New connectionist tools for prediction of CO2 diffusion coefficient in brine at high pressure and temperature ─ implications for CO2 sequestration in deep saline aquifers

[Display omitted] •New models were proposed for CO2 diffusion coefficient prediction in brine at HPHT.•191 experimental and molecular dynamic data were used for modeling and validation.•The models were developed using MLP-ANN, CFNN, RNN, and GEP algorithms.•The GEP correlation is the first correlati...

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Veröffentlicht in:Fuel (Guildford) Jg. 384; S. 134000
Hauptverfasser: Kouhi, Maryam Mahmoudi, Kahzadvand, Kamiab, Shahin, Matin, Shafiei, Ali
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Elsevier Ltd 15.03.2025
Schlagworte:
CO2 diffusion coefficient prediction
CO2 geo-sequestration
Deep saline aquifers
Machine learning
Multilayer perceptron
Multilayer perceptron
CO2 geo-sequestration
Deep saline aquifers
CO2 diffusion coefficient prediction
Machine learning
ISSN:0016-2361
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Abstract [Display omitted] •New models were proposed for CO2 diffusion coefficient prediction in brine at HPHT.•191 experimental and molecular dynamic data were used for modeling and validation.•The models were developed using MLP-ANN, CFNN, RNN, and GEP algorithms.•The GEP correlation is the first correlation ever proposed as a function of P, T, and density.•MLP model is the superior smart model with RMSE and R2 of 2.9449 and 0.9978, respectively. Saline aquifers are considered as a prime target for permanent geological storage of anthropogenic CO2 owing their relative abundance and suitable storage capacity. CO2 diffusion coefficient in brine is a vital parameter in modeling CO2 sequestration operations. Although, CO2 diffusion coefficient can be determined precisely in laboratory but such tests are constrained by their relatively high cost, time intensive nature, and safety concerns because of high-pressure high-temperature tests. Development of precise, fast, and robust models and correlations for a broad range of pressure and temperature is vital. The main objective of this research work was to develop connectionist predictive models and a correlation using four neural network algorithms to predict CO2 diffusion coefficient in CO2-brine system for pressures of up to 100 MPa and temperatures of up to 673°K (novelty). The Artificial Intelligence (AI) algorithms used include multilayer perceptron (MLP), cascade forward neural network (CFNN), recurrent neural network (RNN), and gene expression programming (GEP). These algorithms have never been used before for this purpose (novelty). A database was assembled with 191 experimental and molecular dynamics (MD) simulation data reported in the literature. This is so far the largest database ever reported on this subject. The input parameters include pressure, temperature, and density of brine determined using a rigorous feature selection strategy and with considering of physics of CO2-brine storage conditions in deep geological formations. Density of brine has never been considered before in the existing data modeling works which is a major drawback as it has the greatest impact on diffusion coefficient of CO2 in brine. The Bayesian regularization algorithm was used to optimize the developed smart models. The MLP model yielded the most accurate predictions with a root mean squared error (RMSE) and coefficient of determination (R2) of 2.945 and 0.998, respectively. The proposed MLP model is superior to the existing smart models and correlations considering both precision and range of pressure and temperature. Having an accurate estimation of CO2 diffusion in brine can be quite useful during preliminary assessment and modeling of CO2 sequestration operations in deep saline aquifers.
AbstractList [Display omitted] •New models were proposed for CO2 diffusion coefficient prediction in brine at HPHT.•191 experimental and molecular dynamic data were used for modeling and validation.•The models were developed using MLP-ANN, CFNN, RNN, and GEP algorithms.•The GEP correlation is the first correlation ever proposed as a function of P, T, and density.•MLP model is the superior smart model with RMSE and R2 of 2.9449 and 0.9978, respectively. Saline aquifers are considered as a prime target for permanent geological storage of anthropogenic CO2 owing their relative abundance and suitable storage capacity. CO2 diffusion coefficient in brine is a vital parameter in modeling CO2 sequestration operations. Although, CO2 diffusion coefficient can be determined precisely in laboratory but such tests are constrained by their relatively high cost, time intensive nature, and safety concerns because of high-pressure high-temperature tests. Development of precise, fast, and robust models and correlations for a broad range of pressure and temperature is vital. The main objective of this research work was to develop connectionist predictive models and a correlation using four neural network algorithms to predict CO2 diffusion coefficient in CO2-brine system for pressures of up to 100 MPa and temperatures of up to 673°K (novelty). The Artificial Intelligence (AI) algorithms used include multilayer perceptron (MLP), cascade forward neural network (CFNN), recurrent neural network (RNN), and gene expression programming (GEP). These algorithms have never been used before for this purpose (novelty). A database was assembled with 191 experimental and molecular dynamics (MD) simulation data reported in the literature. This is so far the largest database ever reported on this subject. The input parameters include pressure, temperature, and density of brine determined using a rigorous feature selection strategy and with considering of physics of CO2-brine storage conditions in deep geological formations. Density of brine has never been considered before in the existing data modeling works which is a major drawback as it has the greatest impact on diffusion coefficient of CO2 in brine. The Bayesian regularization algorithm was used to optimize the developed smart models. The MLP model yielded the most accurate predictions with a root mean squared error (RMSE) and coefficient of determination (R2) of 2.945 and 0.998, respectively. The proposed MLP model is superior to the existing smart models and correlations considering both precision and range of pressure and temperature. Having an accurate estimation of CO2 diffusion in brine can be quite useful during preliminary assessment and modeling of CO2 sequestration operations in deep saline aquifers.
ArticleNumber 134000
Author Kahzadvand, Kamiab
Shafiei, Ali
Shahin, Matin
Kouhi, Maryam Mahmoudi
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  surname: Kouhi
  fullname: Kouhi, Maryam Mahmoudi
  organization: Petroleum Engineering Program, School of Mining and Geosciences, Nazarbayev University, 53 Kabanbay Batyr Avenue, Astana 010000, Kazakhstan
– sequence: 2
  givenname: Kamiab
  surname: Kahzadvand
  fullname: Kahzadvand, Kamiab
  organization: Independent Researcher, Tehran, Iran
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  givenname: Matin
  surname: Shahin
  fullname: Shahin, Matin
  organization: Faculty of Petroleum and Natural Gas Engineering, Sahand University of Technology, Tabriz, Iran
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  givenname: Ali
  surname: Shafiei
  fullname: Shafiei, Ali
  email: ali.shafiei@nu.edu.kz
  organization: Petroleum Engineering Program, School of Mining and Geosciences, Nazarbayev University, 53 Kabanbay Batyr Avenue, Astana 010000, Kazakhstan
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Keywords Multilayer perceptron
CO2 geo-sequestration
Deep saline aquifers
CO2 diffusion coefficient prediction
Machine learning
Language English
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Snippet [Display omitted] •New models were proposed for CO2 diffusion coefficient prediction in brine at HPHT.•191 experimental and molecular dynamic data were used...
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StartPage 134000
SubjectTerms CO2 diffusion coefficient prediction
CO2 geo-sequestration
Deep saline aquifers
Machine learning
Multilayer perceptron
Title New connectionist tools for prediction of CO2 diffusion coefficient in brine at high pressure and temperature ─ implications for CO2 sequestration in deep saline aquifers
URI https://dx.doi.org/10.1016/j.fuel.2024.134000
Volume 384
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