Ultrascalable Three-Tier Hierarchical Nanoengineered
Surfaces for Optimized Boiling
Posted on 2019-12-12 - 19:08
Nanostructure-enhanced pool and flow boiling has the
potential
to increase the efficiency of a plethora of applications. Past studies
have developed well-ordered, nonscalable structures to study the fundamental
limitations of boiling such as bubble nucleation, growth, and departure,
often in a serial manner without global optimization. Here, we develop
a highly scalable, conformal, cost-effective, rapid, and tunable three-tier
hierarchical surface deposition technique capable of holistically
creating micropores, microscale dendritic clusters, and nanoparticles
on arbitrary surfaces. We use this technique to investigate the pool
boiling heat transfer performance with focus on the bubble departure
diameter and frequency. By tuning the structure length scale, the
pool boiling characteristics were optimized through a multipronged
approach, including increasing nucleation site density (micropores),
regulating bubble evolution behavior (dendritic structures), improving
surface wickability (nanoscale particles and channels), and separating
liquid and vapor pathways (micropores and micro/nanochannels). Ultrahigh
critical heat fluxes (CHF) ≈400 W/cm2 were obtained,
corresponding to an enhancement of ≈245% compared to smooth
copper surfaces. To study in situ bubble departure
and coalescence dynamics, we developed and used high-magnification
in-liquid endoscopy. Our work reveals the existence of a linear relationship
between the bubble departure diameter/frequency near the onset of
nucleate boiling and CHF enhancement. Our study not only develops
a highly scalable, conformal, and rapid micro/nanostructuring technique,
it outlines design guidelines for the holistic optimization of boiling
heat transfer for energy and water applications.
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Li, Jiaqi; Fu, Wuchen; Zhang, Bohan; Zhu, Gaohua; Miljkovic, Nenad (2019). Ultrascalable Three-Tier Hierarchical Nanoengineered
Surfaces for Optimized Boiling. ACS Publications. Collection. https://doi.org/10.1021/acsnano.9b06501
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AUTHORS (5)
JL
Jiaqi Li
WF
Wuchen Fu
BZ
Bohan Zhang
GZ
Gaohua Zhu
NM
Nenad Miljkovic
KEYWORDS
Ultrascalable Three-Tier Hierarchical Nanoengineered Surfacessurface deposition techniqueheat transfersurface wickabilitybubble departure diameteroutlines design guidelinesvapor pathwaystunable three-tierOptimized Boiling Nanostructure-enhanced poolcopper surfacesheat transfer performancebubble evolution behaviorCHF enhancementbubble nucleationnonscalable structuresstructure length scalenucleation site densitymicroscale dendritic clusterswater applicationsconformalcoalescence dynamicsheat fluxesnanoscale particleshigh-magnification in-liquid endoscopyPast studiesoptimizationmicroporebubble departure