Optimising Window Design on Residential Building Facades by Considering Heat Transfer and Natural Lighting in Nontropical Regions of Australia

Chen, Zixuan; Hammad, Ahmed W. A.; Kamardeen, Imriyas; Haddad, Assed

doi:10.3390/buildings10110206

Cited by 9 publications

(4 citation statements)

References 50 publications

(61 reference statements)

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“…Alongside these, solar accessibility (30) and thermal comfort (30) were included among the objective functions of 60 publications. Finally, the Optimo tool was utilized within the Dynamo environment to perform optimizations about energy demand, thermal and visual comfort, and solar accessibility [27][28][29]. Such workflows, which showed a lower number of variables if compared with the others, were mainly exploited to identify high effective configurations of a building's envelope.…”

Section: Orientationmentioning

confidence: 99%

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Multi-Objective Optimization Models to Design a Responsive Built Environment: A Synthetic Review

Manni

Nicolini

2022

Energies

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A synthetic review of the application of multi-objective optimization models to the design of climate-responsive buildings and neighbourhoods is carried out. The review focused on the software utilized during both simulation and optimization stages, as well as on the objective functions and the design variables. The hereby work aims at identifying knowledge gaps and future trends in the research field of automation in the design of buildings. Around 140 scientific journal articles, published between 2014 and 2021, were selected from Scopus and Web of Science databases. A three-step selection process was applied to refine the search terms and to discard works investigating mechanical, structural, and seismic topics. Meta-analysis of the results highlighted that multi-objective optimization models are widely exploited for (i) enhancing building’s energy efficiency, (ii) improving thermal and (iii) visual comfort, minimizing (iv) life-cycle costs, and (v) emissions. Reviewed workflows demonstrated to be suitable for exploring different design alternatives for building envelope, systems layout, and occupancy patterns. Nonetheless, there are still some aspects that need to be further enhanced to fully enable their potential such as the ability to operate at multiple temporal and spatial scales and the possibility of exploring strategies based on sector coupling to improve a building’s energy efficiency.

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Section: Orientationmentioning

confidence: 99%

“…Energies 2022, 15, x FOR PEER REVIEW 9 of 27 [16] x N Galapagos x x x x [15] x x N Octopus x [29] x x N Optimo x x [28] x x N Optimo x [22] x…”

Section: Orientationmentioning

confidence: 99%

Multi-Objective Optimization Models to Design a Responsive Built Environment: A Synthetic Review

Manni

Nicolini

2022

Energies

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“…Portanto, em face à necessidade cada vez mais urgente da redução do consumo energético, as edificações não deveriam contribuir para um consumo excessivo, pelo contrário, sua forma física e constituição devem ser concebidas para suprir as necessidades humanas sem um gasto energético desnecessário. Nesse sentido, as esquadrias, ao promover a ligação do exterior com o interior, podem representar, literalmente, um canal através do qual a energia pode ser desperdiçada, como Chen et al (2020) demonstram, ao analisar o aumento do consumo energético em função do tipo e do tamanho das aberturas.…”

Section: Introductionunclassified

Eficiência energética da envoltória de habitações no Rio de Janeiro

Brasileiro,

Morgado,

Torres

2023

Xvii Encontro Nacional De Conforto No Ambiente Construído

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No âmbito da Política Nacional de Conservação e Uso Racional de Energia, a Instrução Normativa Inmetro para Eficiência Energética das Edificações Residenciais (INI-R) se constitui no instrumento legal para a obtenção da classificação da eficiência energética das habitações, de acordo com a zona bioclimática. O presente estudo se concentra na cidade do Rio de Janeiro, zona 8, e tem por objetivo verificar como determinados parâmetros arquitetônicos, utilizados no processo de avaliação, podem impactar na classificação da envoltória das habitações. Foi investigada especificamente a influência das esquadrias, por serem elementos arquitetônicos facilmente substituíveis na busca por uma melhor classificação da residência, ao contrário dos materiais constituintes das paredes, por exemplo. O trabalho dá continuidade a uma investigação anterior, feita de modo semelhante, que utilizou o método prescritivo do Regulamento Técnico da Qualidade para o Nível de Eficiência Energética de Edificações Residenciais (RTQ-R). O estudo atual utilizou o método simplificado da INI-R e ambos testaram a influência das esquadrias nos resultados da avaliação da envoltória de uma unidade habitacional hipotética, de apenas um ambiente de permanência prolongada, em um edifício residencial multifamiliar, testado em quatro orientações diferentes. Os parâmetros definidos para a investigação das esquadrias foram seu percentual de abertura (45% ou 90%) e existência ou não de venezianas, sendo esses elementos cruzados entre si em combinações diversas. Os resultados indicam o sombreamento por venezianas como o parâmetro de influência mais significativa, podendo proporcionar ganhos em um nível de eficiência para a mesma orientação. O percentual de abertura pode ou não proporcionar ganhos ao ser alterado, embora estes sejam mais discretos e, no atual regulamento, INI-R, não chegue mais a significar alteração na classificação, diferentemente do que ocorria no RTQ-R. O produto desta análise poderá ser adotado como ferramenta para tomadas de decisão em reformas de habitações e como insumo para projetos de novas residências.

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“…However, these standards were focused on supplying high insulation and airtight construction technology to physically strengthen building energy performance [9,10]. Although thermal performance is a critical element of energy performance, it is a disadvantage in window plans considering lighting and views [11][12][13]. Building regulations and performance evaluations are focused on the heat transmission coefficients of windows [11].…”

Section: Introductionmentioning

confidence: 99%

Optimizing Window Glass Design for Energy Efficiency in South Korean Office Buildings: A Hierarchical Analysis Using Energy Simulation

Lee,

Kim,

Ryu

et al. 2023

Buildings

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The world is emphasizing the need for building design that considers energy performance to deal with climate problems. South Korea has constantly been tightening the design standards for saving building energy but with a focus on thermal performance and equipment systems. Accordingly, this study conducted an energy simulation experiment on office buildings with different window-to-wall ratios (WWRs) to propose a smart glazing plan to improve energy performance. An energy simulation experiment was performed on office buildings with varying WWRs to hierarchically analyze the influence of building window performance elements, including the heat transmission coefficient (U-value), visible light transmittance (VLT), and solar heat gain coefficient (SHGC), on building energy performance. The analysis showed that SHGC had the most significant impact on the heating and cooling load, by 22.13%, with the influences of the variables being 12.4% for the U-value, 4.78% for VLT, and 82.83% for SHGC. The results showed that the solar heat gain coefficient (SHGC) had the greatest impact on energy performance among window performance elements, and the effect increased significantly in certain WWRs. Moreover, to improve the energy performance of buildings with higher WWRs, it is essential to reflect the optimum composition of the U-value and SHGC on the window plan. This study’s findings propose measures to supplement existing window plans focusing on thermal performance. Furthermore, these results hold academic value in providing concrete grounds for that.

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Optimising Window Design on Residential Building Facades by Considering Heat Transfer and Natural Lighting in Nontropical Regions of Australia

Cited by 9 publications

References 50 publications

Multi-Objective Optimization Models to Design a Responsive Built Environment: A Synthetic Review

Multi-Objective Optimization Models to Design a Responsive Built Environment: A Synthetic Review

Eficiência energética da envoltória de habitações no Rio de Janeiro

Optimizing Window Glass Design for Energy Efficiency in South Korean Office Buildings: A Hierarchical Analysis Using Energy Simulation

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