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Performance Optimization Studies on Heating, Cooling and Lighting Energy Systems of Buildings during the Design Stage: A Review

Authors
Gassar, Abdo Abdullah AhmedKoo, ChoongwanKim, Tae WanCha, Seung Hyun
Issue Date
Dec-2020
Publisher
MDPI
Keywords
building designs; design parameters; design stages; optimization algorithms; energy simulation tools; lighting simulation tools
Citation
SUSTAINABILITY, v.13, no.17, pp 1 - 47
Pages
47
Indexed
SCIE
SSCI
SCOPUS
Journal Title
SUSTAINABILITY
Volume
13
Number
17
Start Page
1
End Page
47
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/202414
DOI
10.3390/su13179815
ISSN
2071-1050
2071-1050
Abstract
Optimizing the building performance at the early design stage is justified as a promising approach to achieve many sustainable design goals in buildings; in particular, it opens a new era of attractive energy-efficient design for designers and architects to create new building constructions with high-energy efficiency and better overall performance. Accordingly, this study aims to provide a comprehensive review of performance optimization studies on heating, cooling, and lighting energy systems of buildings during the design stages, conducting a systematical review covering various aspects ranging from the building type, optimization inputs, the approach used, and the main conclusion. Furthermore, the benefits and limitations of early optimizations in the energy-efficient design performance of buildings and future research directions are identified and discussed. The review results show that previous research efforts of optimizing energy-efficient design performance in buildings have addressed a wide variety of early stage design optimization issues, including orientation and multi-objective building function-related conflicts, such as cooling and lighting. However, significant research issues related to investigations of design envelope materials, proper energy-efficient design form, and other passive parameters, such as solar photovoltaic systems, are still lacking. Therefore, future research should be directed towards improving existing optimization approach frameworks in the context of appropriate energy-efficient design features; integrating sensitivity and uncertainty analyses in the performance optimization framework of buildings to provide a more balanced assessment of influential design envelope properties and extending optimal design envelope investigations of buildings to include other passive parameters and lifecycle assessment under long-term weather conditions.
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