TY - JOUR AB - Purpose Electrochromic window (ECW) has been gradually applied to building engineering in recent years. However, empirical study of this technology used in green building design is still lacking. This study aims to verify the lighting and energy-saving performance of ECW under a specific geographical environment.Design/methodology/approach The meditation pavilion of Jinwan new materials research institute in Zhuhai is taken for research object. Three kinds of sun-shading techniques, namely, ECW, Low-E window and ordinary glass window, with same specifications are selected as the building facade structure for simulation. Day lighting analysis, sun-shading performance and annual energy consumption are separately simulated in the same environment by the Autodesk Ecotect Analysis software. The energy-saving performance of ECW is obtained by comparisons.Findings Result shows that the shading performance of ECW is much better than ordinary window and Low-E window. When ECW is used in the east, west or top lighting interfaces of a building, about 40% of the total solar radiation can be reduced during daytime in summer. Taking the ordinary glass window as a basic reference, ECW can save about 90% of the annual energy consumption of the glass house. ECW can effectively reduce the annual refrigeration energy consumption of buildings in the subtropical region.Practical implications Reasonable use of ECW in the subtropical region can effectively reduce the annual energy consumption of buildings.Originality/value It is a precedent study to analyze the lighting performance and energy consumption of a glass house with ECW. The energy-saving characteristics and beautiful appearance of ECW shall make it a future green building technology. VL - 19 IS - 1 SN - 1726-0531 DO - 10.1108/JEDT-12-2019-0348 UR - https://doi.org/10.1108/JEDT-12-2019-0348 AU - Wang Yang AU - Lin Misheng AU - Xu Ke AU - Zhang Shuyang AU - Ma Hongwei PY - 2020 Y1 - 2020/01/01 TI - Energy consumption analysis of glass house using electrochromic window in the subtropical region T2 - Journal of Engineering, Design and Technology PB - Emerald Publishing Limited SP - 203 EP - 218 Y2 - 2024/04/19 ER -