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Jorge H.

Jorge H. Aspron, Los Angeles, CA US

Patent application numberDescriptionPublished
20110034840SELF-CHARGING CONTOURABLE INFLATABLE BLADDER - A low-profile self-charging and contouring bladder system assists circulation in a treatment region. Bladders capable of self-inflation and deflation incorporate entry and exit check valves having predetermined cracking pressures to maintain internal pressure above the ambient pressure of the ambient environment. Recharging check valves having low cracking pressures at or slightly above atmospheric pressure, combined with the self-inflation properties of the bladders promotes bladder pressurization. Bladders are disposed in sleeves designed to fit various parts of a wearer's body, and connected in series to allow the apparatus to work across a large region. The system is designed at pressures so that normal bodily movement, including skeletal bending and twisting, causes bladders to expel fluid and take in fluid in a manner causing pressure waves to move across the treatment region.02-10-2011

Jorge H. Capdevila, Nashville, TN US

Patent application numberDescriptionPublished
20100159481DETECTION OF HYPERTENSION USING GLUCURONIDATED METABOLIC PRODUCTS - A method of assessing arachidonic acid (AA) metabolites-dependent hypertension by measuring glucuronidated dihydroxyeicosatrienoic acids (DHETs) and DHET metabolites in a biological sample which contains the epitopes unique to DHET (using any methods including GC/MS, LC/MS or ELISA). An example of the glucuronidated DHET metabolite is DHET-alcohols such as omega or omega-1 oxidated DHET and DHET esterified glycerol. The method further includes determining the amount of glucuronidated molecules containing a DHET-specific epitope which is immunoreactive with antibodies produced against DHETs.06-24-2010

Jorge H. Foglietta, Missouri City, TX US

Patent application numberDescriptionPublished
20090107175Multiple Reflux Stream Hydrocarbon Recovery Process - An ethane recovery process utilizing multiple reflux streams is provided. Feed gas is cooled, partially condensed, and separated into a first liquid stream and a first vapor stream. First liquid stream is expanded and sent to a demethanizer. First vapor stream is split into a first and a second separator vapor streams. First separator vapor stream is expanded and sent to demethanizer. Second separator vapor stream is partially condensed and is separated into a reflux separator liquid stream, which is sent to demethanizer, and a reflux separator vapor stream, which is condensed and sent to demethanizer. Demethanizer produces a tower bottom stream containing a substantial amount of ethane and heavier components, and a tower overhead stream containing a substantial amount of remaining lighter components and forms a residue gas stream. A portion of residue gas stream is cooled, condensed, and sent to the demethanizer tower as top reflux stream.04-30-2009
20090113930Multiple Reflux Stream Hydrocarbon Recovery Process - An ethane recovery process utilizing multiple reflux streams is provided. Feed gas is cooled, partially condensed, and separated into a first liquid stream and a first vapor stream. First liquid stream is expanded and sent to a demethanizer. First vapor stream is split into a first and a second separator vapor streams. First separator vapor stream is expanded and sent to demethanizer. Second separator vapor stream is partially condensed and is separated into a reflux separator liquid stream, which is sent to demethanizer, and a reflux separator vapor stream, which is condensed and sent to demethanizer. Demethanizer produces a tower bottom stream containing a substantial amount of ethane and heavier components, and a tower overhead stream containing a substantial amount of remaining lighter components and forms a residue gas stream. A portion of residue gas stream is cooled, condensed, and sent to the demethanizer tower as top reflux stream.05-07-2009
20090113931Multiple Reflux Stream Hydrocarbon Recovery Process - An ethane recovery process utilizing multiple reflux streams is provided. Feed gas is cooled, partially condensed, and separated into a first liquid stream and a first vapor stream. First liquid stream is expanded and sent to a demethanizer. First vapor stream is split into a first and a second separator vapor streams. First separator vapor stream is expanded and sent to demethanizer. Second separator vapor stream is partially condensed and is separated into a reflux separator liquid stream, which is sent to demethanizer, and a reflux separator vapor stream, which is condensed and sent to demethanizer. Demethanizer produces a tower bottom stream containing a substantial amount of ethane and heavier components, and a tower overhead stream containing a substantial amount of remaining lighter components and forms a residue gas stream. A portion of residue gas stream is cooled, condensed, and sent to the demethanizer tower as top reflux stream.05-07-2009

Jorge H. Rocca Gonzalez, Bogota CO

Patent application numberDescriptionPublished
20090308366GASOLINE CONVERSION SYSTEM FOR INTERNAL COMBUSTION ENGINES THAT OPERATE WITH FUELS BASED ON METHANOL AND OIL - The invention relates to a conversion system for engines that use mixtures of fuels based on methanol and an oil mixture, which enables said two-stroke engines to be operated with gasoline. The conversion is performed by a system using an intelligent device which, in accordance with the engine operating parameters, adapts the situation such that the fuel (gasoline) in the engines is or is not ignited.12-17-2009