Class / Patent application number | Description | Number of patent applications / Date published |
422242000 | Positive pressure type | 7 |
20100233049 | ADDITIVE EFFECT ENHANCED HYDROGEN PEROXIDE DISINFECTION METHOD AND APPARATUS - A method which enhances a disinfection process by obtaining an additive effect from energy and byproducts of the decomposition process. Also disclosed are contact lens disinfecting systems, wherein the systems are configured to create the desirable elevated pressure, oxygen saturation and sustained peroxide concentration conditions within a contact lens holding and reaction chamber, in order to enhance disinfection by additive effect. The systems are configured to provide that an elevated pressure is maintained in the reaction chamber before venting occurs. | 09-16-2010 |
20110008219 | LUBRICATING BASE OIL MANUFACTURING PLANT FOR PRODUCING BASE OILS HAVING HIGH VISCOSITY INDEX AND DESIRED CYCLOPARAFINIC FUNCTIONALITY - A lubricating base oil manufacturing plant comprising a means for hydroisomerization dewaxing a wax at a specified hydrogen to feed ratio and a means for hydrofinishing the hydroisomerized wax to produce one or more base oils having a viscosity index greater than 28×Ln(Kinematic Viscosity at 100° C., in cSt)+95, and a ratio of wt % molecules with monocycloparaffinic functionality to wt % molecules with multicycloparaffinic functionality greater than 15. | 01-13-2011 |
20110176973 | Hydrogen Generating Fuel Cell Cartridges - The present application is directed to a gas-generating apparatus. Hydrogen is generated within the gas-generating apparatus and is transported to a fuel cell. The first fuel component is introduced into the second fuel component through a conduit which punctures a septum separating the reaction chamber and the first fuel component reservoir, and the fuel conduit introduces the first fuel component to different portions of the second fuel component to produce hydrogen. | 07-21-2011 |
20110200495 | Cartridge for controlled production of hydrogen - A reaction hydrogen production control mechanism is provided that includes, a solid sodium borohydride mixture, a liquid fuel reactant, at least one liquid delivery medium (LDM), a movable boundary interface (MBI) and a reaction zone, where the MBI is disposed to provide a constant contact between a reacting surface of the solid fuel mixture and the primary LDM to form the reaction zone. A reaction in the reaction zone includes a hydrolysis reaction. The MBI moves according to a spring, gas pressure, or an elastic membrane. Product paths are disposed to transfer reactants from the system. The product paths can include a channel on a surface of the solid fuel mixture, a channel disposed through the solid fuel mixture, a channel disposed about the solid fuel mixture, a contained region disposed about the solid fuel mixture, or a conduit abutting the solid fuel mixture. | 08-18-2011 |
20110212000 | DEVICE FOR PRODUCING STARTING MATERIALS, COMBUSTIBLE SUBSTANCES AND FUELS FROM ORGANIC SUBSTANCES - The invention relates to a device for producing starting materials, combustible substances and fuels from organic substances. Said claimed device comprises a reactor ( | 09-01-2011 |
20130280141 | OPTIMIZED LIQUID-PHASE OXIDATION - Disclosed is an optimized process and apparatus for more efficiently and economically carrying out the liquid-phase oxidation of an oxidizable compound. Such liquid-phase oxidation is carried out in a bubble column reactor that provides for a highly efficient reaction at relatively low temperatures. When the oxidized compound is para-xylene and the product from the oxidation reaction is crude terephthalic acid (CTA), such CTA product can be purified and separated by more economical techniques than could be employed if the CTA were formed by a conventional high-temperature oxidation process. | 10-24-2013 |
20130323138 | SYSTEM FOR PERFORMING AUTOMATED SOLID PHASE EXTRACTIONS - The invention provides an improved instrument for automation of solid phase extraction chemistries typically used in biotechnology labs. The instrument includes a mechanism for transferring samples dissolved in a liquid from initial containers to reaction columns that are used to perform solid phase extractions. Samples, reaction columns and collection containers are in microtiter plate format or tubes that are on 18 millimeter centers. The transfer system is automatically cleaned after use in preparation for the next use. A dispense manifold is used to dispense various reagents into the reaction columns. Pressure differential is used to move reagents through reaction columns. A sliding cover is used to divert the reagent exiting reaction columns to waste or allowing collection of sample as it exits outlets of reaction columns. Samples are automatically collected in microtiter plates or in individual tubes or vials. | 12-05-2013 |