November 22, 2024
Masoud Mofarahi

Masoud Mofarahi

Academic Rank: Professor
Address:
Degree: Ph.D in chemical engineering
Phone: 07331222613
Faculty: Faculty of Petroleum, Gas and Petrochemical Engineering

Research

Title Facile estimation of viscosity of natural amino acid salt solutions: Empirical models vs artificial intelligence
Type Article
Keywords
Green solvents Natural amino acid Physical property Empirical model Machine learning
Journal Results in Engineering
DOI https://doi.org/10.1016/j.rineng.2023.101187
Researchers َAli Bakhtyari (First researcher) , Ali Rasoolzadeh (Second researcher) , khayyam Mehrabi (Third researcher) , Masoud Mofarahi (Fourth researcher) , Chang_Ha Lee (Fifth researcher)

Abstract

Natural amino acid salt solutions (NAASs) are paving the way for greener carbon capture. This study developed simple and precise methods for the viscosity modeling of NAASs. Two approaches, namely, empirical correlations and artificial intelligence, were assessed using a large databank (16 NAAs, 3 alkaline compounds, 25 NAASs, and 1582 data points). Two general correlations and a global equation were suggested. Benefitting from the input of single reference-point data, the modified global equation yielded the best results with a 2.28% deviation. The other empirical models represented viscosities with less than a 7.20% error. The second approach, employing artificial neural networks (ANNs) with different algorithms, was also proposed. The best ANNs were a single-layer perceptron network with tansig + trainlm functions, a double-layer perceptron network with logsig + tansig + trainlm functions, and a radial basis function network with the maximum neurons. They managed to calculate the viscosities with errors of 2.82%, 1.82%, and 0.47%, respectively.