Print this page

Chemicals production without crude oil

  • font sizedecrease font sizedecrease font sizeincrease font sizeincrease font size
  • \n\n
Rate this item
(0 votes)
Chemicals production without crude oil

Chemicals production without crude oil

ID: F1508-08

Hydrocarbons from crude oil are accustomed to create higher-value chemical compounds, but price that is increasing has affected the competition of manufacturers. Novel membrane layer reactors uses alternate feedstock to reduce reliance on oil. Short-chain alkanes with up to four carbons and carbon dioxide (CO2) present in normal gas, coal and biomass could replace the long-chain hydrocarbons from oil as feedstock for any other chemical compounds. However, they truly are very stable and unreactive particles, difficult to convert into additional value items. Alleviating the chemical industry's dependence on crude oil is a neccessity. Partners are developing membranes and catalysts to convert alternative feedstock into chemical compounds for power applications and services and products such as for example solvents, adhesives and coatings that are protective. Now, by the end associated with the second task period, experts are making important progress on all fronts. Novel ways of membrane planning have resulted in new membranes with improved selectivity at greater temperatures and gas that is tuneable properties. An important industrial chemical, has an operating temperature overlapping that of the new membranes in addition, a novel catalyst to speed the conversion of methanol and CO2 to dimethyl carbonate. Experts will also be applying revolutionary characterisation and evaluating protocols to boost the faculties of current membranes. A novel method predicts perovskite membrane traits from analysis of this powder beginning product, accelerating the growth procedure. In situ non-destructive assessment and analytical practices support optimisation of materials and processing under realistic conditions. Finally, long-lasting testing of hydrogen-selective palladium-based membranes has elucidated the key process of selectivity loss, pointing the way to extension of life time. The ultimate objective is demonstration of an membrane that is improved. Researchers have actually tested a 24-membrane steam-reforming reactor that achieved the needed conversion with much lower working temperatures than a process that is conventional. Catalytic membrane layer reactor technology developed will provide relief that is important the chemical industry, which as yet has been reliant on crude oil for feedstock to synthesise numerous services and products.

Diese E-Mail-Adresse ist vor Spambots gesch├╝tzt! Zur Anzeige muss JavaScript eingeschaltet sein!