Artificial Intelligence for Electrical Percolation of AOT-based Microemulsions Prediction

被引:11
|
作者
Cid, A. [1 ]
Astray, G. [1 ]
Manso, J. A. [1 ]
Mejuto, J. C. [1 ]
Mades, O. A. [1 ]
机构
[1] Univ Vigo, CITI, San Cibrao Das Vinas, Spain
来源
TENSIDE SURFACTANTS DETERGENTS | 2011年 / 48卷 / 06期
关键词
Micromemulsions; AOT; percolation; prediction; artificial neural networks; NEURAL-NETWORKS; CROWN-ETHERS; PHASE-BEHAVIOR; WATER; OIL; EXCHANGE; MODEL; TEMPERATURE; SURFACTANTS; DYNAMICS;
D O I
10.3139/113.110155
中图分类号
O69 [应用化学];
学科分类号
081704 ;
摘要
Different Artificial Neural Network architectures have been assayed to predict percolation temperature of AOT/i-C-8/H2O microemulsions. A Perceptron Multi layer Artificial Neural Network with five entrance variables (W value of the microemulsions, additive concentration, molecular weight of the additive, atomic radii and ionic radii of the salt components) was used. Best ANN architecture was formed by five input neurons, two middle layers (with eleven and seven neurons respectively) and one output neuron. Root Mean Square Errors (RMSEs) are 0.18 degrees C (R = 0.9994) for the training set and 0.64 degrees C (R = 0.9789) for the prediction set.
引用
收藏
页码:477 / 483
页数:7
相关论文
共 50 条
  • [1] Influence Prediction of Alkylamines Upon Electrical Percolation of AOT-based Microemulsions Using Artificial Neural Networks
    Antonio Montoya, Iago
    Adrian Moldes, Oscar
    Cid, Antonio
    Astray, Gonzalo
    Francisco Galvez, Juan
    Carlos Mejuto, Juan
    TENSIDE SURFACTANTS DETERGENTS, 2015, 52 (06) : 473 - 476
  • [2] Aldehydes as Additives in AOT-based Microemulsions: Influence on the Electrical Percolation
    Cid, A.
    Galvez, J. F.
    Barreiro, E.
    Mejuto, J. C.
    TENSIDE SURFACTANTS DETERGENTS, 2018, 55 (02) : 110 - 115
  • [3] Electrical percolation of AOT-based microemulsions with n-alcohols
    Moldes, O. A.
    Morales, J.
    Cid, A.
    Astray, G.
    Montoya, I. A.
    Mejuto, J. C.
    JOURNAL OF MOLECULAR LIQUIDS, 2016, 215 : 18 - 23
  • [4] Linear Polyethers as Additives for AOT-Based Microemulsions: Prediction of Percolation Temperature Changes Using Artificial Neural Networks
    Adrian Moldes, Oscar
    Cid, Antonio
    Montoya, I. A.
    Carlos Mejuto, Juan
    TENSIDE SURFACTANTS DETERGENTS, 2015, 52 (04) : 264 - 270
  • [5] Influence Prediction of Small Organic Molecules (Ureas and Thioureas) Upon Electrical Percolation of AOT-Based Microemulsions Using Artificial Neural Networks
    Antonio Montoya, Iogo
    Astray, Gonzalo
    Cid, Antonio
    Antonio Manso, Jose
    Adrian Moldes, Oscar
    Carlos Mejuto, Juan
    TENSIDE SURFACTANTS DETERGENTS, 2012, 49 (04) : 316 - 320
  • [6] Gas mass transfer to AOT-based microemulsions
    Gómez-Díaz, D
    Mejuto, JC
    Navaza, JM
    CHEMICAL ENGINEERING SCIENCE, 2006, 61 (08) : 2330 - 2338
  • [7] Influence of glymes upon percolative phenomena in AOT-based microemulsions
    Dasilva-Carbalhal, J
    García-Río, L
    Gómez-Díaz, D
    Mejuto, JC
    Pérez-Lorenzo, M
    JOURNAL OF COLLOID AND INTERFACE SCIENCE, 2005, 292 (02) : 591 - 594
  • [8] Nanoparticles synthesis of tungsten disulfide via AOT-based microemulsions
    Ghoreishi, S. M.
    Meshkat, S. S.
    Ghiaci, M.
    Dadkhah, A. A.
    MATERIALS RESEARCH BULLETIN, 2012, 47 (06) : 1438 - 1441
  • [9] Ionizing power and nucleophilicity in water in oil AOT-based microemulsions
    García-Río, L
    Hervella, P
    Leis, JR
    LANGMUIR, 2005, 21 (17) : 7672 - 7679
  • [10] Aminolysis reactions by glycine in AOT-based water-in-oil microemulsions
    García-Río, L
    Mejuto, JC
    Pérez-Lorenzo, M
    COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 2005, 270 : 115 - 123
12345