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BEST Research Seminar Presents : New Frontiers in Thermal Transport Modeling

September 17, 2018 - 9:30am to 11:30am

Professor Giuseppe Romano, with the Department of Mechanical Engineering at MIT and with the NASA Jet Propulsion Lab, will be a guest speaker at the BEST Research Seminar as he examines "New Frontiers in Thermal Transport Modeling."

The event takes place at 9:30 a.m. Monday, Sept. 17 in Glacier Point, Room 135.

ABSTRACT
Despite Fourier’s law being conceived almost two centuries ago, it is still valid in most scenarios. However, advances in fabricating nanostructured devices and thermal conductivity measurements have revealed that thermal diffusion theories fail at the nanoscales.

In fact, when the characteristic length of a material becomes comparable with the mean-free-path (MFP) of phonons, i.e. quantized lattice vibrations, a significant fraction of heat becomes ballistic. Nondiffusive models based on the Boltzmann transport equation (BTE) have shown remarkable agreement with experiments on simple geometries (i.e. thin films).

However, the inherent difficulties in handling both momentum and real space across several length scales have hindered the development of solvers of heat transport in complex geometries. After introducing thermal transport regimes, I will describe our recently developed method, based on “MFP interpolation,” which solves the BTE deterministically (finite-volumes) in arbitrary three-dimensional structures. The second part of the talk will focus on the application of the BTE to nanostructured thermoelectric materials (TEMs). These systems can convert heat directly into electricity and have several applications, including waste-heat recovery and refrigeration. However, TEMs require good electrical properties and low thermal conductivities, a condition that is achieved by nanostructures.

I will report our recent effort in minimizing thermal transport in nanoporous SI, along with ideas and preliminary results on optimization driven by machine-learning. Final remarks will conclude the talk.

Location

Glacier Point, 135

Contact Information

School of Engineering