Mosques are religious buildings that can be worshiped individually at any time of the day or collectively at certain periods of time. The usage density of mosques and the type of users vary depending on the days and months. For this reason, it should be evaluated differently from other building types in terms of thermal comfort. It is difficult to ensure homogeneous thermal comfort in buildings with large volumes and areas, such as mosques. In this study, the results of energy simulations made according to design parameters were analyzed in order to minimize energy consumption while ensuring thermal comfort conditions of mosques in temperate humid climate. While providing thermal comfort conditions in mosques, the optimum thickness of the insulation material used in the building envelope was examined according to the TS 825 regulation. In addition, the effect of plan scheme (square, rectangle, circle), size (small, medium, large) and roof type (single dome, multiple domes, pyramidal and flat roof) on energy consumption was examined. The findings are expected to contribute to the designs of existing and future mosques.