Due to the complex physical and chemical changes of thermal conductive materials during
the heat transfer process, the research on heat transfer performance has inevitably been a …

Bayesian approach has been widely used in inverse heat conduction problem (IHCP).
However, due to either computationally prohibitive or analytically unavailable, its likelihood …

This work developed a three-dimensional, multiphysics, and transient model to investigate
transient supercooling of TECs (thermoelectric coolers). The model coupled the heat and …

Thermoelectric materials can harvest heat and turn it into electricity and vice versa, which
could lead to more cost-effective devices and appliances. This article investigates the …

The battery thermal process, as a typical distributed parameter system (DPS), is critical to
battery management. In practice, the process information is often partially known. Data …

This work presents a novel approach to efficiently model anodic dissolution in
electrochemical machining. Earlier modeling approaches employ a strict space …

Combining several theories this paper presents a general multiphysics framework applied to
the study of coupled and active materials, considering mechanical, electric, magnetic and …

This paper presents a numerical study on the influence of pulsed electric signals applied to
the overcooling of thermoelectric devices. To this end, an experimental setup taken from the …

Thermoelectric materials assembled in Peltier cells are an increasingly widespread option
for generating electricity from residual sources and refrigeration, even at the nanoscale …

This paper introduces a new fully coupled micro thermal–electrical–mechanical (TEM)
formulation for periodic multi-phase thermoelectric (TE) material systems and devices. The …