Techno-Economic Study of Intensified Ethylene Oxide Production Using High Thermal Conductivity Microfibrous Entrapped Catalyst

Author:

Mukta Chinmoy B.,Rayaprolu Nikhil R.,Cremaschi Selen,Eden Mario R.,Tatarchuk Bruce J.

Publisher

Elsevier

Reference16 articles.

1. A novel approach for process retrofitting through process intensification: Ethylene oxide case study;Barecka;Chemical Engineering Research and Design,2017

2. Brueske, S., Kramer, C., & Fisher, A. (2015). Bandwidth Study on Energy Use and Potential Energy Saving Opportunities in US Chemical Manufacturing (No. DOE/EE-1229). Energetics.

3. Understanding the deactivation process of a microfibrous entrapped cobalt catalyst in supercritical fluid Fischer-Tropsch synthesis;Choudhury;Catalysis Today,2020

4. RBFOpt: an open-source library for black-box optimization with costly function evaluations;Costa;Mathematical Programming Computation,2018

5. Essentials of chemical reaction engineering;Fogler,2011

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