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Terra Projects
 |
| List
of Projects where Terra Technologies were utilized |
| The following is a
partial listing of the
projects in which the Terra Technologies have been imployed. Results and references are
available upon request. |
| Projects | Area | Services Provided |
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Model hydrocarbon prospectivity of 3,800 km2 license block prior to seismic |
Chubut, Argentina | STeP |
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Model the subsurface prospectivity of a 600 km2 area concentrating on a specific formation where a number of dry holes have been drilled, and drilling had been based on 3D |
Mendoza, Argentina | STeP |
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Perform geochecmical analysis of 840 samples to confirm hydrocarbon anomalies that had been delineated via STeP survey |
Santa Cruz, Argentina | NAGS |
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Explore 2 license blocks that were each 200 km2; prior 3D work had not yielded exploration success and resulted in 10+ dry holes |
Santa Cruz, Argentina | STeP |
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Confirm a prospect and a drilling location for a farmin investor |
Utah, USA | STeP |
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Delineate hydrocarbon structures on a 22 section BLM lease without the benefit of any G&G data or well control |
Nevada, USA | STeP |
|
Model hydrocarbon prospectivity of 4,000 km2 license block prior to seismic |
Sumatra, Indonesia | STeP |
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Delineate hydrocarbon structures on 2 license blocks within a well established heavy oil production area and project additional/stacked pay zones |
Kazakhstan | STeP |
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Model hydrocarbon prospectivity of 2 license blocks covering 15,500 km2 prior to G & G |
Kazakhstan | STeP |
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Analyze exploration drilling failures in an oil field featuring previous drilling success and production |
Russia | STeP |
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Model structure contours and productive horizons |
Russia | STeP |
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Model oil bearing structures, suggest drilling location, suggest seismic program on structures delineated by Terra |
Russia | STeP |
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Determine hydrocarbon prospectivity and model hydrocarbon structures within exploration area and subsequently confirm via geochemical sampling |
Jordan | STeP, NAGS |
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Delineate structure contours and recommend 5 drilling locations to compensate for limited 3D data and uncertainty in seismic interpretation |
Kazakhstan | STeP |
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Analyze exploratory drilling failure |
Perm, Russia | STeP |
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Delineate gas structures |
Saudi Arabia | STeP |
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Determine hydrocarbon prospectivity and contours of deposit |
Klaipeda, Baltic Sea | NAGS |
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Perform geochemical sampling and analyze the entire Russian part of the Caspian Sea |
Caspian Sea, Russia | NAGS |
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Perform hydrocarbon prospectivity analysis of 17 areas |
Saratov, Russia | STeP |
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Perform open fracturing analysis via SVSL and correlation with FMS well logging data in order to validate open fracturing results for a larger area |
Orenburg, Russia | SVSL |
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Perform geochemical analysis of an anticlinal structure projected via seismic |
Russia | NAGS |
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Reinterpret G&G from the STeP perspective and recommend further exploration steps |
Irkutsk, Russia | STeP |
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Perform open fracturing analysis with recommendations for hydraulic fracturing plan to connect a customer's well to a high intensity, open fracturing zone |
West Siberia, Russia | SVSL |
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Analyze 4 dry holes and model reservoir contours |
Komi, Russia | STeP |
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Trial project, predict hydrocarbon structures and subsequently compare with the known customer data set |
Urucu, Brazil | STeP |
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Trial project, predict hydrocarbon structures and subsequently compare with the known customer data set |
Aracaju, Brazil offshore | STeP |
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Model hydrocarbon prospectivity and recommend subsequent 2D programs to confirm structures |
Volgograd, Russia | STeP |
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Confirm a prospect and drilling location for farmin purposes |
Texas, USA | STeP |
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Confirm a prospect and drilling location for farmin purposes |
Louisiana, USA | STeP |
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High-grade geochemical anomalies within existing hydrocarbon field contours |
Yuzhno-Okhotnichye oil field, Kovylkin oil field | NAGS |
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Map oil prospectivity contours |
Nubian Desert, Egypt | NAGS |
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Map oil prospectivity contours |
Belarus | NAGS |
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Determine hydrocarbon presence in a structure that had been delineated via seismic |
Tuyun-Tau, Tajikistan | NAGS |
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Perform open fracturing study in 4D to monitor the effectiveness of hydraulic fracturing |
Abdrakhmanovsk, Russia | SVSL |
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Perform open fracturing study in 4D to monitor the effectiveness of hydraulic fracturing |
Ermakovsk-West Siberia, Russia | SVSL |
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Develop tectono-physical models to verify open fracturing distribution on horizontal SVSL sections |
Komi, Russia | SVSL |
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Perform open fracturing modeling to predict drilling complications in preparation for super-deep well drilling |
Sorochinsk, Russia | SVSL |
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Perform open fracturing study and select a suitable drilling location for maximum production rate |
East Siberia, Krasnoyarsky region, Russia | SVSL |
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Perform open fracturing study and select a suitable drilling location for maximum production rate |
Tatarstan, Russia | SVSL |
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Study the correlation between production rates/life of various wells and the distribution of open fracturing within well bores |
Tatarstan, Russia | SVSL |
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Monitor hydraulic fracturing and estimate its effectiveness. Determine the water flow directions from injection wells and field boundaries. Determine suitable developmental and injection well locations. |
Orenburg, Russia | SLEC |