04087nam 2201057z- 450 991059507090332120251116145802.0(CKB)5680000000080821(oapen)https://directory.doabooks.org/handle/20.500.12854/92075(EXLCZ)99568000000008082120202209d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAdvances in Heat and Mass Transfer in Micro/Nano SystemsBaselMDPI Books20221 electronic resource (214 p.)3-0365-4968-4 3-0365-4967-6 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.Technology: general issuesbicsscHistory of engineering & technologybicsscDarcy-Forchheimer theorynonlinear stretchingnanofluidmagnetohydrodynamicsconvective conditionscarbon nanotubesthermal radiationporous cavitywavy channelsnanofluidsforced convectionheat enhancementpressure dropmesh modelmicrofluidicflow distributionsfluid networkmicrochannelheat transfer enhancementnumerical simulationmonodisperse droplet generationsatellite dropletspiezoelectric methoddroplet coalescencelattice Boltzmann methodinertial migrationPoiseuille flowpulsatile velocityloop heat pipedeionized watertwo-phase flowvisualizationheat transfer experimentheat transferporous mediapore-scale modelingboundary conditionthermal conductivityporosityconjugate interfaceaspect ratioMaxwell nanofluidDarcy-Forchheimer modelchemical reactionBrownian diffusionwearable devicemicrofluidic chipsweat collectingmicrofluidicsliquid metalmeasurementtemperature monitoringPCRpin-finswavy pin-fins channelperformance criterionfriction factorTechnology: general issuesHistory of engineering & technologyZhang Junfengedt1329045Wang RuijinedtZhang JunfengothWang RuijinothBOOK9910595070903321Advances in Heat and Mass Transfer in Micro3039263UNINA