Carpino, CristinaAustin, Miguel ChenTurhan, CihanMora, Dafni Y.Arcuri, N.2025-10-062025-10-0620259788860462022978886046191997888604617669788860460745978886046058597888604613602531-670210.13124/9788860462022_412-s2.0-105014500036https://doi.org/10.13124/9788860462022_41https://hdl.handle.net/20.500.14411/10854The net-zero energy concept significantly impacts global goals regarding energy accessibility (SDG 7) and responsible consumption (SDG 12), particularly in the building sector, which accounts for substantial energy use and greenhouse gas emissions. While extensive research on Net Zero Energy Buildings (NZEB) has focused on the global north, tropical regions require further study, where high solar radiation, temperatures, and humidity challenge building performance throughout the year. Addressing problems like mold growth caused by these tropical climate aspects can undermine NZEB's performance. This study aims to evaluate the impact of mold growth on a representative building under the tropical climate of Panama City (high temperatures and humidity) and Boquete (low temperatures and high humidity). Long-term hygrothermal and energy performance analyses are conducted using simulation software to assess when and how mold growth affects building performance. Mold can harm the health of occupants and increase energy consumption, as additional humidity control devices may be required after the building's design phase. © 2025 Elsevier B.V., All rights reserved.eninfo:eu-repo/semantics/closedAccessArchitectural DesignComputer SoftwareEnergy UtilizationGreen BuildingsGreenhouse Gas EmissionsGreenhouse GasesTropicsZero Energy BuildingsBuilding PerformanceBuildings SectorEnergyEnergy ConceptHigh HumidityMould GrowthSubstantial EnergyTemperature and HumiditiesTropical ClimatesZero EnergiesMoldsConference Object