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Achieving Optimal Paper Properties: A Layered Multiscale kMC and LSTM-ANN-Based Control Approach for Kraft Pulping

Parth Shah, Hyun‐Kyu Choi, Joseph Sang‐Il Kwon

2023Processes43 citationsDOIOpen Access PDF

Abstract

The growing demand for various types of paper highlights the importance of optimizing the kraft pulping process to achieve desired paper properties. This work proposes a novel multiscale model to optimize the kraft pulping process and obtain desired paper properties. The model combines mass and energy balance equations with a layered kinetic Monte Carlo (kMC) algorithm to predict the degradation of wood chips, the depolymerization of cellulose, and the spatio-temporal evolution of the Kappa number and cellulose degree of polymerization (DP). A surrogate LSTM-ANN model is trained on data generated from the multiscale model under different operating conditions, dealing with both time-varying and time-invariant inputs, and an LSTM-ANN-based model predictive controller is designed to achieve desired set-point values of the Kappa number and cellulose DP while considering process constraints. The results show that the LSTM-ANN-based controller is able to drive the process to desired set-point values with the use of a computationally faster surrogate model with high accuracy and low offset.

Topics & Concepts

Kraft processKappa numberKraft paperComputer scienceOffset (computer science)DepolymerizationMonte Carlo methodProcess (computing)Controller (irrigation)Model predictive controlMathematical optimizationControl theory (sociology)Artificial intelligenceControl (management)MathematicsMaterials scienceEngineeringPulp and paper industryPolymer chemistryStatisticsProgramming languageOperating systemBiologyAgronomyLignin and Wood ChemistryAdvanced Cellulose Research StudiesInjection Molding Process and Properties
Achieving Optimal Paper Properties: A Layered Multiscale kMC and LSTM-ANN-Based Control Approach for Kraft Pulping | Litcius