Liskowitz
John J. Liskowitz, Sea Girt, NJ US
Patent application number | Description | Published |
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20120000662 | VISCOSITY DIFFERENTIAL FRACTURING FOR ENHANCED APPLICATION OF AMENDMENTS TO GROUND AND GROUNDWATER - Viscosity Differential Fracturing uses pneumatic and hydraulic fracturing techniques and a viscosity differential to achieve greater networking, higher amendment loading rates and more controlled propagation. Pneumatic fracturing is applied first in order to create a dense network of small fractures. This is followed by a hydraulic component using a viscosity adjusted fluid. This material can be injected into these fractures at a significant flow rate and extend/expand these fractures while filling them with the fluid. The significant advantage of VDF versus traditional hydraulic fracturing is that the density of fractures created by the initial gas process leads to an overall greater density of fractures emplaced within the subsurface coupled with the ability to emplace a greater mass of material (e.g. proppants, sand, reactants). | 01-05-2012 |
John Jude Liskowitz, Millington, NJ US
Patent application number | Description | Published |
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20090191084 | Reactive atomized zero valent iron enriched with sulfur and carbon to enhance corrosivity and reactivity of the iron and provide desirable reduction products - Iron, in the form of particles or iron wool, is used for the remediation of contaminated water. For ensuring that the process generally follows preferred chemical pathways resulting in non-toxic end products, and for providing greater rates of contaminant reduction, the iron is enriched with graphite carbon, at least 4% by weight, and sulfur, at least 0.5% by weight. | 07-30-2009 |
Michael J. Liskowitz, Hillsborough, NJ US
Patent application number | Description | Published |
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20120000662 | VISCOSITY DIFFERENTIAL FRACTURING FOR ENHANCED APPLICATION OF AMENDMENTS TO GROUND AND GROUNDWATER - Viscosity Differential Fracturing uses pneumatic and hydraulic fracturing techniques and a viscosity differential to achieve greater networking, higher amendment loading rates and more controlled propagation. Pneumatic fracturing is applied first in order to create a dense network of small fractures. This is followed by a hydraulic component using a viscosity adjusted fluid. This material can be injected into these fractures at a significant flow rate and extend/expand these fractures while filling them with the fluid. The significant advantage of VDF versus traditional hydraulic fracturing is that the density of fractures created by the initial gas process leads to an overall greater density of fractures emplaced within the subsurface coupled with the ability to emplace a greater mass of material (e.g. proppants, sand, reactants). | 01-05-2012 |