| Last Name | Name | Awards | Contact | |
|---|---|---|---|---|
| Xie | Xina Xie | 3 | Message | |
| Weiss | William W. Weiss | 4 | Message |
Phase 1 SBIR
There is a need to accelerate the technology for sequestering green house gas (GHG) emmissions from coal-fired electrical-generating plants, thereby reducing global warming. One sequestration option involves the injection of GHG into coalbeds. A straightforward inexpensive method is needed to predict the amount of CO2, NO2, and SO2 (all GHG co...
Phase 2 SBIR
65017 Oil well formation damage is detrimental to the oil production rate and ultimate recovery from carbonate reservoirs that contain 3.7 billion barrels of proved domestic reserve. This project will develop an innovative well stimulation technique, based on laboratory measurements of wettability alteration coupled with artificial intell...
Phase 1 SBIR
65017 Oil well formation damage is detrimental to the oil production rate and ultimate recovery from carbonate reservoirs that contain 3.7 billion barrels of proved domestic reserve. This project will develop an innovative well stimulation technique, based on laboratory measurements of wettability alteration coupled with artificial intell...
Phase 1 SBIR
65017 Oil well formation damage is detrimental to the oil production rate and ultimate recovery from carbonate reservoirs that contain 3.7 billion barrels of proved domestic reserve. This project will develop an innovative well stimulation technique, based on laboratory measurements of wettability alteration coupled with artificial intellige...
Phase 1 SBIR
Not Available The proposed solution to ultra-fast concrete and steel cutting is to simultaneously increase hardness and toughness of a cutting tool. Novel cellular cermet cutting tool inserts offer an order of magnitude increase in cutting rates compared to traditional carbide or ceramic cutting tool inserts. The actual form of a cellular inser...
