This master thesis presents the development procedure to design a compartmental model. The compartmental model aims to predict the mixing effects for complex reaction systems. The model has to be constructed starting from CFD simulations. Once obtained, the reactor is divided into compartments. The compartments are assumed to be perfectly mixed. The final result is a network of ideal reactors that represent the mixing and reactive phenomena for complex systems, reducing the total computational time.
This master thesis presents the development procedure to design a compartmental model. The compartmental model aims to predict the mixing effects for complex reaction systems. The model has to be constructed starting from CFD simulations. Once obtained, the reactor is divided into compartments. The compartments are assumed to be perfectly mixed. The final result is a network of ideal reactors that represent the mixing and reactive phenomena for complex systems, reducing the total computational time.
Development of CFD-based compartmental models to represent mixing effects in reactive systems
ZOCCOLAN, FRANCESCO
2024/2025
Abstract
This master thesis presents the development procedure to design a compartmental model. The compartmental model aims to predict the mixing effects for complex reaction systems. The model has to be constructed starting from CFD simulations. Once obtained, the reactor is divided into compartments. The compartments are assumed to be perfectly mixed. The final result is a network of ideal reactors that represent the mixing and reactive phenomena for complex systems, reducing the total computational time.| File | Dimensione | Formato | |
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Zoccolan_Francesco.pdf
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https://hdl.handle.net/20.500.12608/99167