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Advances in Heat and Mass Transfer in Micro/Nano Systems

The miniaturization of components in mechanical and electronic equipment has been the driving force for the fast development of micro/nanosystems. Heat and mass transfer are crucial processes in such systems, and they have attracted great interest in recent years. Tremendous effort, in terms of theo...

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Bibliographic Details
Main Author: Zhang, Junfeng
Other Authors: Wang, Ruijin
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2022
Subjects:
Two-phase Flow
Heat Transfer Enhancement
Maxwell Nanofluid
Heat Transfer Experiment
Droplet Coalescence
Carbon Nanotubes
N/a
Microfluidic
Inertial Migration
Darcy-forchheimer Model
Microfluidic Chip
Measurement
Pin-fins
Microfluidics
Conjugate Interface
Boundary Condition
Satellite Droplets
Convective Conditions
History Of Engineering And Technology / Bicssc
Microchannel
Porosity
Pressure Drop
Monodisperse Droplet Generation
Heat Enhancement
Wavy Pin-fins Channel
Deionized Water
Nanofluid
Liquid Metal
Heat Transfer
Mesh Model
Temperature Monitoring
Aspect Ratio
Flow Distributions
Lattice Boltzmann Method
Wavy Channels
Pore-scale Modeling
Numerical Simulation
Pcr
Piezoelectric Method
Sweat Collecting
Nonlinear Stretching
Visualization
Thermal Radiation
Brownian Diffusion
Wearable Device
Performance Criterion
Friction Factor
Porous Cavity
Forced Convection
Chemical Reaction
Magnetohydrodynamics
Thermal Conductivity
Fluid Network
Darcy-forchheimer Theory
Pulsatile Velocity
Poiseuille Flow
Nanofluids
Loop Heat Pipe
Porous Media
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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653 |a two-phase flow 
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653 |a Maxwell nanofluid 
653 |a heat transfer experiment 
653 |a droplet coalescence 
653 |a carbon nanotubes 
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653 |a inertial migration 
653 |a Darcy-Forchheimer model 
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653 |a microfluidics 
653 |a conjugate interface 
653 |a boundary condition 
653 |a satellite droplets 
653 |a convective conditions 
653 |a History of engineering and technology / bicssc 
653 |a microchannel 
653 |a porosity 
653 |a pressure drop 
653 |a monodisperse droplet generation 
653 |a heat enhancement 
653 |a wavy pin-fins channel 
653 |a deionized water 
653 |a nanofluid 
653 |a liquid metal 
653 |a heat transfer 
653 |a mesh model 
653 |a temperature monitoring 
653 |a aspect ratio 
653 |a flow distributions 
653 |a lattice Boltzmann method 
653 |a wavy channels 
653 |a pore-scale modeling 
653 |a numerical simulation 
653 |a PCR 
653 |a piezoelectric method 
653 |a sweat collecting 
653 |a nonlinear stretching 
653 |a visualization 
653 |a thermal radiation 
653 |a Brownian diffusion 
653 |a wearable device 
653 |a performance criterion 
653 |a friction factor 
653 |a porous cavity 
653 |a forced convection 
653 |a chemical reaction 
653 |a magnetohydrodynamics 
653 |a thermal conductivity 
653 |a fluid network 
653 |a Darcy-Forchheimer theory 
653 |a pulsatile velocity 
653 |a Poiseuille flow 
653 |a nanofluids 
653 |a loop heat pipe 
653 |a porous media 
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520 |a The miniaturization of components in mechanical and electronic equipment has been the driving force for the fast development of micro/nanosystems. Heat and mass transfer are crucial processes in such systems, and they have attracted great interest in recent years. Tremendous effort, in terms of theoretical analyses, experimental measurements, numerical simulation, and practical applications, has been devoted to improve our understanding of complex heat and mass transfer processes and behaviors in such micro/nanosystems. This Special Issue is dedicated to showcasing recent advances in heat and mass transfer in micro- and nanosystems, with particular focus on the development of new models and theories, the employment of new experimental techniques, the adoption of new computational methods, and the design of novel micro/nanodevices. Thirteen articles have been published after peer-review evaluations, and these articles cover a wide spectrum of active research in the frontiers of micro/nanosystems. 

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