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This report presents the economics of Adipic Acid production from benzene in the United States using a two-stage oxidation process similar to Invista process. In this process, benzene is hydrogenated to cyclohexane, which is then oxidized to produce adipic acid with KA oil as intermediate.
This report presents the economics of Adipic Acid production from benzene in the United States using a two-stage oxidation process similar to Asahi Kasei process. In this process, benzene is partially hydrogenated to cyclohexene. Cyclohexene is then hydrated to produce cyclohexanol. The alcohol generated is finally oxidized to produce adipic acid.
This feasibility study assesses the production of Adipic Acid from benzene and propylene in the United States. In the process depicted, phenol is initially produced from benzene and propylene by means of alkylation, oxidation and cleavage. Then, phenol is hydrogenated to produce KA oil, which is then oxidized with nitric acid to produce Adipic Acid.
This report presents a cost analysis of Adipic Acid production from cyclohexane in the United States. The process examined is a two-stage oxidation process, in which cyclohexane is initially oxidized with air to produce KA oil (mixture of cyclohexanone and cyclohexanol), and further oxidized with nitric acid to produce Adipic Acid.
This report presents the economics of Adipic Acid production from a mixture of cyclohexanone and cyclohexanol (known as KA oil) in the United States. The process portrayed comprises the oxidation of the KA oil with nitric acid to produce Adipic Acid. A mixture of adipic, glutaric, and succinic acids is generated as by-product.
It presents the economics of Adipic Acid production from phenol in the United States using a typical hydrogenation process. In the process examined, phenol is hydrogenated to produce KA oil, which is then oxidized with nitric acid to produce Adipic Acid.
This report shows a feasibility study of Bio-Adipic Acid production from glucose syrup in a plant located in the United States. The route 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.
This report assesses the economics of production of bio-based Adipic Acid. The process examined in this report is a fermentation process similar to BioAmber process, in which glucose is fermented to adipic acid. The process under analysis assumes a plant located in the United States.
This report assesses the economics of production of bio-based Adipic Acid. The process examined in this report is a fermentation process similar to BioAmber process, in which raw sugar is fermented to adipic acid. The process under analysis assumes a plant located in Germany.
This report presents the economics of high-purity Adipic Acid production starting from a crude adipic acid stream from a conventional two-stage oxidation process (similar to Invista technology). The crude stream passes through a series of purification steps that include centrifugation, crystallization and drying. The process under analysis assumes a plant located in the United States.