Title
Uticaj parametara pasivnog solarnog dizajna i aktivnih solarnih sistema na potrošnju energije u poslovnim zgradama : doktorska disertacija
Creator
Stevanović, Sanja
Copyright date
2014
Object Links
Select license
Autorstvo-Nekomercijalno-Bez prerade 3.0 Srbija (CC BY-NC-ND 3.0)
License description
Dozvoljavate samo preuzimanje i distribuciju dela, ako/dok se pravilno naznačava ime autora, bez ikakvih promena dela i bez prava komercijalnog korišćenja dela. Ova licenca je najstroža CC licenca. Osnovni opis Licence: http://creativecommons.org/licenses/by-nc-nd/3.0/rs/deed.sr_LATN. Sadržaj ugovora u celini: http://creativecommons.org/licenses/by-nc-nd/3.0/rs/legalcode.sr-Latn
Language
Serbian
Cobiss-ID
Theses Type
Doktorska disertacija
Other responsibilities
član komisije
Pucar, Mila 1946-
član komisije
Cekić, Nikola 1949-
član komisije
Bogdanović, Veliborka 1953-
član komisije
Krstić-Furundžić, Aleksandra
član komisije
Bojić, Milorad 1951-
Academic Expertise
Tehničko-tehnološke nauke
University
Univerzitet u Nišu
Faculty
Građevinsko-arhitektonski fakultet
Group
Katedra za konstukcije i konstrukcijske sisteme arhitektonskih objekata
Title translated
IMPACT OF THE PARAMETERS OF PASSIVE SOLAR DESIGN AND ACTIVE SOLAR SYSTEMS ON ENERGY
USE IN OFFICE BUILDINGS
Publisher
Niš : [S. Stevanović]
Format
PDF/A (381 list)
description
Umnoženo za odbranu.
Univerzitet u Nišu, Građevinsko-arhitektonski fakultet, 2014.
Bibliografija: str. 181-191.
Prilozi: str. 198-374.
Biografija: str. 194-197.
Rezime ; Summary.
Abstract (en)
Recent recast of the EU Energy Performance of Buildings Directive, requesting all new
buildings in the EU to consume `nearly zero' energy after 2020, requires the coherent
application of passive and active design strategies in reducing heating, cooling and lighting
loads and utilization of renewable energy. A necessary step in this process is application of
the optimal combination of passive design measures, foremost among them being passive
solar design measures, which aim to use the solar energy as much as possible in establishing
thermal comfort in buildings, without the use of electrical or mechanical equipment.
Although it is relatively simple to reduce the energy use up to some extent by applying
individual measures, very high levels of energy performance require application of the
optimal combination of several different measures. Building energy simulation plays a
fundamental role in this process, since the energy use depends in a complex way not only on
applied passive solar design strategies, but also on local climate factors.
Purpose of this work is to study relationships between the parameters of passive solar design
and the heating, cooling and lighting energy loads in office buildings, through a parametric
study of a model of an office building located in Belgrade. The case study is a four-story
office building, rectangular in shape, with longer sides facing south and north, with windows
present at southern and northern facades only. The design parameters include six types of
southern glazing types and of northern glazing types, seven values of windows-to-wall ratio
for southern and for northern windows ranging from 25% (in order to satisfy minimal
daylighting regulations) to 100%, presence of external shading at southern windows, as well
as three U-values of external walls. In total, 10,584 building variants have been simulated in
EnergyPlus. Analysis of simulation results leads to findings on the optimal windows-to-wall
ratio and the optimal glazing choice for southern and northern facade, as well as on the
influence of external shading on lowering cooling energy load. Additional simulations of a
photovoltaic plant installation on the building model show that a significant number of
building variants may became positive energy building with an integration of the photovoltaic
plant in the roof of the building.
Authors Key words
Solarna energija, Pasivni solarni dizajn, energetska efikasnost, pasivni solarni dizajn
Authors Key words
Energy efficiency, passive solar design
Subject
72
Subject
69
Type
Elektronska teza
Abstract (en)
Recent recast of the EU Energy Performance of Buildings Directive, requesting all new
buildings in the EU to consume `nearly zero' energy after 2020, requires the coherent
application of passive and active design strategies in reducing heating, cooling and lighting
loads and utilization of renewable energy. A necessary step in this process is application of
the optimal combination of passive design measures, foremost among them being passive
solar design measures, which aim to use the solar energy as much as possible in establishing
thermal comfort in buildings, without the use of electrical or mechanical equipment.
Although it is relatively simple to reduce the energy use up to some extent by applying
individual measures, very high levels of energy performance require application of the
optimal combination of several different measures. Building energy simulation plays a
fundamental role in this process, since the energy use depends in a complex way not only on
applied passive solar design strategies, but also on local climate factors.
Purpose of this work is to study relationships between the parameters of passive solar design
and the heating, cooling and lighting energy loads in office buildings, through a parametric
study of a model of an office building located in Belgrade. The case study is a four-story
office building, rectangular in shape, with longer sides facing south and north, with windows
present at southern and northern facades only. The design parameters include six types of
southern glazing types and of northern glazing types, seven values of windows-to-wall ratio
for southern and for northern windows ranging from 25% (in order to satisfy minimal
daylighting regulations) to 100%, presence of external shading at southern windows, as well
as three U-values of external walls. In total, 10,584 building variants have been simulated in
EnergyPlus. Analysis of simulation results leads to findings on the optimal windows-to-wall
ratio and the optimal glazing choice for southern and northern facade, as well as on the
influence of external shading on lowering cooling energy load. Additional simulations of a
photovoltaic plant installation on the building model show that a significant number of
building variants may became positive energy building with an integration of the photovoltaic
plant in the roof of the building.
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