Examining Carbon Emissions in Building Materials: A Case Study of Government Buildings in Pokhara Metropolitan City

Abstract

Numerous studies placed particular emphasis on reducing carbon emissions from operations, often ignoring the importance of embodied carbon emissions. To evaluate the embodied carbon emissions associated with government buildings in Pokhara Metropolitan City, a systematic process-based approach was used to estimate the total embodied carbon over the lifetime of these structures. The research findings reveal that the cumulative embodied carbon emissions stemming from these buildings contributed a total of1281.56 metric tons (Mt) and 12504540.5 MJ of embodied energy. Furthermore, the study explored the potential for reducing these emissions by adopting alternative construction materials. In particular, the inclusion of AAC (Autoclaved Aerated Concrete) blocks, hollow cement concrete blocks, and stabilized soil blocks (8% cement)in the same building demonstrated reductions in total emissions by 5.56%, 4.38%, and 5.16%, respectively. It is crucial to acknowledge that this study primarily focuses on the construction stage of the building and exclusively considers civil construction materials. It did not encompass elements such as sanitary and electrical fixtures or other stages in the building's lifecycle, including operation and maintenance and eventual demolition. Consequently, it is recommended that future research endeavors undertake a more comprehensive analysis, encompassing electrical and sanitary fixtures, as well as all phases of a building's lifecycle, to gain a more holistic understanding of embodied carbon emissions in government buildings