Predicting emulsion breakdown in the emulsion liquid membrane process: Optimization through response surface methodology and a particle swarm artificial neural network

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作者
Fetimi, Abdelhalim [1 ,9 ]
Dâas, Attef [2 ]
Merouani, Slimane [3 ]
Alswieleh, Abdullah M. [4 ]
Hamachi, Mourad [1 ]
Hamdaoui, Oualid [5 ]
Kebiche-Senhadji, Ounissa [1 ]
Yadav, Krishna Kumar [6 ]
Jeon, Byong-Hun [7 ]
Benguerba, Yacine [8 ]
机构
[1] Laboratoire des Procédés Membranaires et des Techniques de Séparation et de Récupération, Faculté de Technologie, Université de Bejaia, Bejaia,06000, Algeria
[2] Laboratory of Material Physics and Radiation, Faculty of Science and Technology, University of Mohamed Chérif Messaadia, P.O. Box 1553, Souk-Ahras,41000, Algeria
[3] Laboratory of Environmental Process Engineering, Department of Chemical Engineering, Faculty of Process Engineering, University Salah Boubnider-Constantine 3, P.O. Box 72, Constantine,25000, Algeria
[4] Department of Chemistry, College of Science, King Saud University, P.O. Box 2455, Riyadh,11451, Saudi Arabia
[5] Chemical Engineering Department, College of Engineering, King Saud University, P.O. Box 800, Riyadh,11421, Saudi Arabia
[6] Faculty of Science and Technology, Madhyanchal Professional University, Ratibad, Bhopal,462044, India
[7] Department of Earth Resources & Environmental Engineering, Hanyang University, 222-Wangsimni-ro, Seongdong-gu, Seoul,04763, Korea, Republic of
[8] Department of process engineering, Faculty of technology, Ferhat ABBAS Sétif-1 University, Setif,19000, Algeria
[9] Department of process engineering, Faculty of Technology, University Batna 2, Batna,05076, Algeria
来源
Chemical Engineering and Processing - Process Intensification | 2022年 / 176卷
关键词
Forecasting - Water pollution - Particle swarm optimization (PSO) - Sodium Carbonate - Surface properties - Emulsification;
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摘要
To anticipate emulsion breakdown in the ELM process, the Box–Behnken design was used with an artificial neural network (ANN) and a metaheuristic approach, namely particle swarm optimization (PSO) and response surface methodology (RSM). Membrane stability testing began with an experimental component to collect data. The following parameters were used to estimate membrane breakdown: emulsification time (3–7 min), surfactant loadings (2–6% v/v), internal phase concentration ([Na2CO3]: 0.01–1 mg L−1), external phase to w/o emulsion volume ratio (1–11), and internal aqueous phase to membrane volume ratio (0.5 to 1.5). The PSO algorithm was used to determine the optimal ANN parameter values. The hybrid ANN-PSO model outperformed the RSM in identifying optimal ANN parameters (weights and thresholds) and accurately forecasting emulsion breaking percentages throughout the ELM process. The hybrid ANN-PSO method may be a valuable optimization tool for predicting critical data for ELM stability under various operating conditions. © 2022 Elsevier B.V.
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