Building Services Systems 2

Course guarantor:

Daniel Adamovský

Lecturer:

Daniel Adamovský, Bohumír Garlík

Tutor:

Jan Říha, Miroslav Urban, Zuzana Veverková

Supervisor:

Department of Indoor Enviromental and Building Services Engineering

Synopsis:

The course is intended for students of Civil Engineering, providing them with the basic technical knowledge necessary for the design, assessment, and coordination of technical systems in buildings. In the section devoted to ventilation, students will learn about the importance of ventilation and indoor environmental quality, the principles of natural, hybrid, and forced ventilation, and ways to reduce energy consumption. Air flow in rooms and ducts, acoustic aspects of ventilation, basic principles of cooling and air conditioning, types of air conditioning systems, and fire ventilation are also discussed.

The electrical installation part provides students of construction with an overview of the basics of electrical engineering, electrical networks, and distribution in buildings. It focuses on the principles of design and implementation of electrical installations, the transition to intelligent systems, safety and protection against electric shock, the design of electrical equipment, and its integration with renewable sources. It also includes basic artificial lighting design and the issues of lightning protection and surge protection.

The course creates a basic technical framework that enables civil engineers to better understand how buildings work, coordinate individual professions, and design energy-efficient, safe, and high-quality indoor environments.

Requirements:

no requirements

Syllabus of lectures:

Air quality, objectives, and reasons.

Principles of ventilation systems and their impact on energy consumption.

Basics of air flow, prevention of noise propagation in ventilation systems.

Principles of cooling and air conditioning, air conditioning and cooling systems, and their operational and energy consumption.

Principles of fire ventilation.

Elements of ventilation systems.

Basics of electrical engineering, energy and electrical distribution. Types of electrical networks, their analysis in terms of electrical installations.

Principles of electrical installation in buildings and their implementation. Types and selection of their design with regard to the transition to their intelligence.

Protection against electric shock, operational safety, and use. Principles of electrical installation design, composition, and equipment. Context of renewable energy sources.

Basic concepts and principles of artificial lighting design.

Lightning protection and surge protection.

Syllabus of tutorials:

Calculation of ventilation air flow for removal of pollutants.

Ventilation design in a simple residential ventilation application.

Air distribution design in the space and forced ventilation system duct layout concept.

Design of parameters and location of ventilation equipment.

Calculation of heat load in air-conditioned space. Cooling capacity design.

Basic processes in humid air and Mollier diagram.

Design conditions for the air conditioning system, air treatment.

Concept of the main electrical distribution in the building.

Design of the apartment's electrical installation, main circuits.

Concept of the design of renewable energy sources.

Principle of artificial lighting design.

Consultation.

Study Objective:

Students will gain a basic overview of ventilation and air conditioning systems in relation to the energy efficiency of buildings and indoor environmental quality. In the second part, students will learn the basics of artificial lighting, electrical wiring, and lightning protection.

Study materials:

! Gebauer G., Horká H., Rubinová O. Vzduchotechnika, Era - vydavatelství, ISBN: 80-7366-027-X, 262 s., 2005.

! Garlík, B. Technická zařízení budov / Elektrická instalace v budovách, Vydavatelství ČVUT, ISBN: 978-80-01-06342-2, 414 s., 2023.

? Santamouris, M; Wouters, P. Building ventilation: the state of the art, Earthscan, ISBN: 9781844071302, 313 s., 2006. (NTK TH7654 .B85 2006)

? Mitchell, J. W., Braun, J. E. Principles of Heating, Ventilation, and Air Conditioning in Buildings, Wiley, ISBN 9780470624579, 600 s., 2013. (NTK TH7222 .M58 2013)

Note:

Further information:

http://tzb.fsv.cvut.cz/?mod=vyuka&kod=125TZ02

Time-table for winter semester 2025/2026:

	06:00–08:0008:00–10:0010:00–12:0012:00–14:0014:00–16:0016:00–18:0018:00–20:0020:00–22:0022:00–24:00
Mon	roomTH:A-334 09:45–11:20 (lecture parallel1 parallel nr.102) Thákurova 7 (budova FSv) roomTH:A-229 16:45–18:20 (lecture parallel1 parallel nr.103) Thákurova 7 (budova FSv) roomTH:A-231 12:20–14:00 (lecture parallel1 parallel nr.104) Thákurova 7 (budova FSv) roomTH:A-834 15:00–16:35 (lecture parallel1 parallel nr.105) Thákurova 7 (budova FSv) roomTH:A-333 16:45–18:20 (lecture parallel1 parallel nr.106) Thákurova 7 (budova FSv)
Tue	roomTH:C-202 18:30–20:05 (lecture parallel1 parallel nr.101) Thákurova 7 (budova FSv)
Wed
Thu
Fri	roomTH:C-202 08:00–09:35 (lecture parallel1) Thákurova 7 (budova FSv)

Time-table for summer semester 2025/2026:

Time-table is not available yet

The course is a part of the following study plans:

• Stavební inženýrství, specializace Pozemní stavby (compulsory course in the program)
• Stavební inženýrství, specializace Pozemní stavby (compulsory course in the program)