magistrsko delo magistrskega študijskega programa II. stopnje Strojništvo
Tej Žižak (Author), Sašo Medved (Mentor), Ciril Arkar (Co-mentor)

Abstract

Razogljičenje energetskega sektorja je eden od prioritetnih ciljev Evropske skupnosti, tudi na področju rabe energije v stavbah. Tehnologije učinkovite rabe in uporaba lokalnih obnovljivih virov naj bi omogočile gradnjo energijsko samozadostnih stavb. V nalogi smo raziskali energijske lastnosti dveh sodobnih tehnologij zastekljenih gradnikov ovoja stavb, ki v sodobnih trendih gradnje nestanovanjskih stavb prevladujeta: 6-slojna zasteklitev in dvojna zastekljena fasada s prezračevano rego. Oba sistema smo nadgradili z elementi za izboljšanje energijske učinkovitosti in energijske samooskrbe stavbe % z integriranimi generatorji električne energije (BIPV) in kratkotrajnimi latentnimi hranilniki toplote (PCM). Dinamični toplotni odziv gradnikov smo modelirali s tehniko računske dinamike tekočin v referenčnem poletnem dnevu v okoljih z različnimi podnebji. Rezultate numeričnih simulacij smo validirali z eksperimentalnimi meritvami na modelu dvojne steklene fasade z BIPV in prisilno prezračevano rego ter PCM elementi. Nadgrajeni fasadni sistemi imajo velik potencial za zmanjšanje toplotnih dobitkov, ko stavbe hladimo. Parametrična analiza snovnih lastnosti PCM elementov predstavlja usmeritve pri izbiri PCM elementov glede na pogoje pri prenosu toplote. V nalogi smo razvili aproksimacijski model za napoved električne moči BIPV elementa, ki omogoča analizo energijske samooskrbe stavb.

Keywords

magistrske naloge;6-slojna BIPV zasteklitev;dvojna prezračevana BIPV fasada;latentni shranjevalniki toplote;fotonapetostne celice;nestacionarni prenos toplote;računska dinamika tekočin;

Data

Language: Slovenian
Year of publishing:
Typology: 2.09 - Master's Thesis
Organization: UL FS - Faculty of Mechanical Engineering
Publisher: [T. Žižak]
UDC: 621.383.51:666.157:536.2(043.2)
COBISS: 28766467 Link will open in a new window
Views: 865
Downloads: 126
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Other data

Secondary language: English
Secondary title: Advanced glazed photovoltaic facades with phase change materials
Secondary abstract: One of the priority goals of the European Union is the transition to a carbon-free energy sector, including energy use in buildings. New technologies enable use of renewable energy with elements integrated in energy self-sufficient buildings. In this paper, we investigated the energy properties of two modern glazing technologies, which are prevalent in modern trends in non-residential building construction: 6-layer glazing and a ventilated double-skin facade. Both systems have been upgraded with elements for improving energy self-sufficiency of buildings: with integrated electricity generators (BIPV) and phase change materials (PCM). The dynamic thermal response of systems was modelled with computational fluid dynamics in a reference summer day in environments with different climates. The results of the numerical simulations were validated by experimental measurements on a ventilated double-skin facade model with BIPV and PCM elements. Upgraded façade systems have shown great potential to reduce heat gains during summer. Parametric analysis of the material properties of PCM elements provides guidance in the selection of PCMs depending on the conditions of heat transfer. We have developed an approximation model for the prediction of the electrical power of BIPV elements, which enable the analysis of energy self-sufficiency of buildings.
Secondary keywords: master thesis;6-layer BIPV glazing;ventilated BIPV double-skin facade;phase change materials;photovoltaics;transient heat transfer;computational fluid dynamics;
Type (COBISS): Master's thesis/paper
Study programme: 0
Thesis comment: Univ. Ljubljana, Fak. za strojništvo
Pages: XXII, 62 str.
ID: 12027646