Exploring Alternatives to Create Digital Twins from and for Process  Simulation

Barbero-Sánchez, Jaime; Megía-Ortega, Alicia; R. Ferro, Víctor; Valverde, Jose-Luis

doi:10.30564/jcsr.v6i1.6168

j. of Comput. sci. res.

2024

DOI: 10.30564/jcsr.v6i1.6168

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Exploring Alternatives to Create Digital Twins from and for Process Simulation

Jaime Barbero-Sánchez,

Alicia Megía-Ortega,

Víctor R. Ferro

et al.

Abstract: In this work, Digital Twins based on Neural Networks for the steady state production of styrene were generated. Thus, both the Aspen Technology AI Model Builder (alternative 1) and a homemade MS Excel VBA code connected to Aspen HYSYS and Aspen Plus (alternative 2) were used with this same aim. The raw data used for generating the Digital Twins were obtained from process simulations using Aspen HYSYS and/or Aspen Plus, which were connected through a recycle-like stream via automation for solving the entire sim… Show more

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Cited by 2 publications

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Digital twin in the chemical industry: A review

Mane,

Dhote,

Sinha

et al. 2024

Digital Twins and Applications

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Adopting digital twin technology in the chemical industry is reshaping process optimisation, operational efficiency, and safety management. By leveraging data from sensors and control systems, the digital twins provide actionable insights, enabling more precise control over chemical reactions, improved quality assurance, and reduced environmental impact. Additionally, the ability to simulate “what‐if” scenarios accelerates the innovation cycle and supports compliance with stringent regulatory standards. This research article explores the implementation and impact of digital twins in chemical manufacturing environments. It examines how digital twins enable continuous monitoring and control by mirroring chemical processes, predicting equipment failures, and simulating complex reactions under various conditions. The study highlights the benefits of digital twins, including improved process efficiency, enhanced product quality, and reduced environmental and operational risks. The research also addresses challenges and limitations, such as data integration complexities and the need for high‐fidelity models. By providing a comprehensive analysis of current applications and future prospects, this paper aims to advance the understanding of digital twins' role in driving innovation and sustainability within the chemical industry.

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Digital twin in the chemical industry: A review

Mane,

Dhote,

Sinha

et al. 2024

Digital Twins and Applications

View full text Add to dashboard Cite

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Selective Recovery of Zinc from Alkaline Batteries via a Basic Leaching Process and the Use of a Machine Learning-Based Digital Twin for Predictive Purposes

Muñoz García,

Valverde,

Delgado Cano

et al. 2024

Energies

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Recycling the metals found in spent batteries offers both environmental and economic benefits, especially when extracted and purified using environmentally friendly processes. Two basic leaching agents were tested and compared: ammonium hydroxide (NH4OH) and sodium hydroxide (NaOH). Using NH4OH 4 M at 25 °C, 30.5 ± 0.7 wt. % of zinc (Zn) was dissolved for a solid/liquid (S/L) ratio of 1/10 (g of black mass (BM)/mL of solution); meanwhile, with NaOH 6 M at 70 °C, and an S/L ratio of 1/5 (g of BM/mL of solution), 69.9 ± 2.8 wt. % of the Zn initially present in the BM of alkaline batteries was leached. A virtual representation of the experimental data through digital twins of the alkaline leaching process of the BM was proposed. For this purpose, 90% of the experimental data were used for training a supervised learning procedure involving 600 different artificial neural networks (ANNs) and using up to 12 activation functions. The application was able to choose the most suitable ANN using an ANOVA analysis. After the training step, the network was tested by predicting the outputs of inputs that were not used in the training process, to avoid overfitting in a validating process with 10% of the data. The best model was employed for estimating the degree of leaching of different metals that can be obtained from BM, obtaining a data deviation of less than 10% for highly concentrated compounds such as Zn.

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Exploring Alternatives to Create Digital Twins from and for Process Simulation

Cited by 2 publications

References 21 publications

Digital twin in the chemical industry: A review

Digital twin in the chemical industry: A review

Selective Recovery of Zinc from Alkaline Batteries via a Basic Leaching Process and the Use of a Machine Learning-Based Digital Twin for Predictive Purposes

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