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Curtain Wall Systems as Climate-Adaptive Energy Infrastructures: A Critical Review of Their Role in Sustainable Building Performance
Curtain Wall Systems as Climate-Adaptive Energy Infrastructures: A Critical Review of Their Role in Sustainable Building Performance
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Curtain Wall Systems as Climate-Adaptive Energy Infrastructures: A Critical Review of Their Role in Sustainable Building Performance
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Curtain Wall Systems as Climate-Adaptive Energy Infrastructures: A Critical Review of Their Role in Sustainable Building Performance
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Curtain Wall Systems as Climate-Adaptive Energy Infrastructures: A Critical Review of Their Role in Sustainable Building Performance
Curtain Wall Systems as Climate-Adaptive Energy Infrastructures: A Critical Review of Their Role in Sustainable Building Performance
Journal Article

Curtain Wall Systems as Climate-Adaptive Energy Infrastructures: A Critical Review of Their Role in Sustainable Building Performance

2026
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Overview
Curtain wall systems have evolved from aesthetic façade elements into multifunctional building envelopes that actively contribute to energy efficiency and climate responsiveness. This review presents a comprehensive examination of curtain walls from an energy-engineering perspective, highlighting their structural typologies (Stick and Unitized), material configurations, and integration with smart technologies such as electrochromic glazing, parametric design algorithms, and Building Management Systems (BMS). The study explores the thermal, acoustic, and solar performance of curtain walls across various climatic zones, supported by comparative analyses and iconic case studies including Apple Park, Burj Khalifa, and Milad Tower. Key challenges—including installation complexity, high maintenance costs, and climate sensitivity—are critically assessed alongside proposed solutions. A central innovation of this work lies in framing curtain walls not only as passive architectural elements but as dynamic interfaces that modulate energy flows, reduce HVAC loads, and enhance occupant comfort. The reviewed data indicate that optimized curtain wall configurations—especially those integrating electrochromic glazing and BIPV modules—can achieve annual energy consumption reductions ranging from approximately 5% to 27%, depending on climate, control strategy, and façade typology. The findings offer a valuable reference for architects, energy engineers, and decision-makers seeking to integrate high-performance façades into future-ready building designs.