Seismic Evaluation of Hydrocarbon Saturation in Deep-Water Reservoirs
During this last quarter of the ''Seismic Evaluation of Hydrocarbon Saturation in Deep-Water Reservoirs'' project (Grant/Cooperative Agreement DE-FC26-02NT15342), our efforts have become focused on technology transfer. To this end, we completing our theoretical developments, generating recommended processing flows, and perfecting our rock and fluid properties interpretation techniques. Some minor additional data analysis and modeling will complete our case studies. During this quarter we have: Presented findings for the year at the DHI/FLUIDS meeting at UH in Houston; Presented and published eight papers to promote technology transfer; Shown how Rock and fluid properties are systematic and can be predicted; Shown Correct values must be used to properly calibrate deep-water seismic data; Quantified and examined the influence of deep water geometries in outcrop; Compared and evaluated hydrocarbon indicators for fluid sensitivity; Identified and documented inappropriate processing procedures; Developed inversion techniques to better distinguish hydrocarbons; Developed new processing work flows for frequency-dependent anomalies; and Evaluated and applied the effects of attenuation as an indicator. We have demonstrated that with careful calibration, direct hydrocarbon indicators can better distinguish between uneconomic ''Fizz'' gas and economic hydrocarbon reservoirs. Some of this progress comes from better characterization of fluid and rock properties. Other aspects include alternative techniques to invert surface seismic data for fluid types and saturations. We have also developed improved work flows for accurately measuring frequency dependent changes in seismic data that are predicted by seismic models, procedures that will help to more reliably identify anomalies associated with hydrocarbons. We have been prolific in publishing expanded abstracts and presenting results, particularly at the SEG. This year, we had eight such papers to promote technology transfer. Also, we have begun incorporating outcrop descriptive models in seismic forward models. Our goal for the remaining project period combine the various findings about the deepwater data, present these findings in a unified way and present final conclusions/solutions that can be applied to common problems found in deep water exploration. The final report will show how we have helped to develop and calibrate techniques to better identify and quantify in situ fluids which will lower risk in drilling new prospects and will improve our capability to monitor fluid motion and exchange in producing reservoirs. These methods now should be tested by industry in actual exploration. To promote this transfer, we are arranging our third DHI mini-symposium in April 2006.
- Research Organization:
- Colorado School of Mines, Golden, CO (United States)
- Sponsoring Organization:
- USDOE
- DOE Contract Number:
- FC26-02NT15342
- OSTI ID:
- 876008
- Country of Publication:
- United States
- Language:
- English
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