBM wells to remove the plugging in Hancheng block (H block) China. First, X-ray diffraction analysis shows that the plugging contains acid-soluble minerals and the field case indicates that acidizing effect is positively correlated with the content of acid-soluble minerals. Inspired by this, authors analyze determi… Show more

“…The mutual influence of many factors leads to this phenomenon, such as the existence of the coalbed cleats at the interface of coalbed and cover/bottom layer [9], the large differences in the mechanical properties between coalbed and cover/bottom layer, tectonic stress of coal seams, coal blockage, interface effects of different lithologies [10,11], etc. The T-shaped and I-shaped fracture have been found in some realistic areas, and they were directly observed after HF [12]. Meanwhile, Guo et al [13] and Tang et al [14] have proved the existence of these kinds of fractures.…”

3D Fracture Propagation Simulation and Pressure Decline Analysis Research for I-Shaped Fracture of Coalbed

“…The mutual influence of many factors leads to this phenomenon, such as the existence of the coalbed cleats at the interface of coalbed and cover/bottom layer [9], the large differences in the mechanical properties between coalbed and cover/bottom layer, tectonic stress of coal seams, coal blockage, interface effects of different lithologies [10,11], etc. The T-shaped and I-shaped fracture have been found in some realistic areas, and they were directly observed after HF [12]. Meanwhile, Guo et al [13] and Tang et al [14] have proved the existence of these kinds of fractures.…”

3D Fracture Propagation Simulation and Pressure Decline Analysis Research for I-Shaped Fracture of Coalbed

“…3,4 A significant amount of proppant is used in hydraulic fracturing. [5][6][7] The currently low price of oil has a serious negative impact on the production of various oil fields. 8 For example, in the exploitation of tight oil reservoirs, existing fracturing technology can produce economic benefits at high oil prices, but at low oil prices, the development cost of tight oil and gas reservoirs is greater than the benefit of the output.…”

“…8 For example, in the exploitation of tight oil reservoirs, existing fracturing technology can produce economic benefits at high oil prices, but at low oil prices, the development cost of tight oil and gas reservoirs is greater than the benefit of the output. 7 Therefore, one of the most urgent tasks in developing oil and gas fields is to "reduce cost and increase efficiency". 8 Proppant-crushing ratio and proppant fracture conductivity are two main indicators of proppant performance, 9,10 as well as being important parameters in proppant selection, 11,12 fracture design, 13,14 and postfracture evaluation.…”

Theoretical and experimental determination of proppant‐crushing ratio and fracture conductivity with different particle sizes

Experimental study on gas adsorption and drainage of gas-bearing coal subjected to tree-type hydraulic fracturing