@inproceedings{discovery10181107,
         address = {Shanghai, China. (Hybrid)},
            note = {This version is the author accepted manuscript. For information on re-use, please refer to the publisher's terms and conditions.},
            year = {2023},
           month = {September},
           title = {Life Cycle Optimisation Study for Retrofitting an Archetype Building in New Cities in Egypt},
       publisher = {IBPSA},
       booktitle = {Proceedings of the Building Simulation 2023, 18th IBPSA International Conference \& Exhibition},
          author = {Abdelaziz, Fady and Raslan, Rokia and Symonds, phil},
        abstract = {This study aims to assess the potential environmental and
economic benefits of retrofitting a residential archetype
building under different scenarios. The study uses life
cycle performance approaches to carry on a retrofitting
scenario for an attached villa archetype in new cities in
Egypt. After identifying three levels of energy retrofit
measures (ERMs), a multi-objective optimisation
framework was developed and carried out upon the case
study model to optimise the Life Cycle Cost (LCC) and
the Life Cycle Carbon Footprint (LCCF). The results of
the study presented 4 different retrofitting scenarios with
various investment costs and significantly improved
operational costs and emissions.},
             url = {https://bs2023.org/index}
}