References
- Akadiri, P. O., E. A. Chinyio, and P. O. Olomolaiye. 2012. “Design of a Sustainable Building: A Conceptual Framework for Implementing Sustainability in the Building Sector.” Buildings 2 (2): 126–152. doi:10.3390/buildings2020126
- Bano, F., and V. Sehgal. 2018. “Evaluation of Energy-Efficient Design Strategies: Comparison of the Thermal Performance of Energy-Efficient Office Buildings in Composite Climate, India.” Solar Energy 176: 506–519.
- Danielski, I. 2016. “Energy Performance of Residential Buildings: Projecting, Monitoring and Evaluating.” Doctoral diss., Mittuniversitetet.
- Gui, X. C., Y. T. Ma, S. Q. Chen, and J. Ge. 2018. “The Methodology of Standard Building Selection for Residential Buildings in Hot Summer and Cold Winter Zone of China.” Journal of Building Engineering 18: 352–359.
- Guidelines for Green Architecture in Syria. 2013. Guidelines for Green Architecture in Syria. Damascus: Syrian Engineering Association Publications.
- Hanna, G. 2010. "Energy Efficient Residential Building Code for Arab Countries." International Conference for Enhanced Building Operations, Kuwait.
- Hassan, B., and M. Beshara. 2019. “Using Renewable Energy Criteria for Construction Method Selection in Syrian Buildings.” Jordan Journal of Mechanical & Industrial Engineering 13 (2): 125–130.
- Herczeg, M., D. McKinnon, L. Milios, I. Bakas, E. Klaassens, K. Svatikova, and O. Widerberg. 2014. “Resource Efficiency in the Building Sector.” Final Report. Prepared for European Commission. ECORYS and Copenhagen Resource Institute, Rotterdam, the Netherlands.
- Hiller, C. 2012. “Influence of Residents on Energy Use in 57 Swedish Houses Measured During Four Winter Days.” Energy and Buildings 54: 376–385.
- The International Atomic Energy Agency (IAEA). 2017. Country Nuclear Power Profiles: Syrian Arab Republic. 2017 ed. Accessed July 2020. https://www-pub.iaea.org/MTCD/Publications/PDF/cnpp2017/countryprofiles/SyrianArabRepublic/SyrianArabRepublic.htm.
- Kasparek, M., and M. Dimashki. 2009. “Country Environmental Profile for the Syrian Arab Republic.” European Commission. Accessed February 2020. file:///C:/Users/Computer/Downloads/CEPfinalohneAussentitel.pdf.
- Kumar A. B. D. 2012. “Indexing of Building Materials with Embodied, Operational Energy and Environmental Sustainability with Reference to Green Buildings.” Journal of Pure and Applied Science & Technology 2 (1): 11–22.
- Salkini, H., B. Swaid, L. Greco, and R. Lucente. 2017. “Embodying a New Bio-Climatic Design in the Rehabilitation Process of the Historical Context of Aleppo Post-War.” World Heritage and Disaster, Italy. https://d1wqtxts1xzle7.cloudfront.net/53805779/Naples_2017_XV_Forum_Proceedings.pdf?1499616492=&response-content-disposition=inline%3B+filename%3DEmbodying_a_New_Bio_Climatic_Design_in_t.pdf.
- Statistics. 2010. “Housing Indicators in Damascus Governorate.” Central Bureau of Statistics, 46–56. Accessed September 2018. http://cbssyr.sy/studies/st24.
- Straube, J. 2017. Meeting and Exceeding Building Code Thermal Performance Requirements. Canada: Canadian Precast/Prestressed Concrete Institute.
- Sullivan, W. G., E. M. Wicks, and C. P. Koelling. 2015. Engineering Economy. 16th ed. USA: Pearson.
- Thormark, C. 2006. “The Effect of Material Choice on the Total Energy Need and Recycling Potential of a Building.” Building and Environment 41 (8): 1019–1026.
- WBG. 2017. “The Toll of War: The Economic and Social Consequences of the Conflict in Syria.” Accessed September 2018. http://www.worldbank.org/ en/country/syria/publication/the-toll-of-warthe-economic-and-social-consequences-of-theconflict-in-syria.