Course Details

Selected Chapters of Heating

Academic Year 2023/24

NTB026 course is part of 1 study plan

NPC-SIS Summer Semester 1st year

Creation of indoor climate of heated rooms formed under variable conditions and dynamically changing heating losses. One-pipe central heating systems and their design. Radiant heating. Design of integrated interaction system including heating elements, fittings and piping based on thermal and hydraulic balance. Circulation pumps. Design of boilers room, heat transfer stations and combined production of electricity and heat.

Course Guarantor

Institute

Objective

Deepen of knowledge and creation skills for design of internal microclimate of buildings by heating systems.

Knowledge

Student upgrade his qualifications in heating systems in buildings.

Syllabus

1. Method for calculation of heat output in special cases.
2. Heating systems in buildings – dynamic behaviour.
3. Water based large-scale surface embedded heating systems.
4. Radiant heating systems.
5. One pipe heating systems.
6. Circulating pumps in heating systems. Hydraulic stability of heating systems. Control valves.
7. Production of heating water for air-conditioning units and technology.
8. Boiler rooms. Engine rooms. Combined production of electricity and heat. Chimneys and flues.
9. Heating sources for central heat supply. District heating systems.
10. Production and distribution of steam.
11. Transfer stations.
12. Compensation of linear expansion of piping systems.
13. Direct electric heating and storage heating.

Prerequisites

Thermal technology. Fundamentals of HVAC. Basic laws of hydraulics.

Language of instruction

Czech

Credits

4 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, 2 hours/week, elective

Syllabus

1. Method for calculation of heat output in special cases. 2. Heating systems in buildings – dynamic behaviour. 3. Water based large-scale surface embedded heating systems. 4. Radiant heating systems. 5. One pipe heating systems. 6. Circulating pumps in heating systems. Hydraulic stability of heating systems. Control valves. 7. Production of heating water for air-conditioning units and technology. 8. Boiler rooms. Engine rooms. Combined production of electricity and heat. Chimneys and flues. 9. Heating sources for central heat supply. District heating systems. 10. Production and distribution of steam. 11. Transfer stations. 12. Compensation of linear expansion of piping systems. 13. Direct electric heating and storage heating.

Exercise

13 weeks, 2 hours/week, compulsory

Syllabus

1. Method for calculation of heat output in special cases. 2. Heating systems in buildings - dynamic behaviour. 3. Water based large- scale surface embedded heating systems. 4. Radiant heating systems. 5. One pipe heating systems. 6. Circulating pumps in heating systems. Hydraulic stability of heating systems. Proposal of control valves. 7. Production of heating water for air-conditioning units and technology. 8. Boiler rooms. Engine rooms. Combined production of electricity and heat. Chimneys and flues. 9. Heating sources for central heat supply. District heating systems. 10. Production and distribution of steam. 11. Transfer stations. 12. Compensation of linear expansion of piping systems. 13. Direct electric heating and storage heating.