TY - JOUR T1 - Investigating the Impact of Effective Green Design Factors in the Formation of Green Hospitals AU - Rostami, Razieh PY - 2025 DA - July Y2 - 2025 DO - 10.46474/jds.1678097 JF - Journal of Design Studio JO - JDS PB - Orhan HACIHASANOĞLU WT - DergiPark SN - 2687-2838 SP - 125 EP - 131 VL - 7 IS - 1 LA - en AB - With the growing population and increasing human dominance over nature, the disruption of nature's order has emerged as a new phenomenon. One of the results of environmental destruction has been the emergence of green architecture, aimed at saving energy and optimizing the use of natural resources. In this regard, sustainable development, which involves the continuous and rational use of natural resources, has been proposed. Among these, the relationship between nature and buildings has been introduced as a fundamental principle of green architecture. This topic has garnered more attention from architects in recent years. Hospitals, considered one of the most polluting sources of the environment, are a particular focus for designers to create more environmentally friendly hospitals by considering effective green design factors.In this regard, the use of modern technologies, green architecture, and design and construction of green hospitals are being studied. The present research aims to examine the topic and effective factors in the formation of green hospitals with a focus on quality and efficiency. KW - Green architecture KW - Energy conservation KW - Green hospital CR - Calder, B., and Bremner, G.A., (2021). "Buildings and energy: architectural history in the climate emergency." The Journal of Architecture, 26, no. 2: 79-115. https://doi.org/10.1080/13602365.2021.1891950 CR - Ragheb, A., El-Shimy, H., and Ragheb, G., (2016). "Green architecture: A concept of sustainability." Procedia-Social and Behavioral Sciences, 216: 778-787. https://doi.org/10.1016/j.sbspro.2015.12.075 CR - Reller, A., (ed.). (2000). Greener Hospitals: Improving Environmental Performance. Wiss.-Zentrum Umwelt, Univ. CR - Rogers, R., (2005). "Action for Sustainability." JA (Japanese Architecture), 60: 129. CR - Saghaei, S., Shafa, S., & Farahani, P. (2025). Machine Learning-Based Drought Classification Using Meteorological Data: Toward Smarter Environmental Models for Site Exploration. Journal of Mechanical, Civil and Industrial Engineering, 6(2), 01-08, https://doi.org/10.32996/jmcie.2025.6.2.1 CR - Serdar Yakut, E.S., Cenani, S., and Çağdaş, G., (2022). "Assessment of urban surface performance of open spaces with multi-criteria decision-making method." Megaron 17, no. 4. https://doi.org/10.14744/MEGARON.2022.47827 CR - Shafa, S., (2024a). "Ranking of smart building design factors with efficient energy management systems and renewable resources." Journal of Design Studio, 6, no. 2: 325-335. https://doi.org/10.46474/jds.1575903 CR - Shafa, S., (2024b). "Smart materials in green architecture: The role of etfe and phase change materials in sustainable building design." Journal of Design Studio, 6, no. 2: 383-395. https://doi.org/10.46474/jds.1556305 CR - Wakhidah, A. Z., Anggraini, E., Hanifah, M., Nurlillah, R.,and Mulyani, S., (2024). "Urban Green Open Space in Metro, Lampung, Indonesia: Vegetation Structure, History, and Function." Media Konservasi, 29, no. 2: 272-272. https://doi.org/10.29244/medkon.29.2.272 CR - Wazir, Z.A., and Indriani, I., (2019). "Vernacular answers to spatial needs of human activities: Indonesian houses." Dimensi: Journal of Architecture and Built Environment 46, no. 2 141-154. https://doi.org/10.9744/dimensi.46.2.141-154 CR - Williams, Daniel E., (2007). Sustainable Design: Ecology, architecture, and planning. John Wiley & Sons. CR - Yuan, Yanping, Yu, X., Yang, X., Xiao, Y., Xiang, B., and Wang, Y.. (2017). "Bionic building energy efficiency and bionic green architecture: A review." Renewable and Sustainable Energy Reviews. 74, 771-787. https://doi.org/10.1016/j.rser.2017.03.004 UR - https://doi.org/10.46474/jds.1678097 L1 - https://dergipark.org.tr/en/download/article-file/4781850 ER -