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Numerical simulations of droplet dynamics through an orifice – pin system for pyroelectrodynamic shooting

Pentella Domenico


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    "title": "Numerical simulations of droplet dynamics through an orifice \u2013 pin system for pyroelectrodynamic shooting", 
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        "title": "Super-sensitive detection of Alzheimer\u2019s disease biomarkers in plasma by an innovative droplet split-and-stack approach", 
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    "keywords": [
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    "publication_date": "2020-12-29", 
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    "description": "<p>Questo lavoro di tesi nasce dalla collaborazione dell&rsquo;Universit&agrave; di Napoli<br>\nFederico II e l&rsquo;Istituto di Scienze Applicate e Sistemi Intelligenti del<br>\nConsiglio Nazionale delle Ricerche (CNR-ISASI) per il progetto Europeo<br>\nComunitario SensApp, finanziato dall&rsquo;European Union&rsquo;s Horizon 2020<br>\nresearch and innovation programme (Sovvenzionamento No 829104). Il<br>\nprogetto coinvolge anche altri partner, tra i quali: Vrije Universiteit<br>\nBrussel VUB, Johannes Kepler University Linz JKU, Technical Research<br>\nCentre of Finland VTT, Centro Neurolesi Pulejo Messina e Ginolis GIN.<br>\nLa finalit&agrave; del progetto SensApp &egrave; lo sviluppo di un super-sensore per la<br>\ndiagnosi precoce dell&rsquo;Alzeimher tramite prelievo di sangue, in particolare,<br>\nin questa tesi, si eseguono delle simulazioni numeriche per modellare la<br>\ndinamica di una goccia all&rsquo;interno di un sistema orifizio&ndash;pin.<br>\nLe simulazioni numeriche sono effettuate mediante un codice basato sul<br>\nmetodo dei volumi finiti (VOF) per fluidi Newtoniani e sono effettuate al<br>\nvariare di angoli di contatto, raggio della goccia, superficie di passaggio,<br>\nviscosit&agrave; cinematica, tensione superficiale e densit&agrave; del liquido.</p>"
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