| 1 | Introduction to energy simulation and basic concepts | [1], [2] |
| 2 | Energy performance in buildings and influencing factors | [1], [2] |
| 3 | Overview of energy simulation software (EnergyPlus, DesignBuilder, etc.) | [1], [2] |
| 4 | Introduction to software interfaces and project creation stages | [1], [2] |
| 5 | Defining climate data, building geometry, and material properties | [1], [2] |
| 6 | Integrating heating, cooling, and ventilation systems into the model | [1], [2] |
| 7 | Modeling lighting and internal gains | [1], [2] |
| 8 | Midterm exam | |
| 9 | Starting the simulation and obtaining outputs | [1], [2] |
| 10 | Analysis of energy consumption values ??and comparative evaluation | [1], [2] |
| 11 | Heat gain/loss analysis and load calculations | [1], [2] |
| 12 | Creating simulation scenarios for energy efficiency improvements | [1], [2] |
| 13 | Developing design recommendations based on simulation results | [1], [2] |
| 14 | Practical project: Conducting an energy simulation of a simple building | [1], [2] |
| 15 | Project presentations and general evaluation | [1], [2] |