2017
DOI: 10.3390/en10111724
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CO2 Storage Capacity for Multi-Well Pads Scheme in Depleted Shale Gas Reservoirs

Abstract: As a promising technology to improve shale gas (SG) recovery and CO 2 storage capacity, the multi-well pads (MWPs) scheme has gained more and more attention. The semi-analytical pressure-buildup method has been used to estimate CO 2 storage capacity. It focuses on single multi-fractured horizontal wells (SMFHWs) and does not consider multi-well pressure interference (MWPI) induced by the MWPs scheme. This severely limits the application of this method as incidences of multi-well pressure interference have been… Show more

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Cited by 2 publications
(1 citation statement)
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“…Owing to the advancement of drilling horizontal wells with multistage hydraulic fractures (HFs), tight oil reservoirs have been exploited commercially though the flow behavior is quite different from those of the conventional reservoirs due to the extremely low permeability (Miller et al, 2008;Meyer and Bazan, 2011;Liu et al, 2018b;Liu et al, 2020a;Liu et al, 2020b. To reduce operational costs and mitigate the negative environmental impact, multi-well pad schemes have proven to be more effective for exploiting tight oil/gas reservoirs with and without natural fractures (NFs) (Manchanda and Sharma, 2013;Meng et al, 2017;Xiao et al, 2018;Jiang et al, 2020b;Jiang et al, 2020c); however, multi-well pressure interference under multiwell pad schemes severely distorts the flow patterns. In addition to greatly affecting well production, such a distortion inevitably makes the transient pressure analysis more challenging while the stresssensitivity effect and contribution of NFs are usually excluded (Liu et al, 2018a).…”
Section: Introductionmentioning
confidence: 99%
“…Owing to the advancement of drilling horizontal wells with multistage hydraulic fractures (HFs), tight oil reservoirs have been exploited commercially though the flow behavior is quite different from those of the conventional reservoirs due to the extremely low permeability (Miller et al, 2008;Meyer and Bazan, 2011;Liu et al, 2018b;Liu et al, 2020a;Liu et al, 2020b. To reduce operational costs and mitigate the negative environmental impact, multi-well pad schemes have proven to be more effective for exploiting tight oil/gas reservoirs with and without natural fractures (NFs) (Manchanda and Sharma, 2013;Meng et al, 2017;Xiao et al, 2018;Jiang et al, 2020b;Jiang et al, 2020c); however, multi-well pressure interference under multiwell pad schemes severely distorts the flow patterns. In addition to greatly affecting well production, such a distortion inevitably makes the transient pressure analysis more challenging while the stresssensitivity effect and contribution of NFs are usually excluded (Liu et al, 2018a).…”
Section: Introductionmentioning
confidence: 99%