The higher design flexibility offered by additive manufacturing (AM) allows for radical improvements in the design and functionality of legacy parts. In this study, a flat-plate heat exchanger is designed and optimized using the ANSYS topology optimization module. Unlike conventional numerical optimization tools, the current optimization approach employs multiple objective functions, including mass reduction and maximization of heat transfer efficiency. Two unique, initial designs were used for ‘seeding’ the multi-objective topology optimization (TO) routines and the results are compared and discussed. Topology design and operating (boundary condition) variables were varied to elucidate major design sensitivities. The predicted heat ...
Les transferts de chaleur et de masse sont deux phénomènes physiques à la base de nombreux systèmes ...
International audienceWe present a topology optimization approach for the design of fluid-to-fluid h...
This paper investigates the potential of using the Adjoint Level-set topological optimization approa...
The higher design flexibility offered by additive manufacturing (AM) allows for radical improvement...
Heat exchangers have long been used in a wide variety of industrial applications, such as for energy...
An active fluid heat exchanger can be controlled effectively using Peltier elements to condition the...
Heat exchangers are important devices in many applications. Extensive work is done in optimization, ...
Thermal management is a crucial part in the aviation industry. It is also essential that the compone...
With the inherent usage of the computer when dealing with additive manufacturing, it only makes sens...
Topology optimization is widely used within the academic environment. It is however not yet a standa...
In its early stages of development, additive manufacturing was used chiefly for prototyping, but ove...
The rapid development of additive manufacturing (AM) technologies enables a radical paradigm shift i...
Heat exchangers (HX) with optimal geometries are of particular interest because of their potential f...
The rapid development of additive manufacturing (AM) technologies enables a radical paradigm shift i...
In this work, an in house topology optimization (TO) solver is developed to optimize a conjugate hea...
Les transferts de chaleur et de masse sont deux phénomènes physiques à la base de nombreux systèmes ...
International audienceWe present a topology optimization approach for the design of fluid-to-fluid h...
This paper investigates the potential of using the Adjoint Level-set topological optimization approa...
The higher design flexibility offered by additive manufacturing (AM) allows for radical improvement...
Heat exchangers have long been used in a wide variety of industrial applications, such as for energy...
An active fluid heat exchanger can be controlled effectively using Peltier elements to condition the...
Heat exchangers are important devices in many applications. Extensive work is done in optimization, ...
Thermal management is a crucial part in the aviation industry. It is also essential that the compone...
With the inherent usage of the computer when dealing with additive manufacturing, it only makes sens...
Topology optimization is widely used within the academic environment. It is however not yet a standa...
In its early stages of development, additive manufacturing was used chiefly for prototyping, but ove...
The rapid development of additive manufacturing (AM) technologies enables a radical paradigm shift i...
Heat exchangers (HX) with optimal geometries are of particular interest because of their potential f...
The rapid development of additive manufacturing (AM) technologies enables a radical paradigm shift i...
In this work, an in house topology optimization (TO) solver is developed to optimize a conjugate hea...
Les transferts de chaleur et de masse sont deux phénomènes physiques à la base de nombreux systèmes ...
International audienceWe present a topology optimization approach for the design of fluid-to-fluid h...
This paper investigates the potential of using the Adjoint Level-set topological optimization approa...