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Pré-Publication, Document De Travail Année : 2022

CFD-based geometrical shape optimization of a packed-bed reactor combining multi-objective and adjoint system methods

Résumé

This paper presents the development of a geometric shape optimization methodology based on the so-called "Hadamard boundary variation" method for performing very general domain deformations, and the related concept of domain differentiation. The resulting method is used to determine the optimal configuration of a twodimensional packed-bed reactor that simultaneously optimizes its conversion rate and fluid energy dissipation, and where a homogeneous first-order reaction or a catalytic surface reaction takes place. The considered multi-objective optimization problem is subjected to four constraints: the process model constraints consisting of the Navier-Stokes, continuity and mass balance equations, an iso-volume and two manufacturing constraints. The approach to solve the problem is based on the linear scalarization method which converts the multi-objective problem into a single objective problem. The adjoint system method is used to compute the gradient of the performance indices and constraints. Since the indices are conflicting, the solution of the problem is a set of solutions, called Pareto front. Each optimal solution is evaluated using multiattribute utility theory (MAUT) to determine the best optimal shape of the reactor. Finally, the resulting shape is fabricated using a 3D printing technique and will be experimentally validated.
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Dates et versions

hal-04054538 , version 1 (31-03-2023)

Identifiants

  • HAL Id : hal-04054538 , version 1

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Alexis Courtais, François Lesage, Yannick Privat, Cyril Pelaingre, Abderrazak M Latifi. CFD-based geometrical shape optimization of a packed-bed reactor combining multi-objective and adjoint system methods. 2022. ⟨hal-04054538⟩
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