Incorporating an atrium as a HAVC element for energy consumption reduction and thermal comfort improvement in a Polish climate.

• The atrium can be used as an element of a mechanical ventilation system. • IES-VE was used to estimate possibility of using atrium to provide thermal comfort. • In buildings, artificial lighting should be regulated in daylight function. • <10% of the hours beyond thermal comfort were obtained during academic year. • Using the atrium as a heat buffer 22%primary energy was obtained. The form, attractiveness, functionality, and exterior appearance of buildings have been important considerations in architecture for centuries. Large common spaces, sharing of daylight, and the use of large glazing are also important. Combining many of these factors, buildings with atriums form a focal point, create a social meeting place, and contribute to the attractiveness of the building by providing a large open interior space. In cold and moderate climates, the atrium roof is important as the climate is often not conducive to outdoor activities. Using an IES-VE simulation, variants of a building in which the atrium was an independent element of the building or integrated into the ventilation system as a passive heater were analyzed. Additionally, two lighting systems were analyzed: on/off time-dependent control and daylight-dependent control (using dimming profiles for artificial lighting). Integrating the atrium into the HVAC system reduced the primary energy consumption for air heating by 17–22%. Using regulated lighting lowered the number of overheating hours. Factoring when the building was used (academic year), the atrium variants met thermal comfort requirements for 90% of its useful time, which did not occur when the atrium was not integrated. Therefore, integrating an atrium with an HVAC system can reduce energy consumption while providing thermal comfort to users. [ABSTRACT FROM AUTHOR]