Charlie Waltman scite author profile

Microseismic monitoring in lenticular tight gas formations has a number of challenging issues associated with both analysis and interpretation. The heterogeneous nature of the reservoir and the typically small microseismic-event amplitudes make it essential to understand the limits of interpretation that should be applied in these reservoirs. With proper care, fracture lengths and azimuth, along with zonal coverage, are readily obtainable. However, fracture-height growth in these complex reservoirs needs to be carefully assessed. Microseismic data provides a level of self-QC potential through the use of a magnitude-distance assessment to guide interpretation and design. Hydraulic fractures observed in these reservoirs tend to be long penetrating fractures that wander through the distributed-sand lenses, with modest height growth in most projects.

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Microseismic anisotropic velocity calibration by using both direct and reflected arrivals

Pei

Carmichael

Waltman

et al. 2014

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An Evaluation of Microseismic Monitoring of Lenticular Tight-Sandstone Stimulations

Warpinski¹,

Waltman

Weijers

2010

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An Evaluation of Microseismic Monitoring of Lenticular Tight-Sandstone Stimulations

Warpinski¹,

Waltman²,

Weijers³

2010

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Summary Microseismic monitoring in lenticular tight gas formations has a number of challenging issues associated with both analysis and interpretation. The heterogeneous nature of the reservoir and the typically small microseismic-event amplitudes make it essential to understand the limits of interpretation that should be applied in these reservoirs. With proper care, fracture lengths and azimuth, along with zonal coverage, are readily obtainable. However, fracture-height growth in these complex reservoirs needs to be assessed carefully. Microseismic data provide a level of self-quality-control potential through the use of a magnitude/distance assessment to guide interpretation and design. Hydraulic fractures observed in these reservoirs tend to be long, penetrating fractures that wander through the distributed/sand lenses, with modest height growth in most projects.

show abstract

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Charlie Waltman

Comparison of single and dual array microseismic mapping techniques in the Barnett Shale

An Evaluation of Microseismic Monitoring of Lenticular Tight Sandstone Stimulations

Microseismic anisotropic velocity calibration by using both direct and reflected arrivals

An Evaluation of Microseismic Monitoring of Lenticular Tight-Sandstone Stimulations

An Evaluation of Microseismic Monitoring of Lenticular Tight-Sandstone Stimulations

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