Smart Flow Control Processes in Micro Scale

doi:10.3390/books978-3-03936-494-7

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Smart Flow Control Processes in Micro Scale

Volume 1

Edited by

August 2020

334 pages

ISBN978-3-03936-493-0 (Hardback)
ISBN978-3-03936-494-7 (PDF)

https://doi.org/10.3390/books978-3-03936-494-7

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This book is a reprint of the Special Issue Smart Flow Control Processes in Micro Scale that was published in

This book is part of the book set Smart Flow Control Processes in Micro Scale

Biology & Life Sciences

Chemistry & Materials Science

Computer Science & Mathematics

Engineering

Environmental & Earth Sciences

Summary

In recent years, microfluidic devices with a large surface-to-volume ratio have witnessed rapid development, allowing them to be successfully utilized in many engineering applications. A smart control process has been proposed for many years, while many new innovations and enabling technologies have been developed for smart flow control, especially concerning “smart flow control” at the microscale. This Special Issue aims to highlight the current research trends related to this topic, presenting a collection of 33 papers from leading scholars in this field. Among these include studies and demonstrations of flow characteristics in pumps or valves as well as dynamic performance in roiling mill systems or jet systems to the optimal design of special components in smart control systems.

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Keywords

bileaflet mechanical heart valve; computational fluid dynamics; pressure pulsation; unsteady flow; hemodynamics; electro-hydrostatic actuator; multi-objective optimization; weight; energy consumption; rise time; dynamic stiffness; self-priming pump; gas-water two-phase flow; computational fluid dynamics; centrifugal pump; pressure fluctuation; unsteady flow; numerical simulation; erythrocyte injury; flow pattern; bionic microfluidic device; thrombosis; low specific speed; centrifugal pump; impeller; near-wall region; flow characteristics; vortex structures; boundary layer; direct numerical simulation; amplitude; vortices; hydraulic valve; fault diagnosis; principal component analysis (PCA); extreme gradient boosting (XGBoost); HUAWEI Cloud machine learning service (MLS); CFD; two-phase flow; volume of fluid; Nusselt number; grooved disk; flow pattern; diaphragm valve; throttling characteristics; profile design optimize; computational fluid dynamics; waterjet propulsion system; pump; two-phase flow; cavitation; numerical simulation; hydraulic pump; feature extraction; fluid pressure; Autogram; kurtosis; flow control; vertical vibration; bifurcation characteristic; nonlinear dynamics; hydraulic automatic gauge control system; rolling mill; double flapper nozzle servo valve; Karman vortex; self-sustained flow oscillation; computational fluid dynamics; liquid-liquid slug flow; slug generation; dynamic injection flow rate; microchannel; Computational Fluid Dynamics; rolling mill; hydraulic automatic gauge control system; position closed-loop system; absolute stability condition; Popov frequency criterion; flow control; rolling mill; hydraulic screw down system; vertical vibration; LuGre model; friction-induced vibration; flow control; PID controller; multistage centrifugal pump; flow-induced noise; numerical calculation; acoustic analogy; gate valve; stress analysis; Computational Fluid Dynamics (CFD); flow coefficient; loss coefficient; flow control; adaptive gun head; jet system; natural frequency; mode shape; sensitivity analysis; hydraulic pump; fault signal; feature extraction; empirical wavelet decomposition; power spectrum density; feature energy ratio; sleeve regulating valve; cavitation; pressure difference; cavitation index; high pressure ball valve; Static friction contact; Static and fatigue analysis; Finite element simulation; xenon micro flow control device (XMFCD); low-temperature co-fired ceramic (LTCC); xenon feeding system; electric propulsion system; flow characteristic; lattice Boltzmann method; metal foam; droplet break; multiphase flow; waterjet propulsion pump; unsteady flow process; test; computational fluid dynamics; miniature drainage pump; gas-liquid two-phase flow; radiate noise; pressure; submersible tubular pumping system; external characteristics; pressure fluctuation; numerical simulation; measurement; adaptive control; fire-fighting monitor; jet system; dynamics; duffing equation; flow control; venturi injector; cavitation; numerical investigation; mixing process; internal flow; ultra-high pressure; axial piston pump; piston-cylinder pair; oil film characteristics; experimental study on pump; static deformation; inclination sensor; large-scale manipulator; concrete pump; endpoint deviation; digital hydraulics; switched inertance hydraulic systems; high-speed switching valves; pressure booster; flow booster; efficient fluid power; n/a