Emanuel Estrada scite author profile

In the present work constructal design is employed to optimize the geometiy of a convective, Y-shaped cavity that intrudes into a solid conducting wall. The main purpose is to investigate the influence of the dimensionless heat transfer parameter a over the optimal geometries of the cavity, i.e., the ones that minimize the maximum excess of temperature (or reduce the thermal resistance of the solid domain). The search for the best geometry has been performed with the help of a genetic algorithm (GA). For square solids (WL = 1.0) the results obtained with an exhaustive search (which is based on solution of all possible geometries) were adopted to validate the GA method, while for H/L ^ LOGA is used to find the best geometry for all degrees of freedom investigated here: H/L, t//to, L//Lo, and a. (four times optimized). The results demonstrate that there is no universal optimal shape that minimizes the thermal field for all values of a investigated. Moreover, the temperature distribution along the solid domain becomes more homogeneous with an increase of a, until a limit where the configuration of "optimal distribution of imperfections" is achieved and the shape tends to remain fixed. Finally, it has been highlighted that the GA method proved to be very effective in the search for the best shapes with the number of required simulations much lower (8 times for the most difficult situation) than that necessary for exhaustive search.

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A comparison of simulated annealing schedules for constructal design of complex cavities intruded into conductive walls with internal heat generation

Gonzales

Estrada

Emmendorfer

et al. 2015

Energy

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Constructal Design of Conductive Asymmetric Tri-Forked Pathways

Fagundes

Lorenzini

Estrada

et al. 2019

J. Engin. Thermophys.

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Constructal design of tree shaped cavities inserted into a cylindrical body with heat generation

Estrada

Barreto

Isoldi

et al. 2020

International Journal of Thermal Sciences

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Constructal Design Associated to Genetic Algorithm of Asymmetric V-Shaped Pathways

Estrada

Fagundes

Isoldi³

et al. 2015

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This work relies on constructal design to perform the geometric optimization of the V-shaped pathways of highly conductive materials (inserts) that remove a constant heat generation rate from a body and deliver it to isothermal heat sinks. It is shown numerically that the global thermal resistance of the V-shaped pathway can be minimized by geometric optimization subject to total volume and V-shaped pathways material constraints. Constructal design and genetic algorithm (GA) optimization showed the emergence of an optimal architecture that minimizes the global thermal resistance: an optimal external shape for the assembly of pathways and optimal geometry features for the V-shaped pathway. Parametric study was performed to show the behavior of the minimized global thermal resistance as function of the volume fraction of the V-shaped pathways. First achieved results for / ¼ 0.3 indicated that when freedom is given to the geometry, the thermal performance is improved. Afterward, the employment of GA with constructal design allowed the achievement of the optimal shapes of V-shaped pathways for different volume fractions (0.2 / 0.4). It was not realized the occurrence of one universal optimal shape for the several values of / investigated, i.e., the optimal design was dependent on the degrees of freedom and the parameter / and it is reached according to constructal principle of optimal distribution of imperfections.

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Emanuel Estrada

Constructal Design of Convective Y-Shaped Cavities by Means of Genetic Algorithm

A comparison of simulated annealing schedules for constructal design of complex cavities intruded into conductive walls with internal heat generation

Constructal Design of Conductive Asymmetric Tri-Forked Pathways

Constructal design of tree shaped cavities inserted into a cylindrical body with heat generation

Constructal Design Associated to Genetic Algorithm of Asymmetric V-Shaped Pathways

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