Razvoj in optimizacija mikrofluidnega reaktorja s padajočim filmom

Urankar, Aljaž

Razvoj in optimizacija mikrofluidnega reaktorja s padajočim filmom
ID Urankar, Aljaž (Author), ID Plazl, Igor (Mentor) More about this mentor... This link opens in a new window

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Abstract

Mikrofluidika je v zadnjih letih vzbudila veliko zanimanja zaradi številnih prednosti pred konvencionalnimi reaktorji. Med njimi izstopajo: boljše razmerje med volumnom in površino, učinkovit transport snovi in energije ter možnost integracije v večje sisteme, kar omogoča boljši nadzor nad kinetiko reakcij in prenosom snovi ter toplote. To vodi do višjih izkoristkov in večje selektivnosti v (bio)kemijskih procesih. Odprti reaktorji so še posebej zanimivi za heterogene dvofazne sisteme, saj omogočajo učinkovito dovajanje ali odvajanje substratov in produktov ob sočasni reakciji pri stacionarnih pogojih ter visokih specifičnih površinah. Podpirajo tudi koncept idealnega povečevanja („ideal scale-up“). V zadnjem času je tehnologija 3D tiskanja postala zelo pomembna pri izdelavi mikrofluidnih naprav, saj omogoča natančno izdelavo mikrostruktur iz enega kosa. Ti izdelki so običajno narejeni iz polimernih smol, ki pa imajo v nekaterih primerih nezaželene površinske lastnosti, zato je pri določenih aplikacijah potrebna funkcionalizacija površin. Kombinacija 3D tiskanja in funkcionalizacije površin omogoča razvoj naprednih in prilagodljivih mikroreaktorjev, ki so primerni za različne aplikacije v mikrofluidiki, še posebej v dvofaznih sistemih, kjer so potrebne visoka učinkovitost, natančnost in prilagodljivost reakcijskih pogojev.

Language:	Slovenian
Keywords:	mikrofluidika, DLP tiskanje, hidrofilnost, funkcionalizacija površine
Work type:	Master's thesis/paper
Organization:	FKKT - Faculty of Chemistry and Chemical Technology
Year:	2024
PID:	20.500.12556/RUL-162593
Publication date in RUL:	25.09.2024
Views:	25
Downloads:	7
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Abstract:
Language:	English
Title:	Development and optimization of a microfluidic falling film reactor
Microfluidics has gained significant interest in recent years due to its numerous advantages over conventional reactors. Among these are: a better volume-to-surface ratio, efficient mass and energy transport, and the ability to integrate into larger systems, which allows for improved control over reaction kinetics and the transfer of substances and heat. This leads to higher yields and greater selectivity in (bio)chemical processes. Open reactors are particularly intriguing for heterogeneous two-phase systems, as they enable the efficient supply or removal of substrates and products during simultaneous reactions under stationary conditions and high specific surface areas. They also support the concept of ideal scale-up. Recently, 3D printing technology has become crucial in the fabrication of microfluidic devices, as it allows for the precise creation of microstructures in a single piece. These products are typically made from polymer resins, which, in some cases, exhibit undesirable surface properties, making surface functionalization necessary for certain applications. The combination of 3D printing and surface functionalization enables the development of advanced and adaptable microreactors, suitable for various applications in microfluidics, particularly in two-phase systems where high efficiency, precision, and adaptability of reaction conditions are required.
Keywords:	microfluidics, DLP printing, hydrophylicity, surface functionalization

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