Abstract

Recently, there have been significant concerns regarding excessive energy use in office buildings with a large window-to-wall ratio (WWR) because of the curtain wall structure. However, prior research has confirmed that the impact of the window area on energy consumption varies depending on building size. A newly proposed window-to-floor ratio (WFR) correlates better with energy consumption in the building. In this paper, we derived the correlation by analyzing a simulation using EnergyPlus, and the results are as follows. In the case of small buildings, the results of this study showed that the WWR and energy requirement increase proportionally, and the smaller the size is, the higher the energy sensitivity will be. However, results also confirmed that this correlation was not established for buildings approximately 3600 m2 or larger. Nevertheless, from analyzing the correlation between the WFR and the energy requirements, it could be deduced that energy required increased proportionally when the WFR was 0.1 or higher. On the other hand, the correlation between WWR, U-value, solar heat gain coefficient (SHGC), and material property values of windows had little effect on energy when the WWR was 20%, and the highest effect was seen at a WWR of 100%. Further, with an SHGC below 0.3, the energy requirement decreased with an increasing WWR, regardless of U-value. In addition, we confirmed the need for in-depth research on the impact of the windows’ U-value, SHGC, and WWR, and this will be verified through future studies. In future studies on window performance, U-value, SHGC, visible light transmittance (VLT), wall U-value as sensitivity variables, and correlation between WFR and building size will be examined.

Highlights

  • On the other hand, building energy consumption was analyzed focusing on heating, cooling, and lighting energy, which are greatly affected by window performance, and we assumed no energy transfer between floors by only analyzing the reference floor

  • The optimum window-to-wall ratio (WWR) for the cases differed by a maximum of 25, even though the floor size was comparable. This shows that WWR is not the only definitive factor to consider towards building design and related prediction of energy consumption

  • This paper aimed to find a pattern for building energy performance according to various building sizes and WWR area and to present a new energy performance index

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Summary

A Fundamental Study on the Development of New Energy

Jin-Hee Kim 1 , Seong-Koo Son 2 , Gyeong-Seok Choi 3 , Young-Tag Kim 4 , Sung-Bum Kim 5 and Won-Ki Choi 5, *.

Research Background and Objective
Research Method and Scope
Analysis of Previous Research
Baseline Building Model
Window Materials Perperties of the Building Model
Correlation between WWR and Building Energy
Correlation
Findings
Energy demands areaaccording according totothe andand window properties

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