Practical insights into liquid loading within hydraulic fractures and potential unconventional gas reservoir optimization strategies
•Novel 3D simulation of liquid loading within primary hydraulic fractures and its detrimental effect on gas well productivity.•Showed impact of interplay between capillary pressures, gravity and drawdown.•Low drawdown or matrix permeability damage leads to inflow velocity reduction and poorer fractu...
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| Published in | Journal of Unconventional Oil and Gas Resources Vol. 11; pp. 60 - 74 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier Ltd
01.09.2015
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2213-3976 2213-3976 |
| DOI | 10.1016/j.juogr.2015.04.001 |
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| Abstract | •Novel 3D simulation of liquid loading within primary hydraulic fractures and its detrimental effect on gas well productivity.•Showed impact of interplay between capillary pressures, gravity and drawdown.•Low drawdown or matrix permeability damage leads to inflow velocity reduction and poorer fracture cleanup.•Showed that condensate loading in fractures is also possible below dew point.•Recommended strategies to minimize liquid back pressure for different scenarios.
The U.S. has experienced a resurgence of the upstream hydrocarbon sector in recent years, owing to the economic extraction of oil and gas from ultra-tight reservoirs using multistage hydraulic fracturing in horizontal wells. This success is often attributed to slick-water stimulation treatments that help create extensive complexity and contact with the low permeability reservoir. In this process, hundreds of thousands of barrels of water are pumped downhole, along with friction reducers, low concentration linear gel, fracture propping sand and other additives, to create and sustain these fractures. However, only a small percentage of this stimulation water is recovered back once the well is put back on production. This not only leads to excessive water hauling costs for operators in each consecutive well but also liquid blockage for hydrocarbon flow. Such water blockage/loading may become a serious concern in dry gas reservoirs such as the Marcellus field in the northeastern U.S., due to the unfavorable hydrocarbon mobility ratios. In spite of its implications on early and late time well performance, the issue of hydraulic fracture cleanup and gas flowback through it when drained through a horizontal wellbore is still an insufficiently understood subject. In this study the authors investigate the potential of liquid loading (stimulation water or condensate) within the hydraulic fracture itself due to low matrix permeability and insufficient drawdown conditions. Similar conditions may also arise late in the life of well when the reservoir pressure has declined significantly or due to wellbore design issues. A 3D reservoir simulation model with a discrete, planar hydraulic fracture is set up to investigate the competition between capillary, viscous and gravity forces within the fracture. The results indicate a strong tendency for liquid loading in the ultra-low permeability gas reservoirs under common operational constraints and offer recommendations on best practices to minimize its impact. |
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| AbstractList | •Novel 3D simulation of liquid loading within primary hydraulic fractures and its detrimental effect on gas well productivity.•Showed impact of interplay between capillary pressures, gravity and drawdown.•Low drawdown or matrix permeability damage leads to inflow velocity reduction and poorer fracture cleanup.•Showed that condensate loading in fractures is also possible below dew point.•Recommended strategies to minimize liquid back pressure for different scenarios.
The U.S. has experienced a resurgence of the upstream hydrocarbon sector in recent years, owing to the economic extraction of oil and gas from ultra-tight reservoirs using multistage hydraulic fracturing in horizontal wells. This success is often attributed to slick-water stimulation treatments that help create extensive complexity and contact with the low permeability reservoir. In this process, hundreds of thousands of barrels of water are pumped downhole, along with friction reducers, low concentration linear gel, fracture propping sand and other additives, to create and sustain these fractures. However, only a small percentage of this stimulation water is recovered back once the well is put back on production. This not only leads to excessive water hauling costs for operators in each consecutive well but also liquid blockage for hydrocarbon flow. Such water blockage/loading may become a serious concern in dry gas reservoirs such as the Marcellus field in the northeastern U.S., due to the unfavorable hydrocarbon mobility ratios. In spite of its implications on early and late time well performance, the issue of hydraulic fracture cleanup and gas flowback through it when drained through a horizontal wellbore is still an insufficiently understood subject. In this study the authors investigate the potential of liquid loading (stimulation water or condensate) within the hydraulic fracture itself due to low matrix permeability and insufficient drawdown conditions. Similar conditions may also arise late in the life of well when the reservoir pressure has declined significantly or due to wellbore design issues. A 3D reservoir simulation model with a discrete, planar hydraulic fracture is set up to investigate the competition between capillary, viscous and gravity forces within the fracture. The results indicate a strong tendency for liquid loading in the ultra-low permeability gas reservoirs under common operational constraints and offer recommendations on best practices to minimize its impact. |
| Author | Agrawal, Samarth Sharma, Mukul M. |
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| CitedBy_id | crossref_primary_10_1016_j_jngse_2017_08_024 crossref_primary_10_1021_acsomega_4c04423 crossref_primary_10_1007_s12517_020_05777_x crossref_primary_10_1016_j_petrol_2020_107294 crossref_primary_10_1115_1_4049605 crossref_primary_10_1002_2017WR021153 crossref_primary_10_3390_en12193751 crossref_primary_10_1016_j_petrol_2020_108228 crossref_primary_10_1016_j_advwatres_2024_104776 crossref_primary_10_2118_201201_PA crossref_primary_10_1016_j_coal_2018_04_012 |
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In: SPE 166098 Presented at SPE Annual Technical Conference and Exhibition, New Orleans, Louisiana, USA, 30 September-2 October. Tian, Y., Ayers, W.B., McCain, W.D., 2013. The Eagle Ford Shale Play, South Texas: regional variations in fluid types, hydrocarbon production and reservoir properties. In: IPTC 16808 Presented at International Petroleum Technology Conference, Beijing, China, 26–28 March. Friehauf, K.E., Suri, A., Sharma, M.M., 2009. A simple and accurate model for well productivity for hydraulically fractured wells. In: SPE 119264-MS Presented at SPE Hydraulic Fracturing Technology Conference, The Woodlands, TX, USA, 19–21 January. 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| Snippet | •Novel 3D simulation of liquid loading within primary hydraulic fractures and its detrimental effect on gas well productivity.•Showed impact of interplay... |
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| SubjectTerms | Cleanup Conductivity Gravity Hydraulic fractures Unconventional Unloading |
| Title | Practical insights into liquid loading within hydraulic fractures and potential unconventional gas reservoir optimization strategies |
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