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This report presents a cost analysis of Bio-Adipic Acid production from glucose syrup using a fermentation process. The process examined is similar to BioAmber process. In this process, glucose is fermented by a metabolically engineered microorganism capable of producing Adipic Acid. The process uses a 70 wt% glucose-water syrup and Adipic Acid crystals are obtained as final product. This report was developed based essentially on the following reference(s): US Patent 20110269993, issued to BioAmber in 2011 Keywords: Bioadipic Acid, Glucose Fermentation, Dextrose, Hexanedioic Acid, Dicarboxylic Acid, Green Adipic Acid, Renewable Feedstock
This report presents a cost analysis of Bio-Adipic Acid production from glucose syrup using a fermentation process The process examined is similar to BioAmber process. In this process, glucose is fermented by a metabolically engineered microorganism capable of producing Adipic Acid. The process uses a 70 wt% glucose-water syrup and Adipic Acid crystals are obtained as final product. This report was developed based essentially on the following reference(s): US Patent 20110269993, issued to BioAmber in 2011 Keywords: Bioadipic Acid, Glucose Fermentation, Dextrose, Hexanedioic Acid, Dicarboxylic Acid, Green Adipic Acid, Renewable Feedstock
This report presents a cost analysis of Bio-Adipic Acid production from glucose syrup. The process examined is a two-step catalytic process similar to Rennovia process. In this process, glucose is first oxidized to produce glucaric acid, which is then hydrogenated to produce Adipic Acid. The process uses a 70 wt% glucose-water syrup as raw material. This report was developed based essentially on the following reference(s): US Patent 8669397, issued to Rennovia in 2014 Keywords: Bioadipic Acid, Hexanedioic Acid, Dextrose, Glucose Oxidation, Glucaric Acid Hydrogenation, Green Adipic Acid, Renewable Feedstock
This report presents a cost analysis of Bio-Adipic Acid production from raw sugar using a fermentation process. The process examined is similar to BioAmber process. In this process, raw sugar (sucrose) is diluted and sucrose is hydrolyzed into glucose and fructose (invert sugars). The invert sugars are then fermented to produce Adipic Acid. This report was developed based essentially on the following reference(s): US Patent 20110269993, issued to BioAmber in 2011 Keywords: Bioadipic Acid, Hydrolysis, Dextrose, Hexanedioic Acid, Dicarboxylic Acid, Sucrose Inversion, Green Adipic Acid, Renewable Feedstock
Provides corrosion basics in a lucid manner to students and working professionals and over 80 corrosion-failure analysis case studies Correlates Failure Analysis with Corrosion Science Exclusively provides corrosion-related failure analysis case histories in one place in a convenient format One-stop shop for both science and real time occurrence of the phenomenon of corrosion Full coverage of all MOC, Materials of Construction, used for process equipments Simple but Lucid presentation of Failure Analysis procedure
This report presents a cost analysis of Adipic Acid production from cyclohexane The process examined is a two-stage oxidation process, similar to the Invista technology. In this process, cyclohexane is initially oxidized with air to produce KA oil (mixture of cyclohexanone and cyclohexanol). Subsequently, the KA oil is oxidized with nitric acid to produce Adipic Acid. A mixture of adipic, glutaric, and succinic acids is generated as by-product. This report was developed based essentially on the following reference(s): (1) US Patent 20040054235, issued to DuPont in 2004 (assigned to Invista in 2004) (2) "Adipic Acid," Kirk-Othmer Encyclopedia of Chemical Technology, 5th edition Keywords: Hexanedioic Acid, DuPont, Ketone/Alcohol Oil, Air Oxidation, Nitric Acid Oxidation, Boric Acid
This report presents a cost analysis of bio-based Succinic Acid production from glucose syrup using a fermentation process The process examined is similar to BioAmber process. In this process, a 70 wt% glucose-water syrup is used as raw material. This report was developed based essentially on the following reference(s): US 20130072714 and WO 2013039647 Patents, both issued to BioAmber in 2013 Keywords: Dextrose, Butanedioic Acid, Anaerobic Fermentation, Applied Carbochemicals, Michigan State University
This report presents a cost analysis of Adipic Acid production from phenol. The process examined is a typical hydrogenation process. In this process, phenol is hydrogenated to produce KA oil (mixture of cyclohexanone and cyclohexanol). The KA oil is then oxidized with nitric acid to produce Adipic Acid. This report was developed based essentially on the following reference(s): "Cyclohexanol and Cyclohexanone", Ullmann's Encyclopedia of Industrial Chemistry, 7th edition Keywords: Hexanedioic Acid, Ketone/Alcohol Oil
This report presents a cost analysis of bio-based Succinic Acid production from glucose syrup using a fermentation process. The process examined is similar to Michigan Biotechnology Institute (MBI) process. In this process, electrodialysis is used in Succinic Acid recovery from the fermentation broth. The process uses a 70 wt% glucose-water syrup as raw material. This report was developed based essentially on the following reference(s): US Patent 20140093925 and US Patent 6265190, both issued to Michigan Biotechnology Institute in 2014 and 2001, respectively Keywords: Butanedioic acid, Dextrose, Anaerobic Fermentation, Sodium Succinate, Sodium Hydroxide
This report presents a cost analysis of bio-based Succinic Acid production from glucose syrup using a fermentation process. The process examined is similar to Reverdia process. In this process, a 70 wt% glucose-water syrup is used as raw material. This report was developed based essentially on the following reference(s): US 9012187 and US 20120040422 Patents, both issued to DSM in 2015 and 2012, respectively Keywords: Dextrose, Butanedioic Acid, Anaerobic Fermentation, DSM, Roquette Freres, Rice University, Biosuccinium