Journal
FUEL
Volume 126, Issue -, Pages 202-212Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.fuel.2014.02.034
Keywords
CO2 enhanced oil recovery; Minimum miscibility pressure; Back propagation artificial neural network; Genetic algorithm
Categories
Funding
- National Natural Science Foundation of China [21276068, 21376067, U1362112]
- National Key Technology RD Program [2012BAC26B01]
- Innovative Research Team Development Plan-Ministry of Education of China [IRT1238]
- Specialized Research Fund for the Doctoral Program of Higher Education [20130161110025]
- China's State Project 985'' in Hunan University-Novel Technology Research Development
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In this study, a genetic algorithm based back propagation artificial neural network model was developed and used to predict the minimum miscibility pressure, i.e. MMP, for both pure and impure CO2 injection cases. Ten parameters that affecting the MMP were chosen as input variables, while the MMP was selected as output parameter. These parameters were reservoir temperature-T-R, mole fraction of volatile oil components-x(vol), mole fraction of intermediate oil components-x(int), mole fraction of C-5-C-6 oil components-x(C5-C6), molecular weight of C7+ components-MWC7+, mole fraction of CO2 in solvent-x(CO2), mole fraction of C-1 in solvent-x(C1), mole fraction of N-2 in solvent-x(N2), mole fraction of H2S in solvent-x(H2S), and mole fraction of C-2-C-4 in solvent-x(C2-C4). The performance of the newly developed model was evaluated by calculating the deviations between the predicted and the target values, and was compared with four well known correlations in published literature. Through the comparison, it can be found that our new model outperformed those four correlations with the lowest average absolute relative error of 5.51% and mean square error of 7.01%. The influence degrees of each factor on MMP were also analyzed qualitatively and quantitatively by sensitivity analysis. It was found that x(int), x(C5-C6), and x(H2S) have positive effects on MMP, while T-R, x(vol), MWC7+, x(CO2), x(C1), and x(N2) have negative effects on MMP. In addition, the effect of x(C2-C4) on MMP can be neglected. Furthermore, the variations of MMP with the increase of each factor were also considered, and it can be found that the slopes of these curves are not constant all the time and change with the variations of the influence factors. (C) 2014 Elsevier Ltd. All rights reserved.
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