An Energy Performance Evaluation of Commercially Available Window Glazing in Darwin’s Tropical Climate

Mehdizadeh‐Rad, Hooman; Choudhry, Taimoor Ahmad; Ng, A. W. M; Rajabi, Zohreh; Rais, Muhammad Farooq; Zia, Asad; Tariq, Muhammad Atiq Ur Rehman

doi:10.3390/su14042394

Cited by 4 publications

(2 citation statements)

References 35 publications

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“…Many research studies have been conducted to investigate which features of windows have made them energy inefficient and how they could be improved. The studies have mostly focused on the thermal and optical properties of window systems, including the thermal transmittance (U-value) and the g-value (also known as the solar heat gain coefficient (SHGC), total solar energy transmittance (TSET), and solar factor) [35][36][37][38][39][40]. The first step in improving a window s thermal and optical parameters is to evaluate them as accurately as possible [41].…”

Section: Glazing Systems' Main Propertiesmentioning

confidence: 99%

Comprehensive Review and Analysis of Glazing Systems towards Nearly Zero-Energy Buildings: Energy Performance, Thermal Comfort, Cost-Effectiveness, and Environmental Impact Perspectives

Moghaddam,

Serra,

Gameiro da Silva

et al. 2023

Energies

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The global interest in nearly zero-energy buildings (NZEBs) has led to their establishment as mandatory building objectives in Europe for all new constructions starting in 2021. The principles outlined in the Energy Performance of Building Directive (EPBD) emphasize the significance of reducing energy demand through various energy efficiency measures to achieve NZEB status. Among these measures, the utilization of high-performance glazing systems plays a crucial role in ensuring natural light, ventilation, favorable solar gain, aesthetics, and positive psychological effects in buildings, while maintaining high energy performance and thermal comfort without burdening the budget or harming the environment. The use of increasingly larger glazing areas makes this topic of great relevance. Nevertheless, numerous studies frequently overlook certain crucial aspects of glazing systems in their assessments. This review study aims to assess different glazing solutions based on four critical perspectives called “EThCE”: Energy performance, thermal comfort, cost-effectiveness, and environmental impact, considering their interrelationships. Furthermore, the importance of adopting a comprehensive approach for selecting the optimal glazing solution for NZEBs is discussed. Additionally, the relationship between glazing systems and climate change is taken into account. Ultimately, the authors propose a comprehensive approach, including all the influential factors, to assist designers and homeowners in making informed decisions regarding glazing system selection for new NZEBs or NZEB retrofits in different situations.

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Section: Glazing Systems' Main Propertiesmentioning

confidence: 99%

Comprehensive Review and Analysis of Glazing Systems towards Nearly Zero-Energy Buildings: Energy Performance, Thermal Comfort, Cost-Effectiveness, and Environmental Impact Perspectives

Moghaddam,

Serra,

Gameiro da Silva

et al. 2023

Energies

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“… the choice of the shape, size, and orientation [15][16][17][18][19] of the building and its rooms;  the distance between buildings [20];  the combination and placement of the building on the general urban plan [20];  optimizing the wind effect on the buildings [20];  increasing the overall thermal resistance to heat transfer of building envelopment [21][22] including heat insulation [13,[22][23][24][25][26][27][28], reducing the area and using energy-efficient glazing [28][29][30], decreasing thermal bridges [31] etc. ;…”

mentioning

confidence: 99%

Energy Efficiency Issues in Buildings: Analysis of World Practice

Gasimov,

Mammadov,

Akbarova

et al. 2023

VOTHP

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At present, the volume of world energy consumption is continuously and rapidly increasing, which is a consequence of the industrialization process, population growth, increase in energy costs for the extraction of natural resources, etc. Therefore, the importance of solving the problem of energy efficiency is of paramount importance for modern civilization. In this work, there is an analysis of international experience of energy efficient construction. The main directions of energy-efficient development are highlighted. It’s shown that the classical method of heat loss calculations wrongly takes into account the wind effect. The more correct one is required. At the same time, it is worth applying linguistic variables and fuzzy logic, which adequately describe states that are described by verbal statements, and not by numerical values. In conclusion, the most emerging tasks for our Republic are selected: optimal placement of the building on the general plan of the city, incl. maintaining the distance between buildings under the construction and urban-planning regulations; proper heat insulation of the building envelope by the orientation of facades and depending on the climatic parameters of the outside air; air-tightening of building avoiding in- and exfiltration; maximum possible automation of engineering systems up to integration from smart house to smart city level; modernization and optimization of the operation of engineering systems; maximum use of renewable and secondary (such as exhaust air) energy sources; rejection of the classical calculation method of heat loss estimation, which takes into account the effect of wind speed, and to develop a new methodology.

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Evaluation of static and dynamic PV-Integrated shading systems for office spaces in Australia

Krarti,

Karrech

2024

Solar Energy

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An Energy Performance Evaluation of Commercially Available Window Glazing in Darwin’s Tropical Climate

Cited by 4 publications

References 35 publications

Comprehensive Review and Analysis of Glazing Systems towards Nearly Zero-Energy Buildings: Energy Performance, Thermal Comfort, Cost-Effectiveness, and Environmental Impact Perspectives

Comprehensive Review and Analysis of Glazing Systems towards Nearly Zero-Energy Buildings: Energy Performance, Thermal Comfort, Cost-Effectiveness, and Environmental Impact Perspectives

Energy Efficiency Issues in Buildings: Analysis of World Practice

Evaluation of static and dynamic PV-Integrated shading systems for office spaces in Australia

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