Krenek
David Krenek, Katy, TX US
Patent application number | Description | Published |
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20090078410 | Aggregate Delivery Unit - A delivery unit for providing aggregate to a worksite, such as a wellsite location. The unit may include a mobile chassis for accommodating a plurality of modular containers which in turn house the aggregate. As such, a weight measurement device may be located between each container and the chassis so as to monitor aggregate levels within each container over time. The units may be particularly well suited for monitoring and controlling aggregate delivery during a fracturing operation at an oilfield. The modular containers may be of an interchangeable nature. Furthermore, a preferably wireless control device may be provided for monitoring and directing aggregate delivery from a relatively remote location. | 03-26-2009 |
20140321950 | AGGREGATE DELIVERY UNITY - A delivery unit for providing aggregate to a worksite, such as a wellsite location. The unit may include a mobile chassis for accommodating a plurality of modular containers which in turn house the aggregate. As such, a weight measurement device may be located between each container and the chassis so as to monitor aggregate levels within each container over time. The units may be particularly well suited for monitoring and controlling aggregate delivery during a fracturing operation at an oilfield. The modular containers may be of an interchangeable nature. Furthermore, a preferably wireless control device may be provided for monitoring and directing aggregate delivery from a relatively remote location. | 10-30-2014 |
Katherine M. Krenek, Plano, TX US
Patent application number | Description | Published |
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20150362512 | Composition, Device and Imaging System for Analysis Using Chemiluminescent Probes - The present invention provides a method for the rapid monitoring of biological analytes in a point-of-care setting by providing a smart phone; providing a sample chamber; providing a sample; providing a dark box with a smartphone holder attached to the dark box top with the camera opening positioned about the aperture, adding a biological specimen suspected of containing a biological analyte in the sample chamber; adding a bis(2,4,6-trichlorophenyl) oxalate, an imidazole and a fluorophore to the sample chamber to react with the biological analyte; placing the sample chamber into the dark box; generating an emission from the fluorophore in response to the reaction with the biological analyte; and recording a set of time-lapse images of the emission with the smartphone. | 12-17-2015 |
Michael L. Krenek, Belton, TX US
Patent application number | Description | Published |
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20100091447 | System and Method for Providing Liquid Cooling of Memory Devices - A device comprising a first thermal interface material, and a first micro-channel cold plate. The first thermal interface material is in physical communication with a first plurality of memory modules of a computer system. The first micro-channel cold plate is in physical communication with the first thermal interface material. The first micro-channel cold plate is adapted to allow a fluid flow through a first plurality of micro-channels, and configured to remove a first amount of heat produced by the first memory modules of the computer system through the first thermal interface material. | 04-15-2010 |
Radim Krenek, Liberec CZ
Patent application number | Description | Published |
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20140061959 | METHOD AND DEVICE FOR APPLICATION OF LIQUID POLYMERIC MATERIAL ONTO SPINNING CORDS - The present disclosure relates to a method and a device for application of liquid polymeric material onto the active spinning zone of the cord of the spinning member of the spinning electrode, where the application means moving reversibly along the active spinning zone of the cord in the device for production of nanofibres through electrostatic spinning of liquid material in electrostatic field of high intensity between at least one spinning electrode and against it arranged collecting electrode. The liquid polymeric material is applied onto the cord around its whole circumference without any contact with gaseous environment in the spinning space, where the application means reversibly moves, whereas while the cord is leaving the application means the thickness of the layer of the liquid polymeric material is being reduced and immediately after leaving the application means the process of electrostatic spinning of the liquid polymeric material applied on the cord is started. | 03-06-2014 |