Patent application number | Description | Published |
20120273234 | FLOW-INDUCED ELECTROSTATIC POWER GENERATOR FOR DOWNHOLE USE IN OIL AND GAS WELLS - The present invention is directed to processes (methods) for harnessing flow-induced electrostatic energy in an oil and/or gas well and using this energy to power electrical devices (e.g., flowmeters, electrically-actuated valves, etc.) downhole. The present invention is also directed to corresponding systems through which such methods are implemented. | 11-01-2012 |
20120273235 | FLOW-INDUCED ELECTROSTATIC POWER GENERATOR FOR DOWNHOLE USE IN OIL AND GAS WELLS - The present invention is directed to processes (methods) for harnessing flow-induced electrostatic energy in an oil and/or gas well and using this energy to power electrical devices (e.g., flowmeters, electrically-actuated valves, etc.) downhole. The present invention is also directed to corresponding systems through which such methods are implemented. | 11-01-2012 |
20130087336 | System And Method Of Perforating A Well And Preparing A Perforating Fluid For The Same - A perforation fluid is prepared having a solid material suspended in a liquid. The solid material includes particles having particle sizes that correspond to the pore throat sizes of one or more geological formations through which a well to be perforated runs. The solid material is self-degrading. Perforation of a well-casing of the well in the perforation fluid causes the solid material to instantaneously (or substantially so) form a self-degrading filter cake that facilitates setting of the final completions of the well. | 04-11-2013 |
20140202705 | Flow Induced Electrostatic Power Generator For Tubular Segments - The present invention is directed to methods for harnessing flow-induced electrostatic energy in a tubular length and using this energy to power electrical devices (e.g., flowmeters, electrically-actuated valves, etc.). The present invention is also directed to corresponding systems through which such methods are implemented. | 07-24-2014 |
20140210307 | Flow Induced Electrostatic Power Generator For Tubular Segments - The present invention is directed to methods for harnessing flow-induced electrostatic energy in a tubular length and using this energy to power electrical devices (e.g., flowmeters, electrically-actuated valves, etc.). The present invention is also directed to corresponding systems through which such methods are implemented. | 07-31-2014 |
Patent application number | Description | Published |
20080206425 | Frozen Aerated Confections - A frozen aerated confection having an overrun of at least 40% and a fat component in an amount of 2 to 20% (by weight of the frozen aerated confection), said fat component comprising triglycerides of fatty acids wherein less than 70% (by weight of the fatty acids) of the fatty acids in the triglycerides are saturated, less than 8% (by weight of the triglycerides) of the triglycerides are SSS triglycerides; characterized in that the ratio of the percentage of fat that is solid at 5° C. to the percentage of the fatty acids in the triglycerides that are saturated (by weight of the fatty acids) is greater than 1 and in that the fat component comprises at most 60% (by weight) cocoa butter or shea nut oil. | 08-28-2008 |
20080220141 | Frozen aerated confections and methods for production thereof - A frozen aerated confection is provided, comprising water; a fat component in an amount of 1 to 15% by weight of the frozen aerated confection wherein greater than 20% and less than 35% by weight of the fatty acids in the fat component are polyunsaturated, and less than 65% by weight of the fatty acids are saturated; mammalian milk protein; and sweetener; characterised in that the frozen confection contains less than 0.04% emulsifier by weight of the frozen confection. A process for manufacturing such a frozen aerated confection is also provided. | 09-11-2008 |
20080286432 | Frozen aerated confection and its manufacturing process - Process for manufacturing a frozen aerated confection and comprising the steps of
| 11-20-2008 |
20110262599 | COATING COMPOSITION FOR FROZEN CONFECTIONS - A composition for coating a frozen confection is provided, the composition comprising from 63 to 70 wt % of a fat component comprising: 70 to 95 wt % of a palm oil fraction or blend of fractions which contains at most 8 wt % of S | 10-27-2011 |