Course Details
Computer modeling 1
Academic Year 2023/24
NTA039 course is part of 1 study plan
NPC-EVB Summer Semester 1st year
Schedule:
1. Modeling and simulation of time-based heat conduction - power and surface temperatures of thermally activated structures.
2. Numerical modeling of time-uninterrupted heat conduction - reheating and cooling of the wall.
3. Simulation of time-uninterrupted heat conduction - reheating and cooling of thermally activated structures.
4. Modeling the energy performance of a building I. Marginal conditions of simulations. Climate data, use profile, regulation.
5. Modeling the energy performance of a building II - a detailed model of the building's thermal load.
6. Modeling the energy performance of TZB I systems - heating, ventilation and cooling systems.
7. Modeling of energy performance of TZB II systems - dynamic behavior of heating and cooling bodies.
1. Modeling and simulation of time-based heat conduction - power and surface temperatures of thermally activated structures.
2. Numerical modeling of time-uninterrupted heat conduction - reheating and cooling of the wall.
3. Simulation of time-uninterrupted heat conduction - reheating and cooling of thermally activated structures.
4. Modeling the energy performance of a building I. Marginal conditions of simulations. Climate data, use profile, regulation.
5. Modeling the energy performance of a building II - a detailed model of the building's thermal load.
6. Modeling the energy performance of TZB I systems - heating, ventilation and cooling systems.
7. Modeling of energy performance of TZB II systems - dynamic behavior of heating and cooling bodies.
Course Guarantor
Institute
Prerequisites
Prerequisites: Knowledge of physical laws in the field of heat transfer and materials and thermomechanics. Basic knowledge of numerical methods. Knowledge of heating, ventilation and cooling systems of buildings. Knowledge of indoor climate of buildings.
Language of instruction
Czech
Credits
2 credits
Semester
summer
Forms and criteria of assessment
course-unit credit
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
Exercise
13 weeks, 2 hours/week, compulsory
Syllabus
1. Modeling and simulation of time-based heat conduction - power and surface temperatures of thermally activated structures.
2. Numerical modeling of time-uninterrupted heat conduction - reheating and cooling of the wall.
3. Simulation of time-uninterrupted heat conduction - reheating and cooling of thermally activated structures.
4. Modeling the energy performance of a building I. Marginal conditions of simulations. Climate data, use profile, regulation.
5. Modeling the energy performance of a building II - a detailed model of the building's thermal load.
6. Modeling the energy performance of TZB I systems - heating, ventilation and cooling systems.
7. Modeling of energy performance of TZB II systems - dynamic behavior of heating and cooling bodies.