Schaedlich
Andrea Schaedlich, Leubnitz DE
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20090090260 | FORMER ARRANGEMENT - A former arrangement for a rotary printing press is disclosed. The former arrangement includes a former arrangement module with a base element which is mountable on a stationary element of the rotary printing press. A former is connected to the base element. A first web lead device provides for guidance, on the former entry side, of a printing substrate web to be directed in the case of operation over the former. A second web lead device provides for guidance, on the former exit side, of the printing substrate web. The former rests on a cantilevered support element which is fastened with a first end to the base element and which extends cantilevered transverse to a web feed direction over the former. | 04-09-2009 |
Denny Schaedlich, Neustadt DE
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20110011154 | METHOD FOR THE ON-BOARD FUNCTIONAL DIAGNOSIS OF A SOOT SENSOR IN A MOTOR VEHICLE AND/OR FOR THE DETECTION OF FURTHER CONSTITUENTS IN THE SOOT - A method for on-vehicle functional diagnosis of a soot sensor and/or for detecting further components in the soot in a motor vehicle having an internal combustion engine, the soot sensor connected electrically to an evaluation circuit. To specify a method for functional diagnosis of a soot sensor and/or for detecting further components in the soot, by which it is possible to detect a faulty soot sensor and/or further components in the soot in an economical manner, the evaluation circuit measures a temperature coefficient of the soot sensor and detects the faultiness of the soot sensor and/or the presence of further components in the soot from the temperature coefficient of the soot sensor. | 01-20-2011 |
20110015824 | METHOD FOR THE ON-BOARD FUNCTIONAL DIAGNOSIS OF A SOOT SENSOR IN A MOTOR VEHICLE AND/OR FOR THE DETECTION OF FURTHER CONSTITUENTS IN THE SOOT - A method for the on-board functional diagnosis of a soot sensor and detection of further constituents in the soot in a motor vehicle having an internal combustion engine. The soot sensor is connected electrically to an evaluation circuit in the motor vehicle. A faulty soot sensor and/or further constituents in the soot can be detected in an inexpensive way. The evaluation circuit measures the voltage coefficient of the soot sensor and detects the defectiveness of the soot sensor and/or the presence of further constituents in the soot using the voltage coefficient of the soot sensor. | 01-20-2011 |
20150033707 | Method And System For An Exhaust Gas Particulate Filter - A system for determining a regeneration phase of an exhaust gas particulate filter for an internal combustion engine may include a temperature sensor for detecting an elevated exhaust gas temperature, a sensor for detecting the particulate content in the exhaust gas stream exiting from the exhaust gas particulate filter, and a processing device for determining the regeneration phase on the basis of the detected values. A method for determining a regeneration phase of an exhaust gas particulate filter for an internal combustion engine may include detecting an elevated exhaust gas temperature, sampling a signal from a sensor for detecting the particulate content in the exhaust gas stream exiting from the exhaust gas particulate filter, detecting that the particulate content is elevated, and determining the regeneration phase. | 02-05-2015 |
Elsa Karoline Schaedlich, Leipzig DE
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20120279870 | METHOD FOR ELECTROCHEMICAL OXYGEN REDUCTION IN ALKALINE MEDIA - The invention relates to a method for electrochemical reduction of oxygen in alkaline media, a catalyst comprising nitrogen-doped carbon nanotubes (NCNTs) having nanoparticles located on their surface being used. | 11-08-2012 |
Elsa Karoline Schaedlich, Bonn DE
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20130313490 | METAL SOL CONTAINING DOPED SILVER NANOPARTICLES - The invention relates to a metal particle sol, which comprises silver nanoparticles that are doped with a metal or a metal compound selected from the group of metals: ruthenium, rhodium, palladium, osmium, iridium and platinum, preferably ruthenium, to a method for producing such a sol and to its use. | 11-28-2013 |
Frank H. Schaedlich, Toronto CA
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20090000484 | CONDITIONING SYSTEM AND METHOD FOR USE IN THE MEASUREMENT OF MERCURY IN GASEOUS EMISSIONS - Embodiments of the invention relate generally to systems used to measure mercury in gaseous emissions. In one aspect, the invention is directed to the use of silicon carbide as material for a thermal pyrolysis unit. In another aspect, at least one of silicon nitride, silicon boride, and/or boron nitride is used as material for a thermal pyrolysis unit. In another aspect, the invention is directed to an improved pyrolyzer design, in which a thermal pyrolysis unit comprises a tailpiece that allows water to be injected at the heated exit of the thermal pyrolysis unit. In another aspect, the invention is directed to the use of a coalescing filter in a scrubbing unit. In another aspect, the invention is directed to the use of a hydrophobic filter element in a scrubbing unit. One or more of these elements may be used in a conditioning module of a continuous emissions monitoring system, for example. | 01-01-2009 |
20090011512 | CONDITIONING SYSTEM AND METHOD FOR USE IN THE MEASUREMENT OF MERCURY IN GASEOUS EMISSIONS - Embodiments of the invention relate generally to systems used to measure mercury in gaseous emissions. In one aspect, the invention is directed to the use of silicon carbide as material for a thermal pyrolysis unit. In another aspect, at least one of silicon nitride, silicon boride, and/or boron nitride is used as material for a thermal pyrolysis unit. In another aspect, the invention is directed to an improved pyrolyzer design, in which a thermal pyrolysis unit comprises a tailpiece that allows water to be injected at the heated exit of the thermal pyrolysis unit. In another aspect, the invention is directed to the use of a coalescing filter in a scrubbing unit. In another aspect, the invention is directed to the use of a hydrophobic filter element in a scrubbing unit. One or more of these elements may be used in a conditioning module of a continuous emissions monitoring system, for example. | 01-08-2009 |
Ralf Schaedlich, Plauen DE
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20090000502 | METHOD AND DEVICE FOR BLANKET WASH-UP OF A PRINTING COUPLE OF A ROTARY PRINTING PRESS - A method and device for blanket wash-up in the case of a printing couple of a rotary printing press, is disclosed. In order to wash up blankets, blanket plates or blanket sleeves on blanket printing cylinders in a time-saving and cost-effective manner by a blanket wash-up device, during delivery wash-up with paper, a separation of the paper web speed from the circumferential speed of the blanket printing cylinder is realized. As a result, it is possible to realize a high rotational speed of the blanket printing cylinder and therefore a high relative speed at the wash-up location with high water usage while only small amounts of paper are used. | 01-01-2009 |
20100018425 | METHOD FOR OPERATING A WEB-FED PRINTING PRESS - A method for starting up a web-fed printing press is disclosed. In an embodiment, the method includes: a) a first start-up sequence is executed while using predetermined preset parameters that are specific to the printing press and/or the print job for the color register adjustment, cut-off compensator control and the ink density control; b) the web-fed printing press is subsequently stopped, where copies printed during the first start-up sequence are evaluated with respect to the color register, the cut-off compensator and the ink density, and where the preset parameters are adjusted as a function of this evaluation while the printing press is stopped; c) following this, a second start-up sequence is executed, where the preset parameters that are adjusted during the standstill are not used for printing until defined printing press speeds are reached and/or exceeded. | 01-28-2010 |
Thomas Schaedlich, Kornwestheim DE
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20140167703 | Dynamic Line Termination of Communication Buses in Monitoring Circuits for Battery Modules and a Method for Performing the Line Termination during the Initialization of the Monitoring System - A monitoring circuit for a battery module includes at least two terminals configured to be connected to bus lines of a bus system, a series circuit having a line terminating resistor, and a switching device. Ends of the series circuit are in each case electrically connected to one of the two terminals. | 06-19-2014 |