Paper Title
Low Carbon Emission Concrete, Production and Feasibility in Egypt

Abstract
The construction and building industries are responsible for 38% of global carbon emissions. Societies worldwide have the focus on climate change issues, especially in mega industries that have a high impact on carbon emissions. This research focuses on calculating carbon emissions for concrete works using a framework that requires an input of quantities for concrete to calculate carbon emissions and costs for concreting works, furthermore, offering decarbonized alternatives for concreting works that are applicable in the construction industry in Egypt. While getting decarbonization alternatives for the same project, feasibility for before and after decarbonization model is considered as feasibility is one of the main challenges for developing countries to resist the climate change global issue. Accordingly, the new decarbonized model will analyze the difference in carbon emissions reduction versus the costs excess. To illustrate, this study highlights the importance of addressing the difference of reduction percentage of carbon emissions which is around 30% while the difference in cost increase is 3% which is beneficial to all stakeholders to assist in a greener environment without a great consumption in financial resources. The findings underscore the potential of the framework in improving the impact of construction industry in Egypt on the climate resulting in a greener and more sustainable environment which is inspiring to be applied to the construction industry, one of the main challenging industries when related to climate change. Keywords - Climate change, Carbon emissions, Construction industry, Concrete, Cement, Steel, Decarbonization, Egypt.