This article deals with a numerical implementation for topology optimization that is based on the heat conduction equation and addresses problems such as the optimal design of thermal insulation in building engineering. The formulation handles heat diffusivity under the steady-state assumption for a domain with assigned convective-like boundary conditions. The optimization framework is implemented within a general-purpose finite-elements code that is set to solve the thermal problem iteratively, thus allowing for a straightforward handling of two-dimensional and three-dimensional problems. A few numerical results are firstly presented to compare classical formulations for maximum heat conduction and the addressed scheme for optimal thermal ...
Topology optimization is employed to define the geometry of the cross-section of any masonry block t...
We consider a model for density-based topology optimization (TO) of stationary heat transfer problem...
This paper studies the influence of heat conduction in both structural and material designs in two d...
This article deals with a numerical implementation for topology optimization that is based on the he...
The paper deals with a numerical implementation for topology optimization that is based on the heat ...
A contribution toward the thermal insulation of masonry buildings is given in this paper, assuming t...
Traditionally, the design of building envelope components is primarily focused on meeting technical ...
Abstract Two formulations for the design of the op-timal insulation of a domain are investigated by ...
The shape of the cross-section of hollow blocks that maximizes the thermal insulation of masonry bui...
The aim of this thesis is to explore the use of topology optimization in designing materials for hea...
An active fluid heat exchanger can be controlled effectively using Peltier elements to condition the...
The problem of maximizing the thermal insulation of buildings is dealt with, by determining the geom...
The availability of flexible production techniques challenges their full exploitation during thermo-...
Topology optimization is employed to define the geometry of the cross-section of any masonry block t...
We consider a model for density-based topology optimization (TO) of stationary heat transfer problem...
This paper studies the influence of heat conduction in both structural and material designs in two d...
This article deals with a numerical implementation for topology optimization that is based on the he...
The paper deals with a numerical implementation for topology optimization that is based on the heat ...
A contribution toward the thermal insulation of masonry buildings is given in this paper, assuming t...
Traditionally, the design of building envelope components is primarily focused on meeting technical ...
Abstract Two formulations for the design of the op-timal insulation of a domain are investigated by ...
The shape of the cross-section of hollow blocks that maximizes the thermal insulation of masonry bui...
The aim of this thesis is to explore the use of topology optimization in designing materials for hea...
An active fluid heat exchanger can be controlled effectively using Peltier elements to condition the...
The problem of maximizing the thermal insulation of buildings is dealt with, by determining the geom...
The availability of flexible production techniques challenges their full exploitation during thermo-...
Topology optimization is employed to define the geometry of the cross-section of any masonry block t...
We consider a model for density-based topology optimization (TO) of stationary heat transfer problem...
This paper studies the influence of heat conduction in both structural and material designs in two d...