@article { author = {Oudi, A.H. and Golhosseini, R.}, title = {Optimization of the homogeneous rhodium-catalyzed methanol carbonylation reactor to reduce CO2 emissions}, journal = {Iranian Journal of Chemical Engineering(IJChE)}, volume = {19}, number = {3}, pages = {50-68}, year = {2022}, publisher = {Iranian Association of Chemical Engineers(IAChE)}, issn = {1735-5397}, eissn = {2008-2355}, doi = {10.22034/ijche.2023.364482.1459}, abstract = {Optimization of the homogeneous rhodium-catalyzed methanol carbonylation reactor to reduce CO2 emissions is studied in this line of research. In this paper, the steady-state homogeneous rhodium-catalyzed methanol carbonylation reactor is simulated using Aspen HysysV.9 software, by comparing the simulation results with industrial information, a mean relative error (excluding methanol) of 4.8% was obtained, which indicates the high accuracy of the simulation. The central composite design (CCD) and genetic algorithm (GA) with the aid of a simplified process simulation were used to estimate the effect of individual variables (liquid level, the temperature of the catalyst-rich recycle stream, the mole ratio of CO to methanol (MeOH) in the feed, and flow rate of dilute acid stream) and their mutual interactions to reduce CO2 emissions. It is obtained that the liquid level percentage of 46%, the catalyst-rich recycle stream temperature of 120 °C, CO: MeOH molar ratio equal to 1.13:1, and the dilute acid flow rate of 513.14 kmol/hr lead to CO2 reduction by 34%.}, keywords = {Carbon Emission Reduction,optimization,Rhodium-Catalyzed,Homogeneous Methanol Carbonylation,Central composite design}, url = {https://www.ijche.com/article_165983.html}, eprint = {https://www.ijche.com/article_165983_9c3e86e8647e02b0cea449e0ccc05949.pdf} }