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Eksperimentalna analiza mehurčkastega vrenja v bazenu na tankih kovinskih folijah z nanosom grafenskega oksida
ID Vodopivec, Matevž (Author), ID Golobič, Iztok (Mentor) More about this mentor... This link opens in a new window, ID Zupančič, Matevž (Comentor)

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Abstract
Mehurčkasto vrenje je eden izmed najučinkovitejših mehanizmov prenosa toplote in je široko raziskovano na področjih, kjer se zahteva visoka odvedena gostota toplotnega toka pri nizkih pregretjih površine. V tem delu smo eksperimentalno ovrednotili proces vrenja vode na tankih kovinskih folijah z nanosom grafenskega oksida ter na folijah z lasersko strukturiranim nukleacijskim mestom z in brez grafenskega oksida pri treh različnih gostotah toplotnih tokov. Iz meritev s hitrotekočo infrardečo kamero smo pridobili podatke o nestacionarnih temperaturnih poljih na površini, porazdelitvi gostote toplotnega toka in koeficientih toplotne prestopnosti, lokaciji nukleacijskih mest in frekvencah nukleacij. Izvedli smo tudi analizo omočljivosti površin, s hitrotekočo videokamero pa smo pridobili posnetke rasti vrelnih mehurčkov. Nanos grafenskega oksida je zagotovil večje število aktivnih nukleacijskih mest, hkrati pa je povzročil povišanje temperature nukleacije in ni zagotovil bolj homogene temperaturne porazdelitve. Lasersko ustvarjeno nukleacijsko mesto je omogočilo analizo izoliranega parnega mehurčka, ki je potrdila, da zahteva grafenski oksid višje pregretje za pojav nukleacije. Rezultati dela odpirajo možnosti nadaljnjih raziskav izoliranih nukleacij parnih mehurčkov in velikosti aktivnih nukleacijskih mest, smiselno pa bi bilo raziskati tudi vpliv grafenskega oksida na vrenje dielektričnih fluidov.

Language:Slovenian
Keywords:mehurčkasto vrenje, grafenski oksid, nukleacijska mesta, gostota toplotnega toka, vrenje v bazenu, omočljivost
Work type:Final paper
Typology:2.11 - Undergraduate Thesis
Organization:FS - Faculty of Mechanical Engineering
Place of publishing:Ljubljana
Publisher:[M. Vodopivec]
Year:2022
Number of pages:XV, 66 f.
PID:20.500.12556/RUL-137312 This link opens in a new window
UDC:536.24:53.08(043.2)
COBISS.SI-ID:111216899 This link opens in a new window
Publication date in RUL:10.06.2022
Views:1060
Downloads:146
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Secondary language

Language:English
Title:Experimental analysis of nucleate pool boiling on thin metal foils with graphene oxide deposit
Abstract:
Nucleate boiling is one of the most efficient mechanisms of heat transfer and it is extensively researched in areas where high heat flux at low wall superheat is needed. In this thesis, we experimentally evaluated the boiling process of water on thin metal foils with and without a laser textured nucleation spot at three different heat fluxes. Graphene oxide deposition was used on both types of foils. High-speed IR camera was used to obtain temperature field data, heat flux and heat transfer coefficient distributions, active nucleation site locations and nucleation frequency. Surface wettability analysis was also carried out and a high-speed video camera was used to record bubble growth. Graphene oxide deposition caused an increase in the amount of active nucleation sites, however, it also increased nucleation temperature and it did not ensure a more homogeneous temperate distribution. Laser textured nucleation spot enabled analysis of an isolated bubble, which confirmed that higher wall superheat is needed for nucleation with graphene oxide deposition. The results open possibilities of future research on isolated vapor bubble nucleation and active nucleation site sizes, while it would also be beneficial to explore the effect of graphene oxide deposition on boiling of dielectric fluids.

Keywords:nucleate boiling, graphene oxide, nucleation spot, heat flux, pool boiling, wettability

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