Production Cost Report
azodicarbonamide-e11a
urea-e11a,precipitated-silica-e11a,acrylic-acid-e11a
Azodicarbonamide
Azodicarbonamide
Azodicarbonamide is a chemical compound used as a food additive (flour bleaching agent and a dough conditioner), and in the production of foamed plastics as a blowing agent. Azodicarbonamide is produced from hydrazine and urea. These reagents form the intermediate hydrazodicarbonamide, which is then oxidized to Azodicarbonamide. It appears as an orange to pale-yellow, crystalline powder, poorly soluble in water at 20 °C, although it is slightly soluble in hot water. It is insoluble in many organic solvents, but is soluble in N,N-dimethyl formamide and dimethyl sulfoxide.
blowing agent (foamed plastics/rubber)

Azodicarbonamide Cost of Production | Q1 2024

Updated Reports Examining Azodicarbonamide Manufacturing Costs

Intratec offers professional, easy-to-understand Commodity Cost of Production reports analyzing the costs of Azodicarbonamide manufacturing processes. Each report describes an industrial plant based on a specific Azodicarbonamide process. The report also presents an independent analysis of the costs of Azodicarbonamide production, encompassing plant capital costs (capex) and plant operating costs (opex). All reports are based on the most recent economic data available (Q1 2024).

Azodicarbonamide Production

This report presents the economics of a typical Azodicarbonamide production process from urea, hydrazine hydrate, and sodium dichromate in the United States. In the process examined, urea and hydrazine hydrate react to produce hydrazocarbonamide, which is oxidized to produce Azodicarbonamide.

Details: 0.60 kta United States-based plant   |   Q1 2024   |   107 pages   From $1,999 USD

The cost analyses presented in the report Azodicarbonamide E11A target a 0.60 kta (kilometric tons per annum) United States-based plant. For those interested in cost analyses considering other plant capacities and/or locations, Intratec offers a customized analysis as an optional feature.

Could Not Find the Production Cost Report you Need?

If none of the Azodicarbonamide reports listed above fits your needs, you can request a bespoke report examining the process you are interested in! You will have a report tailored to your needs, in which you defined production process, industrial plant capacity and location!

Details: Customer-defined Plant Location & Capacity  |   Q1 2024 From $2,900 USD

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Acrylic Acid Production from Propylene

This report presents the economics of Ester-Grade Acrylic Acid (EAA) production from chemical grade (CG) propylene in a plant located in the United States. The process consists in a two stage vapor-phase oxidation of propylene, yieding Acrylic Acid, which is then purified to obtain the Ester-Grade product.

Details: 150 kta United States-based plant   |   Q1 2024   |   106 pages From $799 USD

The cost analyses presented in the report Acrylic Acid E11A target a 150 kta (kilometric tons per annum) United States-based plant. For those interested in cost analyses considering other plant capacities and/or locations, Intratec offers a customized analysis as an optional feature.

Precipitated Silica Production

This report presents the economics of Precipitated Silica production from a sodium silicate solution and sulfuric acid in the United States. In the process, the sodium silicate solution is treated with sulfuric acid. The solution is precipitated, filtered, washed, and dried, producing Precipitated Silica.

Details: 50 kta United States-based plant   |   Q1 2024   |   108 pages From $799 USD

The cost analyses presented in the report Precipitated Silica E11A target a 50 kta (kilometric tons per annum) United States-based plant. For those interested in cost analyses considering other plant capacities and/or locations, Intratec offers a customized analysis as an optional feature.

Prilled Urea Production from Ammonia (Self-Stripping Process)

This report presents the economics of Prilled Urea production from ammonia and carbon dioxide in the United States, through a process similar to Saipem's (formerly Snamprogetti) ammonia stripping process. In this process, ammonia and carbon dioxide are reacted to form ammonium carbamate, which is converted to Urea. The non-converted carbamate is stripped from the Urea solution by excess ammonia and decomposed back to ammonia and carbon dioxide, which are recycled to the Urea synthesis.

Details: 1,300 kta United States-based plant   |   Q1 2024   |   106 pages From $799 USD

The cost analyses presented in the report Urea E11A target a 1,300 kta (kilometric tons per annum) United States-based plant. For those interested in cost analyses considering other plant capacities and/or locations, Intratec offers a customized analysis as an optional feature.

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About Azodicarbonamide. Azodicarbonamide is a chemical compound used as a food additive (flour bleaching agent and a dough conditioner), and in the production of foamed plastics as a blowing agent. Azodicarbonamide is produced from hydrazine and urea. These reagents form the intermediate hydrazodicarbonamide, which is then oxidized to Azodicarbonamide. It appears as an orange to pale-yellow, crystalline powder, poorly soluble in water at 20 °C, although it is slightly soluble in hot water. It is insoluble in many organic solvents, but is soluble in N,N-dimethyl formamide and dimethyl sulfoxide.

Azodicarbonamide Uses. blowing agent (foamed plastics/rubber)

Intratec Methodology. Intratec distilled its expertise, gained from more than a decade of supporting companies worldwide in the analysis of commodities markets and process economics, and developed a consistent report development methodology.

The methodology ensures a holistic, coherent, and consistent techno-economic evaluation, guiding the development of a report that allows readers to fully understand a specific process technology for the production of a commodity. In addition to being based on a common methodology, all Intratec reports that approach industrial processes have a common structure, i.e., indexes, tables and charts share similar standards. This ensures that Intratec’s readers know upfront what they will get and, more than that, will be able to compare technologies addressed in different reports.

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