Course Details

Computer modeling 2

Academic Year 2024/25

NTA041 course is part of 1 study plan

NPC-EVB Winter Semester 2nd year

The course is focused on numerical modeling and computer simulations of heat and mass transfer in buildings and elements of building energy systems. Students will learn the basics of CFD simulations and heat transfer simulations in buildings.

Credits

4 credits

Language of instruction

Czech

Semester

winter

Course Guarantor

prof. Ing. Ondřej Šikula, Ph.D.

Institute

Institute of Building Services

Forms and criteria of assessment

course-unit credit and examination

Entry Knowledge

Knowledge of physical laws in terms of heat and substance transfer. Basic knowledge of numerical methods. Knowledge of heating, ventilation and cooling systems of buildings. Knowledge of indoor climate of building theory and computer modeling I.

Basic Literature

PLÁŠEK, Josef a Ondřej ŠIKULA, 2012. Modelování tepelného sálání v budovách. Brno: Vysoké učení technické v Brně, Fakulta stavební, Centrum AdMaS - Advanced Materials, Structures and Technologies, 150 s. ISBN 978-80-214-4383-9. Dostupné také z: www.researchgate.net/profile/Ondrej_Sikula/ (cs)
INCROPERA, Frank P., David P. DEWITH, Theodore L. BERGMANN a Lavine ADRIENNE S., 2007. Introduction to heat transfer. 5th ed. Danvers: John Wiley, 901 s. ISBN 978-0-471-45727-5. (en)
VERSTEEG, H a W MALALASEKERA, 2007. An introduction to computational fluid dynamics: the finite volume method. 2nd ed. Harlow: Pearson Prentice Hall, xii, 503 s. ISBN 978-0-13-127498-3. (cs)
ČSN EN ISO 10211-1, 2009. Tepelné mosty ve stavebních konstrukcích - Tepelné toky a povrchové teploty: Podrobné výpočty. Praha: ČNI. (cs)
ŠIKULA, Ondřej, 2009. Manuál k softwaru CalA. Brno: Tribun EU. ISBN 978-80-7399-879-0. (cs)
2021 ASHRAE Handbook -- Fundamentals (SI), 2021. Atlanta: ASHRAE. ISBN 978-1-947192-90-4. (en)
KRAJČÍK, Michal a Ondřej ŠIKULA, 2020. Heat storage efficiency and effective thermal output: Indicators of thermal response and output of radiant heating and cooling systems: Indicators of thermal response and output of radiant heating and cooling systems. Energy and Buildings. 229, 110524. ISSN 0378-7788. Dostupné z: doi:https://doi.org/10.1016/j.enbuild.2020.110524 (en)

Recommended Reading

Offered to foreign students

Not to offer

Course on BUT site

https://www.vut.cz/en/students/courses/detail/281725

Lecture

13 weeks, 1 hours/week, elective

Syllabus

Schedule:

  • 1. Modeling and simulation of time-unchanged heat sharing for substance changes (PCM).
  • 2. Modeling the radiant component of indoor building climate.
  • 3. CFD Modeling and Simulation - Introduction.
  • 4. CFD Modeling and Simulation - Theory 1.
  • 5. CFD Modeling and Simulation - Theory 2.
  • 6. CFD Simulation - Software Applications 1.
  • 7. CFD Simulation - Software Applications 2.
  • 8. CFD Simulation - Software Applications 3.
  • 9. Current Topics in CFD Modeling and Simulation 1.
  • 10. Current topics in CFD Modeling and Simulation 2.

Exercise

13 weeks, 2 hours/week, compulsory

Syllabus

Schedule:

  • 1. Modeling and simulation of time-unchanged heat sharing for substance changes (PCM).
  • 2. Modeling the radiant component of indoor building climate.
  • 3. CFD simulation of laminar fluid flow in the pipeline - diffuser.
  • 4. CFD simulation of turbulent fluid flow in the pipeline - knee.
  • 5. CFD simulation of airflow in an induction unit.
  • 6. CFD simulation of wind pressure on a building.
  • 7. CFD simulation of natural convection.
  • 8. CFD Simulation of Room Thermal Comfort I.
  • 9. CFD simulation of Room Thermal Comfort II.
  • 10.CFD simulation of Room Thermal Comfort III