Rashid, Farhan LaftaAl-Obaidi, Mudhar A.Al Maimuri, Najah M. L.Ameen, ArmanAgyekum, Ephraim BonahChibani, AtefKezzar, Mohamed2025-08-152025-08-1520252075-530910.3390/buildings151425792-s2.0-105011659698https://doi.org/10.3390/buildings15142579https://hdl.handle.net/20.500.14517/8212Lafta Rashid, Farhan/0000-0002-7609-6585; Chibani, Atef/0000-0002-5861-7498;As the demand for energy-efficient homes continues to rise, the importance of advanced mechanical ventilation systems in maintaining indoor air quality (IAQ) has become increasingly evident. However, challenges related to energy balance, IAQ, and occupant thermal comfort persist. This review examines the performance of mechanical ventilation systems in regulating indoor climate, improving air quality, and minimising energy consumption. The findings indicate that demand-controlled ventilation (DCV) can enhance energy efficiency by up to 88% while maintaining CO2 concentrations below 1000 ppm during 76% of the occupancy period. Heat recovery systems achieve efficiencies of nearly 90%, leading to a reduction in heating energy consumption by approximately 19%. Studies also show that employing mechanical rather than natural ventilation in schools lowers CO2 levels by 20-30%. Nevertheless, occupant misuse or poorly designed systems can result in CO2 concentrations exceeding 1600 ppm in residential environments. Hybrid ventilation systems have demonstrated improved thermal comfort, with predicted mean vote (PMV) values ranging from -0.41 to 0.37 when radiant heating is utilized. Despite ongoing technological advancements, issues such as system durability, user acceptance, and adaptability across climate zones remain. Smart, personalized ventilation strategies supported by modern control algorithms and continuous monitoring are essential for the development of resilient and health-promoting buildings. Future research should prioritize the integration of renewable energy sources and adaptive ventilation controls to further optimise system performance.eninfo:eu-repo/semantics/closedAccessBuildingsMechanical VentilationClimate ManagementVentilation SystemsReviewArticleQ2Q21514WOS:001535652500001