ABSTRACT
Aligned with the recent trend of climate change mitigation and adaptation to rapid urbanization, sustainable urban development is crucial for creating resilient communities. Various international green building councils have developed Neighborhood Sustainability Assessment (NSA) tools that played an effective role in the urban growth of neighborhoods. However, there is no current NSA tool that includes all the categories required to achieve sustainability. Therefore, ten NSA tools were selected, analyzed, and compared. For an applicable comparative analysis, re-categorization and unifying processes of the selected NSA tools were performed. As a result, new integrated criteria were developed including seven main categories offering a valuable resource for evaluating neighborhood sustainability. The results also revealed that WELL Community V2 Q4, Fitwel CM V2.1, and BREEAM-CM V2012 tools demonstrate the highest efficiency by possessing six out of the seven integrated categories. The other NSA tools need to be improved with regard to the dimensions of sustainability. Furthermore, it was noted that all the selected NSA tools give major attention to the environmental conditions and facilities; however, other aspects such as the social, economic, and institutional features are being ignored. To sum up, the study proposes a novel approach that addresses these shortcomings by providing a more comprehensive framework that aims to support policy development and improve the effectiveness of neighborhood sustainability assessments.
Disclosure statement
No potential conflict of interest was reported by the author(s).
Authors’ contributions
Elkamhawy was responsible for the literature review, data analysis, writing, review, and editing of the manuscript. El.Eashy and Elfiky provided supervision. All authors have read and approved the final manuscript.
Data availability statement
All data generated or analyzed during this study are provided in the submitted article and the Supplementary material.
Supplementary material
Supplemental data for this article can be accessed online at https://doi.org/10.1080/13504509.2023.2255562.