Abstract
Horizontal wells with multi-stage fractures have been widely used to improve coalbed methane (CBM) production from coalbed methane reservoirs. The main focus of this work is to establish a new semi-analytical method in the Laplace domain and investigate the transient pressure behavior in coalbed methane reservoirs. With the new semi-analytical method, flow regimes of a multi-fractured horizontal well in coalbed methane reservoirs were identified. In addition, the sensitivities of fracture conductivity, diffusion model, storability ratio, inter-porosity flow coefficient, adsorption index, fracture spacing, fracture asymmetry, non-planar angle, and wellbore storage were studied. Results indicate that six characteristic flow regimes can be identified for multi-fractured horizontal wells in coalbed methane reservoirs, which are bilinear flow, first linear flow, desorption-diffusion flow, first pseudo-radial flow, second linear flow, and second pseudo-radial flow. Furthermore, the sensitivity analysis shows that the early flow is mainly determined by the fracture conductivity, the asymmetry factor, the non-planar angle, and the wellbore storage; while the desorption-diffusion flow regime is mainly influenced by the diffusion model, the storability ratio, the inter-porosity flow coefficient, the adsorption index, and the fracture spacing. Our work can provide a deep insight into the fluid flow mechanism of multi-fractured horizontal wells in coalbed methane reservoirs.
Highlights
Organic fossil energy resources, such as the oil and gas reservoirs, are widely distributed in the world
In 2015, 18 billion cubic meters of coalbed methane (CBM) were produced in China, and most of them were from Shanxi province, Guizhou province, Anhui province, and Henan province [6]
The results showed that gravity is a key factor that must be considered in the simulation of nanofluid flow
Summary
Organic fossil energy resources, such as the oil and gas reservoirs, are widely distributed in the world. Based on the fracture-wing method and nodal analysis technique, Xing et al [27] proposed a new semi-analytical model to solve the transient flow problems of horizontal wells with multiple reorientation fractures. Proposed new analytical approaches and workflows for investigating the transient pressure of CBM from the vertical, hydraulically-fractured wells and horizontal wells under single and multi-phase flow. Chen et al [43] developed a new 3D point-sink model to investigate the transient coalbed methane reservoirs, and somefractures important of the stimulated volume were production mechanism of horizontal in properties a coalbed reservoir, and fourreservoir flow characteristics for analyzed. Fewpaper, studiesahave analyzed themethod transientwas pressure behavior a horizontal with multiple In this semi-analytical developed forofstudying the well transient pressure complex in coalbed methane reservoirs. Coefficient, adsorption index, fracture spacing, fracture asymmetry, non-planar angle, and wellbore
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