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Curriculum subjectBuilding Automation
| Subject |
| Subject code |
MET317 |
| Subject name |
Building Automation |
| Credit points |
3 ECTS |
| Grading method |
Grade prelim |
| Subject program |
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| Curriculum subject |
| Curriculum |
2018 RO |
| Study year |
4 |
| Semester |
Fall semester |
| Subject type |
Optional |
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Subject loads
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| Lecture |
32 |
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| General description |
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Signs and symbols in the building automation, heat and temperature measurement, flow line diagrams, heating circuits, building automation control systems, heating systems, electrical systems, lighting and low current systems, security and fire alarm and access control systems, information systems, the formation of functional schemes. Heating systems, heat exchangers, boilers, dryers, pumps.
Water meters as part of the automatic control, heat meters and their connection to the system, a two-tariff electricity meters and metering, automation and elevators and weight sensors. Choice of Building Automation control patterns, the formation of the circuit, power-management in automatic systems, HVAC equipment, water cleaning and its automation, VELBUS System and a wireless system "DOMINTELL". LON network-based "Smart House". |
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| General aim |
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| The learner knows and recognizes the bases of process management of heat and building systems and variety of management techniques, the preparation principles of functional schemes, programming principles, compilation of operational algorithms and programming, networking equipment and use of thermal systems. |
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| Aim |
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The learner knows and recognizes:
1) the fundamentals of the process control and a variety of management technologies of heating and building systems; 2) the basic principles of functional scheme drafting;
3) the basic principles of control and programming;
4) the compilation of algorithms and programs;
5) the operational tools of the automation network;
6) functional usage of building automation and heating systems.
The learner is able to:
1) use heating and building automation equipment and measuring instruments;
2) use configurable and controllable networks as well as the automation of security alarms;
3) use simulation softwares;
4) find and eliminate errors in heat and building automation equipment;
5) compile algorithms and programs. |
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| Form description |
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| Lectures, tests, practical works. |
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| Evaluation methods |
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| The course ends with the final account. Positively executed test and practical work are the prerequisites of the accounting. Test consists written questions within the framework of the lecture material. The final grade will turn out from the average grades of the test and the practical work. |
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| Current rounds |
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| None |
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