Patents by Inventor Thomas Diehl
Thomas Diehl has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20220280387Abstract: The invention provides an improved down streaming process for production of polyunsaturated fatty acid salts suitable for tableting by direct compression.Type: ApplicationFiled: August 7, 2020Publication date: September 8, 2022Applicant: Evonik Operations GmbHInventors: Ashish GUHA, Theresia KUNTZ, Andreas EMRICH, Christian MAHLMEISTER, Johanna PETERS, Milan LATINOVIC (Deceased), Günter KNAUP, Joerg LOTZ, Thomas DIEHL, Vinay JAIN, Eduard HARTMANN
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Publication number: 20190174811Abstract: The present disclosure relates to choline salt compositions, and methods of preparing the same, containing choline salts, sugar alcohols, alginates, phosphate salts, or combinations thereof. The compositions are free flowing and compatible in various manufacturing processes.Type: ApplicationFiled: February 8, 2019Publication date: June 13, 2019Inventors: Bob Jay Dull, Christopher Michael Pavlik, Gideon Nyabuti Oenga, Thomas Diehl, Matthew Jason Ward
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Publication number: 20160353775Abstract: The present disclosure relates to choline salt compositions, and methods of preparing the same, containing choline salts, sugar alcohols, alginates, phosphate salts, or combinations thereof. The compositions are free flowing and compatible in various manufacturing processes.Type: ApplicationFiled: June 2, 2016Publication date: December 8, 2016Applicant: Balchem CorporationInventors: Bob Jay Dull, Christopher Michael Pavlik, Gideon Nyabuti Oenga, Thomas Diehl, Matthew Jason Ward
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Patent number: 9068125Abstract: A process for the recovery of a pure aromatics-containing product is disclosed. This product is obtained by extractive distillation of a gasoline rich in aromatics, in which olefins, diolefins and polyolefins are separated, and this extractive distillation is followed by a hydrogenation of the recovered aromatics-rich, olefin-lean product stream, in which the alkylated aromatics, especially toluene and xylene, are dealkylated and the paraffinic dealkylation products further converted into methane so that a significant portion of hydrogen can be saved by carrying out the hydrogenation subsequent to the extractive distillation, as the aromatics mixture is then free of olefins and no hydrogen is required for an olefin hydrogenation, with extractive distillation and recovery of the extracting solvent taking place in one column. An apparatus for carrying out the process described is also disclosed.Type: GrantFiled: February 18, 2010Date of Patent: June 30, 2015Assignee: ThyssenKrupp Uhde GmbHInventors: Thomas Diehl, Helmut Gehrke, Baerbel Kolbe, Dieter Wilken
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Publication number: 20120067776Abstract: A process for the recovery of a pure aromatics-containing product is disclosed. This product is obtained by extractive distillation of a gasoline rich in aromatics, in which olefins, diolefins and polyolefins are separated, and this extractive distillation is followed by a hydrogenation of the recovered aromatics-rich, olefin-lean product stream, in which the alkylated aromatics, especially toluene and xylene, are dealkylated and the paraffinic dealkylation products further converted into methane so that a significant portion of hydrogen can be saved by carrying out the hydrogenation subsequent to the extractive distillation, as the aromatics mixture is then free of olefins and no hydrogen is required for an olefin hydrogenation, with extractive distillation and recovery of the extracting solvent taking place in one column. An apparatus for carrying out the process described is also disclosed.Type: ApplicationFiled: February 18, 2010Publication date: March 22, 2012Applicant: UHDE GMBHInventors: Thomas Diehl, Helmut Gehrke, Baerbel Kolbe, Dieter Wilken
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Publication number: 20090256713Abstract: A network consisting of sensor elements (7-12), in which the sensor elements (7-12) are connected to one another and/or to a central unit (21) by interfaces, the sensor elements (7-12) being arranged at different locations and each having at least one sensor which detects biological or chemical harmful substances, the sensor elements (7-12) having sensors which detect different substances being arranged at different locations, and the sensor elements (7-12) forwarding measured values detected by the sensors to one another and/or to the central unit (21).Type: ApplicationFiled: May 9, 2006Publication date: October 15, 2009Applicant: DIEHL STIFTUNG & CO. KGInventors: Peter Kalisch, Thomas Diehl
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Patent number: 7099583Abstract: A bit-rate-transparent electrical space-division switching matrix is employed in an optical cross-connect and the input/output stage is constructed from simple, broadband optical receivers and transmitters. Since the switching matrix operates in unclocked manner, i.e. its switching function is not based on internal bit timing and frame timing, arbitrary signals can be switched though transparently at almost any bit rate, independently of the protocol-type being used. The inputs and outputs likewise operate fully independently of bit rate and protocol, since they only implement an O/E conversion or O/E conversion. By virtue of this structure, a simply constructed but extremely powerful optical cross-connect is created that can be employed equally for all types of optical signals within the stipulated wavelength-range.Type: GrantFiled: March 21, 2002Date of Patent: August 29, 2006Assignee: AlcatelInventors: Udo Schäfer, Thomas Diehl, Hermann Zoll
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Patent number: 6720441Abstract: A process for recovering and purifying substituted benzenesulfonates, by neutralizing a mixture including at least one substituted benzenesulfonate, or at least one corresponding substituted benzenesulfonic acid, and sulfur trioxide, sulfuric acid and/or hydrogen chloride in free or bound form, in an aqueous phase using an alkali metal hydroxide, and purifying it in this aqueous phase, and by subsequently separating the substituted benzenesulfonate(s) from this aqueous phase. The mixture is comminuted into particles having a Sauter mean diameter in the range from 1 &mgr;m to 2 cm, either before or during introduction into this aqueous phase.Type: GrantFiled: May 24, 2002Date of Patent: April 13, 2004Assignee: Siemens Axiva GmbH & Co. KGInventors: Rainald Forbert, Thomas Diehl
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Patent number: 6525995Abstract: A radio-controlled timepiece is controlled by time telegrams emitted by a regional transmitter. When the timepiece is out of the effective range of the regional transmitter, the timepiece is controlled by a local (i.e., close-range) transmitter which transmits time telegrams that have the same frequency and encoding as the time telegrams from the regional transmitter. The local transmitter receives time information from a remote source, such as navigational satellites, or alternatively a time server by way of the internet, in order to create the local time telegrams.Type: GrantFiled: August 24, 2000Date of Patent: February 25, 2003Assignee: Junghans Uhren GmbHInventors: Thomas Diehl, Peter Kalisch
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Publication number: 20020193628Abstract: A process for recovering and purifying substituted benzenesulfonates, by neutralizing a mixture including at least one substituted benzenesulfonate, or at least one corresponding substituted benzenesulfonic acid, and sulfur trioxide, sulfuric acid and/or hydrogen chloride in free or bound form, in an aqueous phase using an alkali metal hydroxide, and purifying it in this aqueous phase, and by subsequently separating the substituted benzenesulfonate(s) from this aqueous phase. The mixture is comminuted into particles having a Sauter mean diameter in the range from 1 &mgr;m to 2 cm, either before or during introduction into this aqueous phase.Type: ApplicationFiled: May 24, 2002Publication date: December 19, 2002Applicant: SIEMENS AXIVA GmbH & CO. KGInventors: Rainald Forbert, Thomas Diehl
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Publication number: 20020149815Abstract: A bit-rate-transparent electrical space-division switching matrix is employed in an optical cross-connect and the input/output stage is constructed from simple, broadband optical receivers and transmitters. Since the switching matrix operates in unclocked manner, i.e. its switching function is not based on internal bit timing and frame timing, arbitrary signals can be switched though transparently at almost any bit rate, independently of the protocol-type being used. The inputs and outputs likewise operate fully independently of bit rate and protocol, since they only implement an O/E conversion or O/E conversion. By virtue of this structure, a simply constructed but extremely powerful optical cross-connect is created that can be employed equally for all types of optical signals within the stipulated wavelength-range.Type: ApplicationFiled: March 21, 2002Publication date: October 17, 2002Applicant: ALCATELInventors: Udo Schafer, Thomas Diehl, Hermann Zoll