Dimethylaminopropylamine is produced with the reaction of acrylonitrile and dimethyl amine. Dimethylaminopropylamine is produces in a two-step reaction. In the second step hydrogen is added to the process. The final product purity is greater than 99.5% (OECD 2004)
Chemical reaction:
C3H3N + C2H7N + 2H2 -> C5H14N2
This inventory representing production of a particular chemical compound is at least partially based on a generic model on the production of chemicals. The data generated by this model have been improved by compound-specific data when available.
The model on production of chemicals is using specific industry or literature data wherever possible and more generic data on chemical production processes to fill compound-specific data gaps when necessary. The basic principles of the model have been published in literature (Hischier 2005, Establishing Life Cycle Inventories of Chemicals Based on Differing Data Availability). The model has been updated and extended with newly available data from the chemical industry.
In the model, unreacted fractions are treated in a waste treatment process, and emissions reported are after a waste treatment process that is included in the scope of this dataset. For volatile reactants, a small level of evaporation is assumed. Solvents and catalysts are mostly recycled in closed-loop systems within the scope of the dataset and reported flows are for losses from this system.
The main source of information for the values for heat, electricity, water (process and cooling), nitrogen, chemical factory is industry data from Gendorf. The values are a 5-year average of data (2011 - 2015) published by the Gendorf factory (Gendorf, 2016, Umwelterklärung, www.gendorf.de), (Gendorf, 2015, Umwelterklärung, www.gendorf.de), (Gendorf, 2014, Umwelterklärung, www.gendorf.de). The Gendorf factory is based in Germany, it produces a wide range of chemical substances. The factory produced 1657400 tonnes of chemical substances in the year 2015 (Gendorf, 2016, Umwelterklärung, www.gendorf.de) and 740000 tonnes of intermediate products.
Reference(s):
Hischier, R. (2005) Establishing Life Cycle Inventories of Chemicals Based on Differing Data Availability (9 pp). The International Journal of Life Cycle Assessment, Volume 10, Issue 1, pp 59–67. 10.1065/lca2004.10.181.7
Gendorf (2016) Umwelterklärung 2015, Werk Gendorf Industriepark, www.gendorf.de
OECD (2004) 3-Aminopropyldimethylamine. In 3-Dimethylaminopropylamine, Technical Resources International, Inc. for the National Cancer Institute (NCI). Retrieved from: https://ntp.niehs.nih.gov/ntp/htdocs/chem_background/exsumpdf/dimethyla…, accessed 17 June 2017
For more information on the model please refer to the dedicate ecoinvent report, access it in the Report section of ecoQuery (http://www.ecoinvent.org/login-databases.html)