Ed G.
Ed G. Rightor, Maidland, MI US
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20110198101 | COMPOSITIONS FOR OIL RECOVERY AND METHODS OF THEIR USE - Embodiments of the present disclosure include compositions for use in enhanced oil recovery, and methods of using the compositions for recovering oil. Compositions of the present disclosure include a nonionic, non-emulsifying surfactant having a CO | 08-18-2011 |
Ed G. Rightor, Midland, MI US
Patent application number | Description | Published |
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20120103635 | DISPERSION COMPOSITIONS WITH NONIONIC SURFACTANTS FOR USE IN PETROLEUM RECOVERY - Embodiments of the present disclosure include dispersion compositions having a nonionic surfactant for use in enhanced petroleum recovery, and methods of using the dispersion compositions in petroleum recovery processes. For the various embodiments, the nonionic surfactant of the dispersion composition promotes the formation of a dispersion from carbon dioxide and water. | 05-03-2012 |
Ed G. Tenyenhuis, Ontario CA
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20160118186 | Hardened Inductive Device And Systems And Methods For Protecting The Inductive Device From Catastrophic Events - A hardened inductive device and systems and methods for protecting the inductive device from impact is provided. The inductive device is hardened with protective coating and/or an armor steel housing. The hardened inductive device is protected from impact by an object such as a bullet and leakage of dielectric fluid is prevented. Acoustic and vibration sensors are provided to detect the presence and impact, respectively, of an object in relation to the inductive device housing. The measurements of the acoustic and vibration sensors are compared to thresholds for sending alarms to the network control center and initiating shut-down and other sequences to protect the active part. The acoustic sensor results are utilized to determine the location of origin of the projectile. | 04-28-2016 |