Molaison
Dennis Molaison, Thibodaux, LA US
Patent application number | Description | Published |
---|---|---|
20100084144 | INSTRUMENT CENTRALIZER CONFIGURABLE FOR USE WITH CEMENT EVALUATION WELL LOGGING INSTRUMENTS - A centralizer for a well logging instrument includes a mandrel, a plurality of bow springs arranged circumferentially about the exterior surface of the mandrel and a biasing device in contact with one longitudinal end of each bow spring. The biasing device is configured to apply longitudinal biasing force to the longitudinal end of the respective bow spring. | 04-08-2010 |
Jennifer Lynn Molaison, Brookfield, WI US
Patent application number | Description | Published |
---|---|---|
20100116129 | Method, Apparatus, and System for Acid Gas Removal - A method and apparatus are provided for absorbing acid gases from a synthesis gas prior to combustion. In one embodiment, a vessel is provided for receiving a synthesis gas and a physical solvent. The vessel includes one or more membrane contactors that provide an interface for physical absorption of one or more acid gases from the synthesis gas into the physical solvent. | 05-13-2010 |
20100325958 | Method and Apparatus for Removal of Carbon Dioxide from Pre-Combustion Syngas - A method for processing pre-combustion syngas includes, in an exemplary embodiment, providing an absorber unit having a membrane contactor having a plurality of micro-pores, channeling pre-combustion syngas along a first surface of the membrane contactor, channeling an amine based solvent along a second opposing surface of the membrane contactor, and contacting the solvent with the syngas such that the solvent and the syngas contact at gas-liquid interface areas, defined by the plurality of micro-pores in the membrane contactor, to separate CO | 12-30-2010 |
Jennifer Lynn Molaison, Marietta, GA US
Patent application number | Description | Published |
---|---|---|
20080276803 | Methods and systems for reducing carbon dioxide in combustion flue gases - A method for processing flue-gas, in an exemplary embodiment, includes providing an absorber unit having a membrane contactor, channeling a combustion flue gas along a first surface of the membrane contactor, and channeling an ammonia-based liquid reagent along a second opposing surface of the membrane contactor. The method also includes partially separating the ammonia-based liquid from the flue gas such that the ammonia-based liquid and the flue gas contact at gas-liquid interface areas, defined by a plurality of pores of the membrane contactor, to separate CO | 11-13-2008 |
20080307974 | METHOD AND SYSTEMS TO FACILITATE IMPROVING ELECTROSTATIC PRECIPITATOR PERFORMANCE - A method to facilitate improving electrostatic precipitator performance is provided. The method includes providing an electrostatic precipitator including an inlet, a collector chamber and an outlet, where the collector chamber includes a plurality of discharge electrodes and a plurality of collector electrodes. The method also includes defining a respective discharge electrode V-I performance for each of the plurality of discharge electrodes, identifying a particle removal characteristic for each respective discharge electrode based on the respective discharge electrode V-I performance for each of the plurality of discharge electrodes and positioning each of the plurality of discharge electrodes in the electrostatic precipitator according to the particle removal characteristic for each respective discharge electrode. | 12-18-2008 |
Jennifer Lynn Molaison, Waukesha, WI US
Patent application number | Description | Published |
---|---|---|
20110125514 | SYSTEM AND METHOD OF PATIENT DESTINATION PREDICTION - A system and method of predicting telemetry signal dropout creates a prediction of patient destination. The method includes defining a telemetry coverage area, receiving a location of a monitored patient, recording the received location, calculating a trajectory and speed, and comparing the location, trajectory, and speed of the patient to historical patient movement trends to predict patient destination. The system includes a remote unit worn by a patient and at least one telemetry receiver, a location services computer, a patient location database, a location prediction computer, and a graphical display. The location services computer receives the location information and computes a location, speed, and trajectory of the patient. The location prediction computer compares the computed location, speed, and trajectory of the patient to previously acquired locations, speeds, and trajectories to predict a patient destination. | 05-26-2011 |