Impact of Window-to-Wall Surface Area for Different Window Glass Types and Wall Orientations on Building Energy Performance: A Case Study for a School Building Located in Izmir, Turkey

YILDIZ, Yusuf; G�KSAL �ZBALTA, T�rkan; DURMU� ARSAN, Zeynep

Volume: 19 Issue: 1
Year: 2024

Current Issue Published Issues Most Accessed Articles Ahead of Print

Index and Coverage

Avery Index

DOAJ

EBSCO

Erih Plus

ESCI � Clarivate

GALE Cengage

Genamics

ProQuest

TR Dizin

TUBITAK Ulakbim

Ulrichs Web

Impact of Window-to-Wall Surface Area for Different Window Glass Types and Wall Orientations on Building Energy Performance: A Case Study for a School Building Located in Izmir, Turkey [Megaron]

Megaron. 2011; 6(1): 30-38

Impact of Window-to-Wall Surface Area for Different Window Glass Types and Wall Orientations on Building Energy Performance: A Case Study for a School Building Located in Izmir, Turkey

Yusuf YILDIZ¹, T�rkan G�KSAL �ZBALTA², Zeynep DURMU� ARSAN¹
¹Department of Architecture, Izmir Institute of Technology Faculty of Architecture, Izmir, Turkey
²Department of Civil Engineering, Ege University, Faculty of Engineering, Izmir, Turkey

The opaque and transparent surfaces of buildings have an important role in the total percentage of energy loss or gain. Heat loss or gain from windows are dependent on the window-to-wall area ratio, the window glass type, and the type of window frame used. In the concept of energy efficient design, heat loss or gain from windows should be analyzed in detail in the early stages of building design by considering local climatic conditions. This study investigates a school building located in Izmir in Turkey, a city with a hot and humid climate. Various glass types with different glazing characteristics and number of layers, located in different parts of the buildings and with different window-to-wall ratios are analyzed and compared using building the energy analysis program �EnergyPlus�. Results indicate that window- to-wall area ratios, wall orientation and glass types are important factors in the building�s total energy consumption. When the window-to-wall area ratio is increased from 10% to 60%, the winter heating load of the building decreases in maximum amount on the south side of the building and reduces in minimum amount on the east side of the building. When summer cooling load is investigated the highest increase in energy consumption is found on the south side of the building. On the eastern and western sides of the building the effect of increased energy consumption value remains low. When the total energy consumption (cooling + heating) is considered, it is calculated that the east and west sides have the biggest total effect and the northern wall has the smallest total effect. When low emissivity glass is used instead of double layer glass, in terms of energy consumption the building side order of effect remains the same, although actual values differ. It is therefore clear that using energy analysis programs to analyse different factors within the energy consumption of buildings will be beneficial in creating energy efficient solutions. This can be carried out in the earlier stages of the architectural design of the buildings or at the renovation stages of existing buildings.

Keywords: Window to external wall ratio, glazing type, orientation, energy consumption, hot-humid climate.

Farkl� Cam T�rleri ve Y�nlere G�re Pencere/Duvar Alan� Oran�n�n Bina Enerji Performans�na Etkisi: E�itim Binas�, �zmir

Yusuf YILDIZ¹, T�rkan G�KSAL �ZBALTA², Zeynep DURMU� ARSAN¹
¹�zmir Y�ksek Teknoloji Enstit�s� Mimarl�k Fak�ltesi, Mimarl�k B�l�m�, �zmir
²Ege �niveritesi M�hendislik Fak�ltesi, �n�aat M�hendisli�i B�l�m�, �zmir

Binalar�n opak ve saydam y�zeyleri enerji kay�p ve kazan�lar� a��s�ndan �nemli bir role sahiptir. Binalarda, pencerelerden kaynaklanan g�ne� enerjisi kazan� ve �s� kay�p miktarlar�, pencere/duvar alan� oran�, cam tipi ve �er�eve gibi �zelliklere ba�l�d�r. Enerji etkin tasar�m ba�lam�nda �s�tma ve so�utma ama�l� enerji t�ketimine olan etkisi nedeni ile pencerelerden kazan�lan g�ne� enerjisi ve kaybedilen �s� miktar�n�n, erken tasar�m a�amas�nda yerel iklim ko�ullar�na g�re analiz edilmesi gereklidir. Bu �al��mada, s�cak-nemli iklim ko�ullar�na sahip �zmir ilinde bulunan bir e�itim binas� incelenmi�tir. Farkl� cam t�rleri i�in farkl� y�nlerdeki pencere/duvar alan� oran� de�i�iminin enerji t�ketimine olan etkisi, enerji analiz program� EnergyPlus kullan�larak kar��la�t�r�lm��t�r. Elde edilen sim�lasyon sonu�lar�na g�re binalarda pencere/duvar alan� oran�, y�n ve cam tipinin enerji t�ketimi �zerinde etkili oldu�u g�r�lm��t�r. Farkl� y�nlerdeki pencere/duvar alan� oran�n�n %10�dan %60�a art�r�lmas� durumunda �s�tma ama�l� enerji t�ketimindeki azalma, g�ney cephedeki de�i�ime ba�l� olarak maksimum, do�u cephesinde ise minimum d�zeydedir. So�utma y�k� a��s�ndan ise g�ney cephedeki de�i�imin yine en y�ksek de�ere, kuzey cephedeki de�i�imin ise en d��k de�ere neden oldu�u saptanm��t�r. Toplam enerji t�ketimi a��s�ndan (�s�tma + so�utma) do�u ve bat� cephelerin en etkili, kuzey cephenin ise en az etkiye sahip oldu�u hesaplanm��t�r. �ift cam (mevcut) yerine low-e kaplamal� cam kullan�ld��nda ise y�nlere g�re s�ralaman�n de�i�medi�i g�r�lm��t�r. K�sacas� bina enerji performans�na etkisi olan parametrelerin, mimari tasar�m s�recinin erken a�amalar�nda veya mevcut binalar�n enerji etkin iyile�tirilmelerinde, enerji analiz programlar� arac�l�� ile de�erlendirilmesi, enerji etkin ��z�m �nerilerinin olu�turulmas�na �nemli katk�lar sa�layacakt�r.

Anahtar Kelimeler: Pencere/duvar alan� oran�, cam tipi, y�n, enerji t�ketimi, s�cak-nemli iklim.

Yusuf YILDIZ, T�rkan G�KSAL �ZBALTA, Zeynep DURMU� ARSAN. Impact of Window-to-Wall Surface Area for Different Window Glass Types and Wall Orientations on Building Energy Performance: A Case Study for a School Building Located in Izmir, Turkey. Megaron. 2011; 6(1): 30-38

TOOLS

Full Text PDF

Download citation

RIS

EndNote

BibTex

Medlars

Procite

Reference Manager

Share with email

Similar articles

PubMed

Google Scholar