Patent application number | Description | Published |
20090311910 | PLUG TYPE CONNECTOR - The invention relates to a plug-type connector with a cable, which has at least one line, a contact carrier, which has at least one contact element, which is connected to the at least one line of the cable, and an encapsulation, which is injected around the cable and the contact carrier, wherein a sealing element for sealing the encapsulation off from the outer sheath of the cable is provided. | 12-17-2009 |
20110300732 | PLUG-TYPE CONNECTOR - The invention relates to a plug-type connector with a cable, which has at least one line, a contact carrier, which has at least one contact element, which is connected to the at least one line of the cable, and an encapsulation, which is injected around the cable and the contact carrier, wherein a sealing element for sealing the encapsulation off from the outer sheath of the cable is provided. | 12-08-2011 |
20140099826 | INSULATING GLAZING WITH ELECTRICAL CONNECTION ELEMENT - An insulating glazing with an electrical connection element is described. The insulating glazing having a first pane, and a second pane, a peripheral spacer between the first pane and the second pane, an inner insulation between the peripheral spacer and the first pane and between the peripheral spacer and the second pane, an outer insulation in an outer edge space between the first pane, the peripheral spacer, and the second pane, and a connected plug connection arrangement that has an inner plug connection between the first pane and the second pane, a central plug connection in the peripheral spacer, and an outer plug connection. | 04-10-2014 |
Patent application number | Description | Published |
20090119990 | Methods and Apparatus for Solid Carbonaceous Materials Synthesis Gas Generation - Methods and apparatus may permit the generation of consistent output synthesis gas from highly variable input feedstock solids carbonaceous materials. A stoichiometric objectivistic chemic environment may be established to stoichiometrically control carbon content in a solid carbonaceous materials gasifier system. Processing of carbonaceous materials may include dominative pyrolytic decomposition and multiple coil carbonaceous reformation. Dynamically adjustable process determinative parameters may be utilized to refine processing, including process utilization of negatively electrostatically enhanced water species, process utilization of flue gas ( | 05-14-2009 |
20090119991 | Methods and Apparatus for Solid Carbonaceous Materials Synthesis Gas Generation - Methods and apparatus may permit the generation of consistent output synthesis gas from highly variable input feedstock solids carbonaceous materials. A stoichiometric objectivistic chemic environment may be established to stoichiometrically control carbon content in a solid carbonaceous materials gasifier system. Processing of carbonaceous materials may include dominative pyrolytic decomposition and multiple coil carbonaceous reformation. Dynamically adjustable process determinative parameters may be utilized to refine processing, including process utilization of negatively electrostatically enhanced water species, process utilization of flue gas ( | 05-14-2009 |
20090119992 | Methods and Apparatus for Solid Carbonaceous Materials Synthesis Gas Generation - Methods and apparatus may permit the generation of consistent output synthesis gas from highly variable input feedstock solids carbonaceous materials. A stoichiometric objectivistic chemic environment may be established to stoichiometrically control carbon content in a solid carbonaceous materials gasifier system. Processing of carbonaceous materials may include dominative pyrolytic decomposition and multiple coil carbonaceous reformation. Dynamically adjustable process determinative parameters may be utilized to refine processing, including process utilization of negatively electrostatically enhanced water species, process utilization of flue gas ( | 05-14-2009 |
20090119994 | Methods and Apparatus for Solid Carbonaceous Materials Synthesis Gas Generation - Methods and apparatus may permit the generation of consistent output synthesis gas from highly variable input feedstock solids carbonaceous materials. A stoichiometric objectivistic chemic environment may be established to stoichiometrically control carbon content in a solid carbonaceous materials gasifier system. Processing of carbonaceous materials may include dominative pyrolytic decomposition and multiple coil carbonaceous reformation. Dynamically adjustable process determinative parameters may be utilized to refine processing, including process utilization of negatively electrostatically enhanced water species, process utilization of flue gas ( | 05-14-2009 |
20090126270 | Methods and Apparatus for Solid Carbonaceous Materials Synthesis Gas Generation - Methods and apparatus may permit the generation of consistent output synthesis gas from highly variable input feedstock solids carbonaceous materials. A stoichiometric objectivistic chemic environment may be established to stoichiometrically control carbon content in a solid carbonaceous materials gasifier system. Processing of carbonaceous materials may include dominative pyrolytic decomposition and multiple coil carbonaceous reformation. Dynamically adjustable process determinative parameters may be utilized to refine processing, including process utilization of negatively electrostatically enhanced water species, process utilization of flue gas ( | 05-21-2009 |
20090126276 | Methods and Apparatus for Solid Carbonaceous Materials Synthesis Gas Generation - Methods and apparatus may permit the generation of consistent output synthesis gas from highly variable input feedstock solids carbonaceous materials. A stoichiometric objectivistic chemic environment may be established to stoichiometrically control carbon content in a solid carbonaceous materials gasifier system. Processing of carbonaceous materials may include dominative pyrolytic decomposition and multiple coil carbonaceous reformation. Dynamically adjustable process determinative parameters may be utilized to refine processing, including process utilization of negatively electrostatically enhanced water species, process utilization of flue gas ( | 05-21-2009 |
20110220584 | Methods for Removing Impurities from Water - A method for removing undesired substances from liquid water may comprise the steps of: subjecting an oxygen-containing substance to an environment; increasing a temperature within said environment; ionizing said oxygen-containing substance; forming an electrostatically enhanced oxygen species; transferring at least some of said electrostatically enhanced oxygen species to said liquid water; processing said liquid water by action of said electrostatically enhanced oxygen species; creating a charged negatively electrostatically enhanced water species by the presence of said electrostatically enhanced oxygen species in said liquid water; and removing said undesired substances from said liquid water through action of said charged negatively electrostatically enhanced water species in said liquid water, perhaps with the goal of purifying water. Such water may be used in a variety of manners, including but not limited to reuse of the purified water in a closed loop system as a cleaning agent. | 09-15-2011 |
20120096768 | Process and System for Production of Synthesis Gas - Methods and apparatus may permit the generation of consistent output synthesis gas from highly variable input feedstock solids carbonaceous materials. A stoichiometric objectivistic chemic environment may be established to stoichiometrically control carbon content in a solid carbonaceous materials gasifier system. Processing of carbonaceous materials may include dominative pyrolytic decomposition and multiple coil carbonaceous reformation. Dynamically adjustable process determinative parameters may be utilized to refine processing, including process utilization of negatively electrostatically enhanced water species, process utilization of flue gas, and adjustment of process flow rate characteristics. Recycling may be employed for internal reuse of process materials, including recycled negatively electrostatically enhanced water species, recycled flue gas, and recycled contaminants. Synthesis gas generation may involve predetermining a desired synthesis gas for output and creating high yields of such a predetermined desired synthesis gas. | 04-26-2012 |
20130240344 | Process and System for Production of Synthesis Gas - Methods and apparatus may permit the generation of consistent output synthesis gas from highly variable input feedstock solids carbonaceous materials. A stoichiometric objectivistic chemic environment may be established to stoichiometrically control carbon content in a solid carbonaceous materials gasifier system. Processing of carbonaceous materials may include dominative pyrolytic decomposition and multiple coil carbonaceous reformation. Dynamically adjustable process determinative parameters may be utilized to refine processing, including process utilization of negatively electrostatically enhanced water species, process utilization of flue gas, and adjustment of process flow rate characteristics. Recycling may be employed for internal reuse of process materials, including recycled negatively electrostatically enhanced water species, recycled flue gas, and recycled contaminants. Synthesis gas generation may involve predetermining a desired synthesis gas for output and creating high yields of such a predetermined desired synthesis gas. | 09-19-2013 |
20140048719 | Water Treatment Methods and Apparatus - Methods and apparatus may permit the generation of consistent output synthesis gas from highly variable input feedstock solids carbonaceous materials. A stoichiometric objectivistic chemic environment may be established to stoichiometrically control carbon content in a solid carbonaceous materials gasifier system. Processing of carbonaceous materials may include dominative pyrolytic decomposition and multiple coil carbonaceous reformation. Dynamically adjustable process determinative parameters may be utilized to refine processing, including process utilization of negatively electrostatically enhanced water species, process utilization of flue gas, and adjustment of process flow rate characteristics. Recycling may be employed for internal reuse of process materials, including recycled negatively electrostatically enhanced water species, recycled flue gas, and recycled contaminants. Synthesis gas generation may involve predetermining a desired synthesis gas for output and creating high yields of such a predetermined desired synthesis gas. | 02-20-2014 |
Patent application number | Description | Published |
20110142572 | AUTO-SEQUENCING INLINE PROCESSING APPARATUS - An apparatus and method for concurrent processing of several substrates. The system employs a novel architecture which, while being linear, may autonomously sequence processing and move substrates in different directions as necessary. The system moves several substrates concurrently; however, unlike the prior art it does not utilize trays. | 06-16-2011 |
20110142573 | AUTO-SEQUENCING MULTI-DIRECTIONAL INLINE PROCESSING APPARATUS - An apparatus and method for concurrent processing of several substrates. The system employs a novel architecture which, while being linear, may autonomously sequence processing and move substrates in different directions as necessary. The system moves several substrates concurrently; however, unlike the prior art it does not utilize trays. | 06-16-2011 |
20130294678 | AUTO-SEQUENCING MULTI-DIRECTIONAL INLINE PROCESSING METHOD - A method for auto-sequencing of plasma processing system for concurrent processing of several substrates. The method autonomously sequence processing and move substrates in different directions as necessary. The method moves two substrate trays together into the processing chamber for substrate exchange, and remove the trays from the chamber one at a time. When needed, the method moves one tray into the processing chamber for removal of the susceptor without exposing the chamber to atmospheric environment. | 11-07-2013 |