Academic year/semester: 2024/25/2

ECTS Credits: 6

Available for: Only for the faculty’s students

Lecture hours: 2
Seminarium:0
Practice: 1
Laboratory: 0
Consultation: -

Prerequisites: none

Course Leader: Prof. Talamon Attila

Faculty: Ybl Miklós Faculty of Architecture and Civil Engineering, 1146 Budapest, Thököly út 74.

Course Description:
Introduction to Building Physics and Energetic, the basic concepts of building energy, building energy calculations Basic concepts of building acoustics.

Competences:
able to distribute, share and prioritize architectural or engineering tasks; able to manage working groups and to integrate the input of other related engineering fields taking part in the design process

Topics:
1. week: Introduction to building physics.
2. week: Heat transmission through solid building boundary structures in stacioner condition
3. week: Forms of moisture transmission in building boundary structures. Vapor diffusion.
4. week: Thermal bridges
5. week: Heat transport with solar radiation. Glazed structures, possibilities of architectural
utilization of solar energy
6. week: Heat transfer in instacioner conditions
7. week: Levels of building energy regulation
8. week: Energy certification of buildings
9. week: Architectural utilization of passive and active solar energy. Shade structures
10. week: Architectural utilization of passive and active solar energy. Shade structures
11. week: Air circulation, natural ventilation.
12. week: Thermal comfort
13. week: Written exam, semester project submission
14. week: Late written exam, late semester project submission

Assessment: 1. SEMESTER PROJECT Building physics calculations for building energy regulation Method for calculating the energy performance of a selected building. Existing status analysis: - Selection of an existing family house (60 m2 minimum) or smaller appartement house. -Analysis of the building from energy efficiency point of view. (architectural features, windows, wall layers, solar orientation, et ) U-value calculation (compliance, non- compliance) -Description and analysis of the the existing active energy systems (heating, cooling, domestic hot water, lighting, connection points to the grid) Labeling the certificate. The final submission and consultation of the semester assignments can only be done electronically at the e-mail address provided by the instructors above: talamon.attila@ybl.uni- obuda.hu max. 50 points 2. END-OF-SEMESTER WRITTEN EXAM End-of-semester dissertation from the topics/fields of the semester presentations. END-OF-SEMESTER DISSERTATION max. 50 points, (min. 30 points). LATE END-OF-SEMESTER WRITTEN EXAM Replacement of the written exam is possible at the end of the semester.

Exam Types:

Written Exam

Compulsory bibliography: -

Recommended bibliography: -

Additional bibliography: -

Additional Information: -