Course Details

Experimental methods and measurements

Academic Year 2024/25

NTA037 course is part of 1 study plan

NPC-EVB Winter Semester 1st year

Course Guarantor

Institute

Language of instruction

Czech

Credits

4 credits

Semester

winter

Forms and criteria of assessment

course-unit credit

Offered to foreign students

Not to offer

Course on BUT site

Lecture

13 weeks, 2 hours/week, elective

Syllabus

1. Measuring equipment, principles of implementation of the experiment, the accuracy of measurement, processing of data. 2. Monitoring of hydraulic behaviour of internal water system, water hammer, hydraulic characteristic of outlet accessories of sanitary draw-of taps. 3. Flow rate measuring, determination of pump head-capacity curve, determination of system curve. 4. Monitoring of thermal behaviour of internal water system, heating and cool down of hot water storage tank. 5. Illumination measuring. The artificial lighting. The efficiency light sources. 6. The cooling circuit, pressures of refrigerant, cooling capacity. 7. Settings and functions of the controller. 8. Fan curve and pressure conditions in air ducts. 9. Acoustic microclimate and source of noise. 10. Smoke test of flow pattern using distributive elements models. 11. Structural design of radiators. 12. Wall heating, assessment of heat flow rate and surface coefficient of heat transfer, heat exchanger. 13. Heating systems valves curves, determination of plate exchange output.

Exercise

13 weeks, 2 hours/week, compulsory

Syllabus

1. Instruction lab work with measuring equipment. 2. Monitoring of hydraulic behaviour of internal water system, water hammer, hydraulic characteristic of outlet accessories of sanitary draw-of taps. 3. Flow rate measuring, determination of pump head-capacity curve, determination of system curve. 4. Monitoring of thermal behaviour of internal water system, heating and cool down of hot water storage tank. 5. Illumination measuring. The artificial lighting. The efficiency light sources. 6. The cooling circuit, pressures of refrigerant, cooling capacity. 7. Settings and functions of the controller. 8. Fan curve and pressure conditions in air ducts. 9. Acoustic microclimate and source of noise. 10. Smoke test of flow pattern using distributive elements models. 11. Structural design of radiators. 12. Wall heating, assessment of heat flow rate and surface coefficient of heat transfer, heat exchanger. 13. Heating systems valves curves, determination of plate exchange output.