VŠTE:B_SFY_1 Building Physics I. - Course Information

B_SFY_1 Building Physics I.

Extent and Intensity

2/2/0. 5 credit(s). Type of Completion: zk (examination).

Teacher(s)

Ing. Pavlína Charvátová, Ph.D. (seminar tutor)

Guaranteed by

Ing. Pavlína Charvátová, Ph.D.
Department of Civil Engineering – School of Expertness and Valuation – Rector – Institute of Technology and Business in České Budějovice
Supplier department: Department of Civil Engineering – School of Expertness and Valuation – Rector – Institute of Technology and Business in České Budějovice

Timetable of Seminar Groups

B_SFY_1/K07: Sat 28. 2. 16:30–18:00 B3, Sat 21. 3. 8:00–12:30 E1, Sun 19. 4. 8:00–12:30 B3, Sun 17. 5. 8:00–9:30 B3, P. Charvátová
B_SFY_1/P01: Mon 11:25–12:55 B1, P. Charvátová
B_SFY_1/S01: Fri 8:00–9:30 D315, P. Charvátová
B_SFY_1/S03: Fri 9:40–11:10 I102, P. Charvátová
B_SFY_1/S04: Tue 8:00–9:30 D315, P. Charvátová
B_SFY_1/S06: Tue 9:40–11:10 D315, P. Charvátová

Prerequisites

FYS_a Physics || FYS Physics || B_FYZ_1 Physics
Completion of the course Physics (FYS_a)

Course Enrolment Limitations

The course is offered to students of any study field.

Course objectives supported by learning outcomes

The aim is to present technical parameters of thermal structures in order to minimize the energy performance of buildings.

Learning outcomes

After successful completion of the course the student is able to summarize the basic requirements of thermal and technical standards; S/he is able to control the heat calculation program, Area, Energy (Freedom Software) S/he can design a track structure enveloping the heated area; S/he can calculate and assess the heat transfer coefficient, the average heat transfer coefficient, linear thermal transmittance, a minimum surface temperature, water vapor condensation.

Syllabus

• ­1. Boundary conditions for heat-technical calculations
• 2. Thermal properties of building materials
• 3. Heat transfer, Fourier's law
• 4. Thermal resistance, heat transfer coefficient
• 5. Linear thermal transmittance
• 6. The inner surface temperature
• 7. Diffusion and condensation of water vapor
• 8. Setpoint, the temperature drop touch the floor structure
• 9. Thermal stability in summer
• 10. Thermal stability in winter
• 11. Building energy performance buildings
• 12. The need of energy for heating
• 13. Summary, repetition, news

Literature

required literature
• MEDVED, S. 2022. Building Physics. Cham: Springer International Publishing, Springer Tracts in Civil Engineering. ISBN 978-3-030-74389-5. Dostupné z: doi:10.1007/978-3-030-74390-1
• BOŠOVÁ, D a F. KULHÁNEK. 2019. Stavební fyzika II: stavební tepelná technika. 6., přeprac. vyd., 1. dotisk Praha: České vysoké učení technické, ISBN 978-80-01-05645-5.
• KNAACK U. a E. KOENDERS. 2018. Building Physics of the Envelope: Principles of Construction. Birkhäuser, 2018. ISBN 978-30-356-0949-3
• PINTERIĆ, M. 2021. Building Physics [online]. Cham: Springer International Publishing, ISBN 978-3-030-67371-0. Dostupné z: doi:10.1007/978-3-030-67372-7

recommended literature
• ČESKO. ČSN 73 0540-4: 2005 Tepelná ochrana budov. Část 4: Výpočtové metody.
• ČESKO. ČSN 73 0540-1: 2005 Tepelná ochrana budov. Část 1: Terminologie.
• ČESKO. ČSN EN ISO 13789 (2019): Tepelné chování budov – Měrné tepelné toky prostupem tepla a větráním - Výpočtová metoda.
• ČESKO. ČSN EN ISO 6946: 2020 Stavební prvky a stavební konstrukce-tepelný odpor a součinitel prostupu tepla – Výpočtové metody
• ČESKO. ČSN EN ISO 52016-1 (730336): Energetická náročnost budov – Potřeba energie na vytápění a chlazení, vnitřní teploty a citelné a latentní tepelné výkony - Část 1: Výpočtové postupy
• ČESKO. ČSN 73 0540-3: 2005 Tepelná ochrana budov. Část 3: Návrhové hodnoty veličin.
• KULHÁNEK, F. 2009. Stavební fyzika: stavební tepelná technika. 4. Vydání. Praha: ČVUT. ISBN 978-80-01-04239-7.
• KULHÁNEK, F. 2011. Stavební fyzika II: Stavební tepelná technika II. Praha: ČVUT. ISBN 978-80-01-04957-0.
• ČESKO. ČSN 73 0540-2: 2011 Tepelná ochrana budov. Část 2: Požadavky.
• HENS, H.S.L. 2012. Building Physics -- Heat, Air and Moisture: Fundamentals and Engineering Methods with Examples and Exercises. John Wiley & Sons, 2012. ISBN 978-34-336-0130-3.
• ČESKO. ČSN EN ISO 10211 (730551): Tepelné mosty ve stavebních konstrukcích – Tepelné toky a povrchové teploty – Podrobné výpočty
• ČESKO. ČSN EN ISO 52003-1 (2022): Energetická náročnost budov – Ukazatele, požadavky, hodnocení a průkazy – Část 1: Obecné aspekty a aplikace celkové energetické náročnosti

Organizační formy výuky

Lecture
Exercise
Tutorial
Consultation

Komplexní výukové metody

Frontal Teaching
Group Teaching - Cooperation
Group Teaching - Collaboration
Individual Work– Individual or Individualized Activity
computer-assisted instruction
discussion

Student Workload

Activities	Number of Hours of Study Workload
	Daily Study	Combined Study
Preparation for Lectures	13
Preparation for Seminars, Exercises, Tutorial	26	75
Preparation for the Final Test	26	26
Seminar tasks	13	13
Attendance on Lectures	26
Attendance on Seminars/Exercises/Tutorial/Excursion	26	16
Total:	130	130

Metody hodnocení a jejich poměr

Exam – written 70%
seminar tasks 30%

Podmínky testu

Write 1 final test for 70% of 70 points (14 questions of 5 points each). Up to 30 points can be obtained from exercises from the exercises, which must be submitted before the exam (evaluation of tasks 0-30 points). The maximum number of points from both parts is 100. To successfully complete the course, it is necessary to achieve at least 70 points, ie 70%. Overall classification of the subject, ie points for the test (70 - 0) + points from the continuous assessment (30 - 0): A 100 - 90, B 89,99 - 84, C 83,99 - 77, D 76,99 - 73, E 72.99 - 70, FX 69.99 - 30, F 29.99 - 0.

Language of instruction

Czech

Teacher's information

Attendance at classes in all forms is solved by a separate internal standard of VŠTE (Records of student attendance at VŠTE). For full-time students, 70 percent attendance at seminars and seminars is mandatory.

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