Course Details
Building Physics 2
Academic Year 2023/24
AH007 course is part of 1 study plan
B-P-C-APS (N) / APS Summer Semester 3rd year
In order to ensure protection against noise in buildings need to be addressed insulation both vertical and horizontal separation structures and cladding. The room acoustic enclosure is rated in terms of reverberation time, the urban acoustic attenuation rate in the outdoors. In addition to acoustic performance must be in the interior of the building and ensure visual comfort, ie. there must be adequate interior lighting with daylight and the insolation.
Course Guarantor
Institute
Objective
design of dividing building constructions from the viewpoint of requirement on air-borne and structure-borne sound insulation, rate of closed area from the viewpoint of requirement on the reverberation time, rate of the noise on workplaces, in protected inner and outdoor space of buildings, attenuation of a noise in outdoor acoustics, design of aperture panes with respect to
reservation requisite lighting of interior with daylight, requisite insolation in living buildings
reservation requisite lighting of interior with daylight, requisite insolation in living buildings
Knowledge
By attending the course the students will gain basic knowledge of boundary and divisionary structures of building with respect to sound-reduction and daylighting. They will learn how to acquire the reverberation time of closed spaces (ie. rooms), how to evaluate the noise levels of parking spaces in the protected outdoor and indoor locations of buildings, as well as how to efficiently place and design the openings for with respect to daylighting design of the interiors of buildings and how to meet the demands for the insolation of residential buildings.
Syllabus
1.Physical fundamentals of acoustics
2. rate of noise
3. attenuation of a noise in outdoor acoustics
4. room acoustics, acoustic absorptivity,
5.Reverberation time of assign room
6. Sound reduction of engineering structure
7. rate of air-borne sound insulation
8. rate of structure-borne sound insulation
9. determination of air-borne sound insulation graphically-count method according to Watters
10. daylighting of building-direct solar radiation
11. diagram of the shading and checking of insolation
12. light of the sky
13. checking of the daylight factor of room
2. rate of noise
3. attenuation of a noise in outdoor acoustics
4. room acoustics, acoustic absorptivity,
5.Reverberation time of assign room
6. Sound reduction of engineering structure
7. rate of air-borne sound insulation
8. rate of structure-borne sound insulation
9. determination of air-borne sound insulation graphically-count method according to Watters
10. daylighting of building-direct solar radiation
11. diagram of the shading and checking of insolation
12. light of the sky
13. checking of the daylight factor of room
Prerequisites
Basic knowledge from mathematic and statistic, knowledge of basics physical quantities, building materials and principle of composition of building structures with solution building details.
Language of instruction
Czech
Credits
2 credits
Semester
summer
Forms and criteria of assessment
course-unit credit and examination
Specification of controlled instruction, the form of instruction, and the form of compensation of the absences
Extent and forms are specified by guarantor’s regulation updated for every academic year.
Offered to foreign students
Not to offer
Course on BUT site
Lecture
13 weeks, 1 hours/week, elective
Syllabus
1.Physical fundamentals of acoustics
2. rate of noise
3. attenuation of a noise in outdoor acoustics
4. room acoustics, acoustic absorptivity,
5.Reverberation time of assign room
6. Sound reduction of engineering structure
7. rate of air-borne sound insulation
8. rate of structure-borne sound insulation
9. determination of air-borne sound insulation graphically-count method according to Watters
10. daylighting of building-direct solar radiation
11. diagram of the shading and checking of insolation
12. light of the sky
13. checking of the daylight factor of room
Exercise
13 weeks, 1 hours/week, compulsory
Syllabus
1.Physical fundamentals of acoustics
2. rate of noise
3. attenuation of a noise in outdoor acoustics
4. room acoustics, acoustic absorptivity,
5.Reverberation time of assign room
6. Sound reduction of engineering structure
7. rate of air-borne sound insulation
8. rate of structure-borne sound insulation
9. determination of air-borne sound insulation graphically-count method according to Watters
10. daylighting of building-direct solar radiation
11. diagram of the shading and checking of insolation
12. light of the sky
13. checking of the daylight factor of room