| 1 | To explain building heating and cooling energy needs by using heat transfer principles, climate data and internal/external heat gain analyses. |
| 2 | To calculate monthly and hourly heating/cooling loads in accordance with TS EN ISO 52016 and interpret the results. |
| 3 | To recognize major HVAC system types (boiler–chiller systems, DX/VRF systems, heat pump systems, central ventilation / air-handling systems) and select an appropriate system for a given building. |
| 4 | To evaluate the performance of system components (fans, pumps, boilers, chillers, coils, heat exchangers, etc.) using efficiency indicators such as COP, EER, SEER and SCOP. |
| 5 | To describe basic control strategies (set-point control, zoning, VAV, demand-based control) and to discuss their impact on comfort, energy efficiency and cost savings. |
| 6 | To assess indoor air quality and thermal comfort conditions in line with relevant standards (TS EN 16798, ASHRAE 62.1 / 55, etc.). |
| 7 | To identify and propose energy efficiency measures (heat recovery, free cooling, improved operating strategies, etc.) that reduce energy consumption and operating cost. |
| 8 | To identify and propose energy efficiency measures (heat recovery, free cooling, improved operating strategies, etc.) that reduce energy consumption and operating cost. |