Litcius/Paper detail

A Deep Learning Perspective on Dropwise Condensation

Youngjoon Suh, Jonggyu Lee, Peter Simadiris, Xiao Yan, Soumyadip Sett, Longnan Li, Kazi Fazle Rabbi, Nenad Miljkovic, Yoonjin Won

2021Advanced Science50 citationsDOIOpen Access PDF

Abstract

Condensation is ubiquitous in nature and industry. Heterogeneous condensation on surfaces is typified by the continuous cycle of droplet nucleation, growth, and departure. Central to the mechanistic understanding of the thermofluidic processes governing condensation is the rapid and high-fidelity extraction of interpretable physical descriptors from the highly transient droplet population. However, extracting quantifiable measures out of dynamic objects with conventional imaging technologies poses a challenge to researchers. Here, an intelligent vision-based framework is demonstrated that unites classical thermofluidic imaging techniques with deep learning to fundamentally address this challenge. The deep learning framework can autonomously harness physical descriptors and quantify thermal performance at extreme spatio-temporal resolutions of 300 nm and 200 ms, respectively. The data-centric analysis conclusively shows that contrary to classical understanding, the overall condensation performance is governed by a key tradeoff between heat transfer rate per individual droplet and droplet population density. The vision-based approach presents a powerful tool for the study of not only phase-change processes but also any nucleation-based process within and beyond the thermal science community through the harnessing of big data.

Topics & Concepts

NucleationCondensationComputer sciencePopulationProcess (computing)Deep learningArtificial intelligenceData scienceNanotechnologyIndustrial engineeringMaterials scienceEngineeringPhysicsMeteorologyOperating systemThermodynamicsSociologyDemographynanoparticles nucleation surface interactionsMachine Learning in Materials ScienceHeat Transfer and Boiling Studies
A Deep Learning Perspective on Dropwise Condensation | Litcius