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Andrés Duque1, Silvia Ochoa1, Darci Odloak2

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This study introduces a multilayer stochastic optimization method for acrylic acid reactors. This approach enhances economic profitability and ensures safety under various process uncertainties.

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Area of Science:

  • Chemical Engineering
  • Process Systems Engineering
  • Optimization Theory

Background:

  • Dynamic optimization of chemical processes is crucial for efficiency and safety.
  • Real-world processes face significant uncertainties (internal, external, process-related).
  • Existing methods like deterministic optimization or single-layer stochastic optimization may not fully capture these complexities.

Purpose of the Study:

  • To implement and evaluate a novel multilayer stochastic optimization approach for dynamic optimization of an acrylic acid reactor.
  • To assess the methodology's capability in handling diverse sources of uncertainty.
  • To compare its performance against deterministic optimization, single-layer stochastic optimization, and PI control.

Main Methods:

  • Development and application of a multilayer stochastic optimization framework.
  • Modeling of an acrylic acid reactor system with integrated uncertainty handling.
  • Comparative analysis using simulation across various operational scenarios.

Main Results:

  • The multilayer stochastic optimization approach effectively managed multiple uncertainty sources.
  • Demonstrated superior performance in improving economic profitability compared to other methods.
  • Consistently met safety constraints across all analyzed scenarios.

Conclusions:

  • The proposed multilayer stochastic optimization is a robust and effective strategy for dynamic process optimization under uncertainty.
  • This novel approach offers more realistic solutions for complex chemical processes like acrylic acid production.
  • It provides a significant advantage in balancing economic goals with operational safety.