Summary

Azimuthal volumes have often been looked at in conjunction with velocity anisotropy to determine the strike of fractures or maximum stress direction. Due to variations in the directions of fractures, attributes calculated on azimuthal volumes may also provide insight into the strike and dip, location, and spatial variation of the fractures. In particular, attributes highlighting the differences in frequency, time, and amplitude can effectively isolate areas of fractures (Tod et al 2007). If these seismic experiments can detect naturally-occurring fractures in reservoirs then why not use the same principles to detect hydraulicallyinduced fractures? The techniques discussed in this paper will show how these azimuthally sectored volumes and their attributes can be used to map the hydraulicallyinduced fractures in the Barnett Shale in the Ft. Worth Basin. Areas of pre-existing hydraulic fractures are typically avoided because of the potential interference with other wells in the area. We demonstrate how prior geologic knowledge of areas of hydraulically-induced fractures will be used in conjunction with the azimuthal volumes in order to effectively map the fractures.

Acquisition and Processing

In April 2009, Devon Energy acquired a wide azimuth 51 km2 proprietary 3D seismic data over the study area. Overall, the P-wave seismic data are of high quality with frequencies approaching 100 Hz. Table 1 summarizes the acquisition parameters. Offsets equal to or greater than the target depth are acquired. During processing, we first computed the azimuthal velocity variation based on the far-offset azimuthal variation in traveltimes. We then prestack time-migrated the data, and generated four 450-wide azimuthally-sectored volumes centered about 00 (North), 450, 900, and 1350 for further analysis. Figure 1 shows the azimuth (spider diagram) of the midpoints inside representative CMP bins. Since all azimuths are present in the bins this justifies the azimuthal processing. Although Table 1 shows the bin size to be 110 ft by 110 ft (33 m by 33 m), we increased the bin size of the azimuthal sectored volumes to generate ‘super gathers’ at 220 ft by 220 ft (67 m by 67m) to increase fold. This processing has been implemented in other 3D surveys in the study area, so the fast and slow azimuth directions are known. The fast direction is usually the maximum horizontal stress direction, which for the basin is approximately N45E. There was no need to use multiple azimuths with smaller ranges to first determine the fast and slow directions of the data.

Geologic and Production Data

Within this survey there are several hundred Devonoperated Barnett gas wells, two thirds of which are vertical or directional and the remainder are horizontal wells. In terms of special processes, image logs were run on sixteen wells before April 2009, and two wells after April 2009. Approximately a dozen microseismic experiments were run on another subset of wells before April 2009. In addition to these specialty log experiments, two production logs have been acquired, four wells have conventional (whole) cores, eight wells have sidewall cores and one well has both conventional and sidewall cores.

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