Commodity Production Costs Report
Adipic Acid Production from Phenol
Adipic Acid Operating Costs & Plant Construction Costs
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.
The report provides a comprehensive study of Adipic Acid production and related Adipic Acid production cost, covering three key aspects: a complete description of the Adipic Acid production process examined; an in-depth analysis of the related Adipic Acid plant capital cost (Capex); and an evaluation of the respective Adipic Acid plant operating costs (Opex).
The Adipic Acid production process description includes a block flow diagram (BFD), an overview of the industrial site installations, detailing both the process unit and the necessary infrastructure, process consumption figures and comprehensive process flow diagrams (PFD). The Adipic Acid plant capital cost analysis breaks down the Capex by plant cost (i.e., ISBL, OSBL and Contingency); owner's cost; working capital; and costs incurred during industrial plant commissioning and start-up. The Adipic Acid plant operating costs analysis covers operating expenses, including variable costs like raw materials and utilities, and fixed costs such as maintenance, labor, and depreciation.
Key reference(s): ?

Product
Adipic Acid. Adipic Acid is one of the most commercially important aliphatic dicarboxylic acids, produced on a very large scale at several locations worldwide.
Raw Material
Phenol. Phenol, also known as hydroxybenzene, is an aromatic compound, comprised of an aromatic ring attached to a hydroxyl group. The major route for phenol production is based on cumene oxidation. Phenol is mainly employed in the manufacturing of bisphenol A (BPA), phenolic resins, Caprolactam and analine.
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Professional report based on Q3 2024 economic data, ensuring timely evaluations.
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Content Highlights
Plant Capital Cost Summary
Summary outlining the capital cost required for building the Adipic Acid production plant examined.
Plant Capital Cost Details
Detailing of fixed capital (ISBL, OSBL & Owner’s Cost), working capital and additional capital requirements.
Plant Cost Breakdowns
Breakdown of Adipic Acid process unit (ISBL) costs and infrastructure (OSBL) costs; plant cost breakdown per discipline.
Operating Costs Summary
Summary presenting the operating variable costs and the total operating cost of the Adipic Acid production plant studied.
Operating Cost Details
Detailing of utilities costs, operating fixed costs and depreciation.
Plant Capacity Assessment
Comparative analysis of capital investment and operating costs for different Adipic Acid plant capacities.
Production Process Information
Block Flow Diagram, descriptions of process unit (ISBL) and site infrastructure (OSBL).
Process Consumptions
Raw materials and utilities consumption figures, by-products credits, labor requirements
Process Diagrams
Process flow diagrams (PFD), equipment list and industrial site configuration
Other Adipic Acid Production Cost Reports

Bio-Adipic Acid Production from Glucose (Chemical Catalytic Process)
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.
Details: 150 kta United States-based plant | Q3 2024 | 107 pages | Issue B | From $799 USD

Bio-Adipic Acid Production from Glucose (Fermentation Process)
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.
Details: 150 kta United States-based plant | Q3 2024 | 107 pages | Issue C | From $799 USD

Adipic Acid Production from Benzene (Cyclohexane Intermediate)
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.
Details: 350 kta United States-based plant | Q3 2024 | 107 pages | Issue E | From $1,499 USD
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Other Related Production Cost Reports

Phenol Production from Cumene
This report presents a feasibility analysis of Phenol production from cumene in the United States using a typical hydroperoxidation process. In this process, cumene is oxidized with air to cumene hydroperoxide, which is then cleft to produce Phenol and acetone.
Details: 200 kta United States-based plant | Q3 2024 | 107 pages | Issue B | From $799 USD

Adiponitrile Production from Adipic Acid and Ammonia
This report presents the economics of Adiponitrile production from adipic acid and ammonia. In the process examined, adipic acid is reacted with ammonia in the presence of a phosphoric acid based catalyst to generate adiponitrile. The economic analysis performed assumes a plant located in the United States.
Details: 190 kta United States-based plant | Q3 2024 | 107 pages | Issue B | From $999 USD

Fiber-Grade Adipic Acid Production from Crude Adipic Acid
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.
Details: 350 kta United States-based plant | Q3 2024 | 107 pages | Issue I | From $799 USD

Phenol Production from Benzene and Hydrogen Peroxide
This study presents the economics of Phenol production from benzene and hydrogen peroxide in the United States using a process similar to the one proposed by the Council of Scientific and Industrial Research. In this process, benzene is directly oxidized with hydrogen peroxide to Phenol, using a vanadyl pyrophosphate catalyst.
Details: 50 kta United States-based plant | Q3 2024 | 107 pages | Issue A | From $999 USD
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