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Intenzivno naravno prezračevanje kot strategija za zmanjšanje potrebe po ohlajevanju stavbe : magistrsko delo
ID Bećirević, Sara (Author), ID Košir, Mitja (Mentor) More about this mentor... This link opens in a new window, ID Pajek, Luka (Co-mentor)

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Abstract
Naravno prezračevanje in zrak kot pasivni medij predstavljata najcenejšo in okolju najprijaznejšo rešitev za hlajenje, saj za svoje delovanje ne potrebujeta nič ali relativno malo energije. Zato se kljub vsem razpoložljivim mehanskim sistemom vračamo k prvotnim strategijam za hlajenje, kot je naravno prezračevanje. V nalogi smo ugotovili, ali lahko s pomočjo naravnega prezračevanja zmanjšamo rabo energije za hlajenje in hkrati zagotavljamo ustrezno toplotno udobje. Za analizo smo si izbrali različni pisarni, ki smo jima pripisali karakteristične lastnosti stavbnega ovoja in transparentnih površin glede na Tehnično smernico TSG-1-004:2010. Analizirana sta bila načina naravnega prezračevanja, enostransko in prečno prezračevanje, v treh časovnih obdobjih v dnevu, in sicer nočno, dnevno ter celodnevno. V programskem orodju Design Builder smo spreminjali parametra, načrtovano stopnjo prezračevanja in delež efektivne odprtine. Pri enostranskem in prečnem načinu prezračevanja je celodnevni način prezračevanja najučinkovitejši za zmanjšanje rabe energije za hlajenje, sledi mu nočno in nato dnevno prezračevanje. V povprečju vsaj za 50 % zmanjšanje rabe energije za hlajenje dosežemo že pri stopnji prezračevanja n = 2 h-1 pri celodnevnem in nočnem prezračevanju ter pri stopnji prezračevanja n = 5 h-1 pri dnevnem prezračevanju. Takšno zmanjšanje rabe energije za hlajenje dosežemo že pri efektivnih odprtinah 5 % in 10 %. Že majhne stopnje prezračevanja in efektivne odprtine bistveno vplivajo na zmanjšanje rabe energije za hlajenje in eliminiranje visokih operativnih temperatur.

Language:Slovenian
Keywords:enostransko prezračevanje, prečno prezračevanje, naravno prezračevanje, raba energije za hlajenje, toplotno neudobje
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FGG - Faculty of Civil and Geodetic Engineering
Place of publishing:Ljubljana
Publisher:[S. Bećirević]
Year:2021
PID:20.500.12556/RUL-127194 This link opens in a new window
UDC:697.921.2(043.3)
COBISS.SI-ID:68660483 This link opens in a new window
Publication date in RUL:24.05.2021
Views:911
Downloads:115
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Secondary language

Language:English
Title:Intensive natural ventilation as a cooling reduction design strategy in buildings : master thesis
Abstract:
Natural ventilation and air are passive mediums with the cheapest and most environmentally friendly cooling solution, as they do not require any or relatively little energy to operate. Therefore, despite all the available mechanical systems, we are returning to the original cooling strategies, such as natural ventilation. In the thesis, we determined whether we can reduce the use of energy for cooling with natural ventilation and at the same time provide adequate thermal comfort. For the analysis, we chose two different offices, to which we assigned the characteristic properties of the building envelope and transparent surfaces according to the Tehnična smernica TSG-1-004: 2010. Two different types of natural ventilation were analyzed, single-sided and cross ventilation, in three time periods during the day, night, day and all - day. In the Design Builder software, we changed two parameters, the proposed rate of ventilation and the proportion of the effective opening. With single-sided and cross ventilation, all-day ventilation is the most effective in reducing cooling energy consumption, followed by night and then day ventilation. On average, a reduction of at least 50% in the energy consumption for cooling is achieved already at the ventilation rate n = 2 h-1 for all-day and night ventilation and at the ventilation rate n = 5 h-1 for day ventilation. Such a reduction in energy consumption for cooling is achieved with effective openings of 5% and 10%. Even small rates of ventilation and effective openings have a significant effect on reducing energy consumption for cooling and eliminating high operative temperatures.

Keywords:single-sided ventilation, cross ventilation, natural ventilation, energy consumption for cooling, thermal discomfort

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