Patent application number | Description | Published |
20110003384 | COMPOSITIONS AND METHODS OF USE FOR MGD-CSF IN DISEASE TREATMENT - Disclosed is a newly identified secreted molecule, identified herein as “monocyte, granulocyte, and dendritic cell colony stimulating factor” (MGD-CSF), the polypeptide sequence, and polynucleotides encoding the polypeptide sequence. Also provided is a procedure for producing the polypeptide by recombinant techniques employing, for example, vectors and host cells. Additionally, procedures are described to modify the disclosed novel molecules of the invention to prepare fusion molecules. Also disclosed are methods for using the polypeptides and active fragments thereof for treatment of a variety of diseases, including, for example, cancer, autoimmune and inflammatory diseases, infectious diseases, and recurrent pregnancy loss. | 01-06-2011 |
20120258071 | Compositions and Methods of Use for MGD-CSF in Disease Treatment - Disclosed is a newly identified secreted molecule, identified herein as “monocyte, granulocyte, and dendritic cell colony stimulating factor” (MGD-CSF), the polypeptide sequence, and polynucleotides encoding the polypeptide sequence. Also provided is a procedure for producing the polypeptide by recombinant techniques employing, for example, vectors and host cells. Additionally, procedures are described to modify the disclosed novel molecules of the invention to prepare fusion molecules. Also disclosed are methods for using the polypeptides and active fragments thereof for treatment of a variety of diseases, including, for example, cancer, autoimmune and inflammatory diseases, infectious diseases, and recurrent pregnancy loss. | 10-11-2012 |
20140170145 | COMPOSITIONS AND METHODS OF USE FOR MGD-CSF IN DISEASE TREATMENT - Disclosed is a newly identified secreted molecule, identified herein as “monocyte, granulocyte, and dendritic cell colony stimulating factor” (MGD-CSF), the polypeptide sequence, and polynucleotides encoding the polypeptide sequence. Also provided is a procedure for producing the polypeptide by recombinant techniques employing, for example, vectors and host cells. Additionally, procedures are described to modify the disclosed novel molecules of the invention to prepare fusion molecules. Also disclosed are methods for using the polypeptides and active fragments thereof for treatment of a variety of diseases, including, for example, cancer, autoimmune and inflammatory diseases, infectious diseases, and recurrent pregnancy loss. | 06-19-2014 |
Patent application number | Description | Published |
20140252276 | SYSTEM AND METHOD FOR SYNGAS CLEAN-UP - A system and method for processing unconditioned syngas first removes solids and semi-volatile organic compounds (SVOC), then removes volatile organic compounds (VOC), and then removes at least one sulfur containing compound from the syngas. Additional processing may be performed depending on such factors as the source of syngas being processed, the products, byproducts and intermediate products desired to be formed, captured or recycled and environmental considerations. | 09-11-2014 |
20140296586 | SYSTEM AND METHOD FOR FLEXIBLE CONVERSION OF FEEDSTOCK TO OIL AND GAS - A feedstock flexible process for converting feedstock into oil and gas includes (i) indirectly heated hydrous devolatilization of volatile feedstock components, (ii) indirectly heated thermochemical conversion of fixed carbon feedstock components, (iii) heat integration and recovery, (iv) vapor and gas pressurization, and (v) vapor and gas clean-up and product recovery. A system and method for feedstock conversion includes a thermochemical reactor integrated with one or more hydrous devolatilization and solids circulation subsystems configured to accept a feedstock mixture, comprised of volatile feedstock components and fixed carbon feedstock components, and continuously produce a volatile reaction product stream therefrom, while simultaneously and continuously capturing, transferring, and converting the fixed carbon feedstock components to syngas. | 10-02-2014 |
20150315499 | INTEGRATED TWO-STAGE THERMOCHEMICAL HEAT PIPE REACTOR HAVING A PARTITIONED VESSEL - A feedstock conversion system including an integrated two-stage fluid bed thermochemical reaction apparatus ( | 11-05-2015 |
20160030903 | SYNCHRONOUS SINGLE- AND DOUBLE-ACTING PISTON FEEDER SYSTEM AND METHOD - A mechanism applies necessary forces for the creation of one or more plugs of compressible material to be supplied to a reactor. The plugs are capable of forming a seal between inlets for the plugs and the reactor. The mechanism includes two double-acting hydraulic piston cylinder assemblies coupled with two single-acting hydraulic piston cylinder assemblies. | 02-04-2016 |
20160059176 | SYSTEM FOR SYNGAS CLEAN-UP OF SEMI-VOLATILE ORGANIC COMPOUNDS - A system and method for processing unconditioned syngas first removes solids and semi-volatile organic compounds (SVOC), then removes volatile organic compounds (VOC), and then removes at least one sulfur containing compound from the syngas. Additional processing may be performed depending on such factors as the source of syngas being processed, the products, byproducts and intermediate products desired to be formed, captured or recycled and environmental considerations. | 03-03-2016 |
20160060110 | System for Syngas Clean-Up - A system and method for processing unconditioned syngas first removes solids and semi-volatile organic compounds (SVOC), then removes volatile organic compounds (VOC), and then removes at least one sulfur containing compound from the syngas. Additional processing may be performed depending on such factors as the source of syngas being processed, the products, byproducts and intermediate products desired to be formed, captured or recycled and environmental considerations. | 03-03-2016 |
20160068392 | Method for Syngas Clean-Up of Semi-Volatile Organic Compounds - A system and method for processing unconditioned syngas first removes solids and semi-volatile organic compounds (SVOC), then removes volatile organic compounds (VOC), and then removes at least one sulfur containing compound from the syngas. Additional processing may be performed depending on such factors as the source of syngas being processed, the products, byproducts and intermediate products desired to be formed, captured or recycled and environmental considerations. | 03-10-2016 |
Patent application number | Description | Published |
20090197125 | Method for Maximum Net Power Calculation for Fuel Cell System Based on Online Polarization Curve Estimation - An algorithm for determining the maximum net power available from a fuel cell stack as the stack degrades over time using an online adaptive estimation of a polarization curve of the stack. The algorithm separates the current density range of the stack into sample regions, and selects a first sample region from the far left of the estimated polarization curve. The algorithm then calculates the cell voltage for that current density sample region, and determines whether the calculated cell voltage is less than or equal to a predetermined cell voltage limit. If the calculated cell voltage is not less than the cell voltage limit, then the algorithm selects the next sample region along the polarization curve. When the calculated cell voltage does reach the cell voltage limit, then the algorithm uses that current density for the sample region being analyzed to calculate the maximum power of the fuel cell stack. | 08-06-2009 |
20090197126 | Adaptive Gain Scheduled Control for Current Limitation Based on Voltage Performance of a Fuel Cell System - A system and method for limiting the output current of a fuel cell stack as the stack degrades overtime. A look-up table identifies a predetermined voltage set-point for stack current density. A first comparator provides a voltage difference signal between the set-point and the stack voltage. The voltage difference signal is provided to a controller, such as a proportional-integral controller, that provides a current limiting signal. The current limiting signal and a current request signal are provided to a second comparator that selects which signal will be used to limit the maximum output current of the stack. A polarization curve estimator estimates parameters of the stack that will change over the life of the stack. The parameters are provided to a gain scheduler that provides gains to the controller that are based on where in the life of the stack it is currently operating. | 08-06-2009 |
20090197127 | Algorithm for Stack Current Controller Based on Polarization Curve Estimation of a Fuel Cell Stack - A method for providing a current density set-point for a fuel cell stack in response to a power request from the stack where the set-point is determined based on system parameters that identify the life and degradation of the stack. The method includes dividing a current density range of the fuel cell stack into a predetermined number of sample regions, and selecting the sample regions in order from low to high during the current set-point analysis. The method calculates an average cell voltage for the current density of the selected sample region, and stack power from the average cell voltage. The method then determines whether a power request signal is less than the stack power for the selected sample region and greater than the calculated power for the previous sample region, and if so, calculates the current density set-point at the requested power based on these values. | 08-06-2009 |
20090197155 | Online Low Performing Cell (LPC) Prediction and Detection of Fuel Cell System - A system and method for detecting and predicting low performing cells in a fuel cell stack. When the fuel cell stack is running and certain data validity criteria have been met, an algorithm collects the data, such as stack current density, average cell voltage and minimum cell voltage. This information is used to estimate predetermined parameters that define the stack polarization curve. The system defines a predetermined minimum current density that is used to identify a low performing cell. The system then calculates an average cell voltage and a minimum cell voltage at the minimum current density set-point, and calculates a cell voltage difference between the two. If the cell voltage difference is greater than a predetermined low voltage threshold and the minimum cell voltage is less than a predetermined high voltage threshold, the algorithm sets a flag identifying a potential for a low performing cell. | 08-06-2009 |
Patent application number | Description | Published |
20090046131 | FUEL RAIL INK DELIVERY - A print head has an array of jets to transfer ink from the print head to a printing substrate, at least one ink supply rail to provide ink, and at least one injector to deliver ink from the ink supply rail to the print head. A printer has at least one supply to provide ink, at least one print head to transfer ink onto a printing substrate, an ink supply rail to provide ink to the print head, and an injector to deliver ink from the ink supply rail to the print head. A printing system has an array of print heads, each having at least one injector, at least one ink supply rail to deliver ink to the print heads, at least one supply to supply ink to the ink supply rail, and a transport system to transport a web substrate past the array of print heads. | 02-19-2009 |
20090303305 | SYSTEM AND METHOD FOR ENCAPSULATING EDGES OF PAPER IN PRINTERS - System and method for encapsulating edges of a paper in digital printing systems. A spray applicator can include a set of stationary sprayers with spray nozzles, a set of transfer rollers and an inkjet print head. The stationary sprayers can be positioned at both marginal ends of the paper. The stationary sprayers apply the fluid through the spray nozzles at edges of the moving paper to encapsulate the edges of the paper such that loose paper fibers and debris are bound to the paper. The fluid can be applied when the transfer rollers can pass the moving paper through a printer or printing press. Thus, the system can protect various subsystems of the printer or printing press against contamination due to the loose paper fibers and debris. | 12-10-2009 |
20140210123 | PROCESS AND STRUCTURE TO UNCURL EMBOSSED THIN FLEX CIRCUITS - A method and structure for flattening or straightening a curled flexible printed circuit, such as a flexible printed circuit that has been curled during a contact embossing process. The structure can include a cylindrical opening and a support shaft suspended within the cylindrical opening that prevents buckling of the flexible printed circuit during straightening. To flatten the curled flexible printed circuit, the curled end of the flexible printed circuit can be inserted into the cylindrical opening until the curled end is wrapped partially or completely around the support shaft. | 07-31-2014 |
Patent application number | Description | Published |
20090244225 | Melting Device For Increased Production Of Melted Ink In A Solid Ink Printer - A solid ink printer is enabled to eject ink onto image substrates at rates that are greater than previously known solid ink printers. The solid ink printer includes a print head that ejects melted ink, a web of image substrate that moves past the print head to receive melted ink ejected from the print head, a pair of fixing rollers positioned downstream of the print head, the fixing rollers forming a nip through which the web of image substrate passes to fix the ink onto the web of image substrate, and a melting device coupled to the print head to provide melted ink to the print head. The melting device includes a housing having an opening to receive solid ink, a first rotatable member mounted within the housing, a second rotatable member mounted with the housing, the second rotatable member being proximate to, but spatially separated from the first rotatable member mounted within the melting housing, a heater located within the first rotatable member to heat the first rotatable member to a temperature at which the solid ink melts; and a motor coupled to the first rotatable member and the second rotatable member to rotate the first rotatable member and the second rotatable member within the housing to shear the solid ink as the solid ink melts against the heated first rotatable member. | 10-01-2009 |
20110134171 | Method And Device For Controlling The Mass Of An Ink Droplet - An inkjet printing system controls an ink droplet mass by regulating a pressure in an ink reservoir. The printing system includes an ink reservoir, an air pressure device, an ink ejection device, and a controller. The ink reservoir is configured to contain a supply of ink and an air space above the supply of ink. The air pressure device is fluidly coupled to the air space above the supply of ink. The ink ejection device is fluidly coupled to the ink reservoir to receive ink from the supply of ink and to eject ink droplets onto an image receiving surface. The controller is coupled to the air pressure device and is configured to activate the air pressure device selectively to change a mass of the ink droplets ejected by the ink ejection device. | 06-09-2011 |
20120206527 | RADIANT HEATER FOR PRINT MEDIA - A heater panel is configured to heat a print medium in a printer. The heater panel includes electrical conductors that form a plurality of heating zones to emit radiant energy toward the print medium. Heating zones that correspond to edges of the print medium emit radiant energy with a greater power density than heating zones that correspond to central portions of the print medium. The heater panel has a plurality of angled positions to vary the view factor for high gain control. | 08-16-2012 |
20130328961 | Inkjet Printer having an Image Drum Heater and Cooler - An inkjet offset printer includes a heated drum assembly having a hollow drum with an internal surface defining an internal cavity and a heater and a cooler located in the internal cavity. The heater includes at least one ceramic heater element. The cooler includes a slot to direct an air stream to the internal surface of the drum and aids in quenching the heating element for faster control responses. | 12-12-2013 |
20130335496 | Printer having Skewed Transfix Roller to Reduce Torque Disturbances - An inkjet offset printer includes an imaging drum and a transfix roller skewed with respect to and defining a continuously applied or an uninterrupted nip with the imaging drum to reduce torque disturbances and media wrinkling issues. Acoustic and physical disturbances resulting from a sheet of recording media entering and leaving the nip are reduced or eliminated. | 12-19-2013 |
20140015909 | System and Method for Aligning Duplex Images Using Alignment Marks - A system and method for adjusting a transport path length of a continuous web of recording media in a printing system printing duplex images. The method includes detecting alignment marks, for instance top of form (TOF) marks, on the continuous web of print media and adjusting the path length to provide substantially accurate registration of first and second images on opposite sides of the web for duplex imaging. The system to adjust path length includes idler rollers movable with respect to turnbar rollers. | 01-16-2014 |
20140028747 | System and Method for Spreading Ink on a Media Web - A leveling and spreading system has been developed that enables the speed and position of the web to be determined from a sensor on a first roller. In a duplex print process, the first roller also reduces a temperature of the media web and an ink image printed in the first side print operation to within a first predetermined temperature range. A second roller modulates the temperature of the media web and ink ejected onto the media web immediately before the web enters the leveling and spreading system to within a second predetermined temperature range to enable uniformity of the ink and web temperatures for spreading the ink in a nip formed with a third roller. | 01-30-2014 |
20140198163 | Inkjet Printer Having An Image Drum Heater And Cooler - An inkjet offset printer includes a heated drum assembly having a hollow drum with an internal surface defining an internal cavity and a heater and a cooler located in the internal cavity. The heater includes at least one ceramic heater element. The cooler includes a slot to direct an air stream that is normal to the internal surface of the drum that aids in quenching the heating element for faster control responses. | 07-17-2014 |
20150015651 | Air Film Support Device For An Inkjet Printer - A system and method prints on a continuous web of imaging material in a printing machine. One or more inkjet printheads deposit ink on the continuous web of imaging material which is supported by rollers along a transport path. An air film device is disposed between rollers to stabilize flatness the transported web during printing. Undesirable dynamic movement of the web toward or away from the printheads resulting from fluttering, troughing or catenary sag of the web is reduced to minimize drop placement error in both cross-track and process directions. | 01-15-2015 |
20160023476 | PRINTER CONVECTION DRYER - A printed sheet drying apparatus includes, among other components, a nozzle connected to a heated air supply, and an exhaust chamber connected to the nozzle and to a blower. The nozzle comprises a heated air outlet portion. The heated air outlet portion comprises a multi-planar surface having parallel slot openings tapering away from the printed sheet to prevent saturation at the boundary layer. The exhaust chamber has an exhaust opening that matches the shape of the multi-planar surface, and the exhaust opening is larger than the nozzle and is positioned to form an exhaust periphery gap surrounding a periphery of the nozzle. | 01-28-2016 |
Patent application number | Description | Published |
20110141212 | SOLID INK MELTER ASSEMBLY - A solid phase change ink melter assembly in a phase change ink image producing machine comprises an array of a plurality of spaced apart fins, the array defining a top face for receiving the solid pieces of phase change ink, a bottom face for discharging melted ink, and opposite melter surfaces for melting the solid pieces in contact therewith. The assembly further comprises a number of heat transfer devices extending through and in heat transfer contact with the plurality of fins, the heat transfer devices including a heating element for heating the device. The bottom edge of the fins defines a plurality of apexes which serve as drip points for molten phase change ink. | 06-16-2011 |
20110273521 | High Flow Ink Delivery System - A system and method is provide for delivering molten ink to a printing mechanism including receiving molten ink in a receiving reservoir, and alternating which of a plurality of reservoirs is opened to the receiving reservoir to receive molten ink while at least one other of the plurality of reservoirs is opened to dispense molten ink to the printing mechanism, in response to the level of ink in a reservoir dispensing molten ink to the printing mechanism. | 11-10-2011 |
20120056959 | System and Method For Transporting Solid Ink Pellets - A molten ink supply for a solid ink printing machine includes a container for storing solid ink pellets and a withdrawal tube having an inlet end disposed within the container. A vacuum generator is disposed at the outlet end of the withdrawal tube operable to draw a vacuum within the tube. A feed conduit is connected to the outlet end for receiving solid ink pellets drawn therein by said vacuum generator and conveying the pellets to a melting station operable to melt the solid ink pellets. An assist tube is provided within the container with a discharge nozzle disposed within the withdrawal tube at the inlet end and operable to provide a flow of air into the withdrawal tube to agitate solid ink pellets and facilitate withdrawal of the pellets by the vacuum generator. | 03-08-2012 |
20120236093 | SOLID INK MELTER ASSEMBLY - A solid phase change ink melter assembly in a phase change ink image producing machine comprises an array of a plurality of spaced apart fins, the array defining a top face for receiving the solid pieces of phase change ink, a bottom face for discharging melted ink, and opposite melter surfaces for melting the solid pieces in contact therewith. The assembly further comprises a number of heat transfer devices extending through and in heat transfer contact with the plurality of fins, the heat transfer devices including a heating element for heating the device. The bottom edge of the fins defines a plurality of apexes which serve as drip points for molten phase change ink. | 09-20-2012 |
20120242764 | SOLID INK MELTER ASSEMBLY - A solid phase change ink melter assembly in a phase change ink image producing machine comprises an array of a plurality of spaced apart fins, the array defining a top face for receiving the solid pieces of phase change ink, a bottom face for discharging melted ink, and opposite melter surfaces for melting the solid pieces in contact therewith. The assembly further comprises a number of heat transfer devices extending through and in heat transfer contact with the plurality of fins, the heat transfer devices including a heating element for heating the device. The bottom edge of the fins defines a plurality of apexes which serve as drip points for molten phase change ink. | 09-27-2012 |
20120320134 | High Flow Ink Delivery System - A method for delivering molten ink to a printing mechanism alternates between a first and second reservoir receiving molten ink from a receiving ink reservoir while providing ink from the other of the first and second reservoirs to a printing mechanism. The alternation of the two reservoirs is achieved with coordinated operation of two actuators operatively connected to two seal members. | 12-20-2012 |
Patent application number | Description | Published |
20120042544 | SHOE CHARM HOLDER DEVICE - A device for a shoe with a sole assembly including at least an outer sole and an insole connected to a heel through a shank and a heel breast. The device includes a cap comprising a cap head mounted to a hollow shaft with internal threads therein. The hollow shaft of the cap is received within a bore extending from the insole to the outer sole on the heel breast of the shoe between the heel and the shank of the shoe. A shank having a first end comprising threads and a second end. The first end of the shank is received by the hollow shaft of the cap to fasten the shank to the cap on the heal breast of the shoe. | 02-23-2012 |
20120174443 | SHOE CHARM HOLDER DEVICE - A charm holder device for attaching charms to a heel breast of a shoe located between the shank and the heel of the shoe. The charm holder device includes an attachment portion attached to the shoe, a shoe engaging portion coupled to the attachment portion and a charm engaging portion with a charm keeper coupled to the shoe engaging portion. The charm keeper receives charms or beads. The attachment portion may be attached to the outsole of the shoe only or be in a bore located on the heel breast of the shoe and extending from the insole to the outsole. | 07-12-2012 |
20130180136 | SHOE CHARM HOLDER DEVICE - A charm holder device for attaching charms to a shoe is shown and described. The charm holder device allows a charm to be selectively attached to and detached from the shoe. In certain examples, the charm holder device includes a substantially planar surface that is attached to the shoe and a decorative body projecting away from the substantially planar surface. A charm keeper is attached to the decorative body for attaching charms. In some of the described examples, the charm holder device is placed between the heel of the shoe and a ground-contacting portion of the shoe's sole such that the charm holder and the charm are spaced apart from the ground-contacting portion of the sole in a direction perpendicular to the ground-contacting portion of the sole. | 07-18-2013 |
20140215859 | SHOE CHARM HOLDER DEVICE - A charm holder device for attaching charms to a shoe is shown and described. The charm holder device allows a charm to be selectively attached to and detached from the shoe. A charm keeper is attached to the decorative body for attaching charms. In some of the described examples, the charm holder device is placed between the heel of the shoe and a ground-contacting portion of the shoe's sole such that the charm holder and the charm are spaced apart from the ground-contacting portion of the sole in a direction perpendicular to the ground-contacting portion of the sole. | 08-07-2014 |