Espinel, US
Arnaldo L. Espinel, Richmond, TX US
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20100300682 | COMPUTER-IMPLEMENTED SYSTEMS AND METHODS FOR SCREENING AND PREDICTING THE PERFORMANCE OF ENHANCED OIL RECOVERY AND IMPROVED OIL RECOVERY METHODS - Computer-implemented systems and methods are provided for screening among various EOR process for application to a reservoir. Also provided are computer-implemented systems and methods for screening the feasibility of a waterflood process for application in a reservoir and for recommending a waterflood injection scheme to be applied. In addition, computer-implemented systems and methods for predicting the performance of a waterflood process in a reservoir are provided. Computer-implemented systems and methods for predicting the performance of a polymer flood technique in a reservoir also are provided. The performance of the polymer flood process may be compared to the performance of a waterflood process. | 12-02-2010 |
20120101759 | COMPUTER-IMPLEMENTED SYSTEMS AND METHODS FOR FORECASTING PERFORMANCE OF WATER FLOODING OF AN OIL RESERVOIR SYSTEM USING A HYBRID ANALYTICAL-EMPIRICAL METHODOLOGY - Computer-implemented systems and methods are provided for generating corrected performance data of water flooding of an oil reservoir system based on application of a statistical correction factor methodology (SCF). For example, data related to properties of the oil reservoir system and data related to a water flooding scenario are received. Water flooding performance data is generated based on application of an analytical water flooding performance computation methodology. Based on application of the SCF methodology to the generated water flooding performance data, corrected water flooding performance data is determined, representative of oil recovery by the water flooding of the oil reservoir system. The SCF methodology can also be used to evaluate water production based on parameters such as water-oil ratio and water cut, identify possible analog reservoirs that have similar water production performance, and calculate a Gross Injection Factor to account for water loss in the reservoir. | 04-26-2012 |
Jorge Espinel, Troy, MI US
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20130183559 | LEAD-ACID BATTERY DESIGN HAVING VERSATILE FORM FACTOR - An electrochemical storage device comprises a plurality of layer electrodes, wherein each layer electrode includes a first charged sector and a second charged sector, wherein the second charged sector is charged oppositely compared to the first charged sector, and wherein the plurality of layer electrodes are assembled with respect to each other such that the first charged sector of a first plate of the plurality of layer electrodes is laid below the second charged sector of a second plate of the plurality of layer electrodes located immediately above the first plate, wherein the charges of the first charged sectors of the first and second plates have a first sign and the charges of the second charged sectors of the first and second plates have a second sign that is opposite the first sign; a separator sector located, and enabling ionic charge exchange between the first charged sector of the first plate and the second charged sector of the second plate. | 07-18-2013 |
20140087237 | LEAD-ACID BATTERY DESIGN HAVING VERSATILE FORM FACTOR - An electrochemical storage device comprises a plurality of layer electrodes each including a first charged sector and a second charged sector. The plurality of layer electrodes are assembled with respect to each other such that the first charged sector of a first plate of the plurality of layer electrodes is laid below the second charged sector of a second plate of the plurality of layer electrodes located immediately above the first plate. The charges of the first charged sectors of the first and second plates have a first sign and the charges of the second charged sectors of the first and second plates have a second sign that is opposite the first sign. The device also comprises a separator sector located, and enabling ionic charge exchange, between the first charged sector of the first plate and the second charged sector of the second plate. | 03-27-2014 |
Karina Espinel, Montabello, NY US
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20130167607 | SYSTEM AND METHOD FOR FORMING A METAL BEVERAGE CONTAINER USING PRESSURE MOLDING - A system and method of manufacturing a metal vessel may include inserting a preform into a mold that includes multiple segments, the preform being a work hardened metal. A pre-pressure may be applied to the preform at a first pressure level. The multiple segments of the mold may be closed, and the pressure being applied to the preform may be increased using a step function to a second pressure level after the mold is closed to cause the preform to take a shape defined by the mold. | 07-04-2013 |
Ruth Karina Espinel, Norcross, GA US
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20100095502 | METHOD OF CONFIGURING A PRODUCTION LINE TO MASS CUSTOMIZE SHAPED VESSELS - An embodiment of the present invention is a method of configuring a production line to mass customize shaped vessels, the method comprising receiving a plurality of consumer or event data, configuring a plurality of vessel forming stations based in part on received plurality of consumer or event data, and shaping a plurality of vessels by indexing the plurality of vessels through the plurality of vessel forming stations. | 04-22-2010 |
20100095514 | VESSEL FORMING PRODUCTION LINE - An embodiment of the present invention is a vessel forming production line comprising a plurality of vessel forming stations having at least one of an operation wheel, at least one of a conveyor, and a controller, the conveyor indexes a vessel across the operation wheel, the controller coordinates movement and operation of the operation wheel and the conveyor, a second conveyor transfers the vessel between the plurality of vessel forming stations, and a plurality of cylinder feeders feed the vessel into at least one of a pathway through the plurality of vessel forming stations, wherein the plurality of vessel forming stations are organized into a scalable matrix configuration allowing a plurality of different shaped vessels to be manufactured simultaneously. | 04-22-2010 |
20100095723 | METHOD OF SHAPE FORMING VESSELS CONTROLLING ROTATIONAL INDEXING - An embodiment of the present invention is a method of shape forming vessels, the method comprising selecting a pathway to index the vessel across an operation wheel, indexing the vessel, controlling rotational indexing direction of the vessel across selected pathway, and operating on the vessel as the vessel is indexed across the operation wheel along selected pathway. | 04-22-2010 |
20100095728 | VESSEL FORMING STATION - An embodiment of the present invention is a vessel forming station comprising a plurality of operation wheels, the plurality of operation wheels are configured in opposing facing pairs, a plurality of linear drives are interconnected with the plurality of operation wheels, the plurality of linear drives push opposing facing pairs of the plurality of operations to a closed position causing opposing facing pairs of the operation wheels to engage the vessel and perform operations on the vessel, the linear drives pull the plurality of operation wheels to an open position allowing the vessel to be indexed to other operation positions, and a conveyor system positioned between opposing facing pairs of the plurality of operation wheels engages the vessel and indexes the vessel through the plurality of operations. | 04-22-2010 |
20100095735 | METHOD OF COORDINATING VESSEL SHAPE STYLE AND DECORATION STYLE - An embodiment of the present invention is a method of coordinating vessel shaping style and decoration, the method comprising receiving a vessel in a decoration operation, the vessel having a formed shape style, determining the formed shape style, selecting based in part on the formed shape style a decoration style, and decorating the vessel with selected decoration style. | 04-22-2010 |
20100100213 | REMOTE CONTROL AND MANAGEMENT OF A VESSEL FORMING PRODUCTION LINE - An embodiment of the present invention is a method of remotely managing a vessel forming production line, the method comprising communicating from a remote data processing resource a plurality of consumer or event data to a controller, the controller controls a plurality of vessel forming stations having a plurality of shape forming operations and a plurality of non-shape forming operations, configuring each of the plurality of shape forming operations and the plurality of non-shape forming operations based in part on the plurality of consumer or event data to manufacture the shaped vessel, and manufacturing the shaped vessel. | 04-22-2010 |
20130259608 | METHOD OF FORMING A VESSEL - A system and method of forming a vessel may include providing multiple operation wheels configured in opposing facing pairs. Each operation wheel may include multiple work zones, each work zone of an operation wheel being configured in an opposing facing pair with a work zone of another operation wheel to engage the vessel and perform a forming operation on the vessel. Opposing facing pairs of the operation wheels may be linearly pushed to a closed position to engage the vessel, and pulled to an open position. The work zone(s) may perform least one forming operation on the vessel. The vessel may be indexed through the operations at a rotational timing coordinated to index the vessel when opposing facing pairs of the operation wheels are in the open position, the indexing may be clockwise or counterclockwise based on whether a decoration operation is to be performed on the vessel. | 10-03-2013 |
Ruth Karine Espinel, Norcross, GA US
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20100095734 | METHOD OF PERFORMING NON VESSEL SHAPING OPERATIONS DURING VESSEL SHAPING - An embodiment of the present invention is a method of performing non-shape forming operations during vessel shaping, the method comprising indexing a cylinder across a pathway of at least one of an operation wheel, the operation wheel further having a plurality of work zones, performing at the plurality of work zones a plurality of operations on the cylinder in a sequence of a first shaping plurality of operations followed by a non-shaping plurality of operations followed by a second shaping plurality of operations, and effectuating transformation of the cylinder into a shaped vessel. | 04-22-2010 |