Fluid and Heat TransportLaajuus (3 cr)
Code: MAP22ET02
Credits
3 op
Objective
After completing the course, the student should be able to make calculations on pipe flow, pumps, fans and hydro turbines as well as on conduction, convection and radiation.
Content
Basic fluid dynamics
Pipe flow
Pumps, fans and hydro turbines
Heat transport through conduction and convection in planar and cylindrical geometry
Convection calculations with dimensionless quantities
Thermal radiation
Qualifications
None
Assessment criteria, satisfactory (1)
Can qualitatively apply Bernoulli's equation and make simple calculations using this equation.
Can calculate pipe friction for single pipes.
Can interpret pump and fan diagrams and make simple calculations based on these.
Can calculate heat flow rates by radiation, conduction and convection.
Can describe how a black-body spectrum depends on temperature.
Can, in typical calculations, use correct symbols and present the calculation fairly systematically.
Assessment criteria, good (3)
Can explain the meaning of the quantities and concepts of major importance in fluid and heat transport, as well as how these quantities depend on each other.
Can do calculations for pipe systems with pumps, turbines and minor losses.
Can calculate equilibrium temperatures in situations with several simultaneous heat flows.
Can calculate temperature profiles in multi-layered walls.
Can do calculations for heat exchangers with constant U-values.
Can explain the principles of thermography.
Can use computerized tools to efficiently analyze and describe relationships in fluid and heat transport.
Assessment criteria, excellent (5)
Can calculate the U-value for a heat exchanger based on the flow conditions in simple geometries.
Can make calculations on the thermal radiation spectrum.
Can derive relationships in flow and heat transport.
Can use computerized tools to make mathematically more complicated calculations in fluid and heat transport.
Enrollment
01.12.2024 - 05.01.2025
Timing
06.01.2025 - 16.02.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Campus
Vasa, Wolffskavägen 33
Teaching languages
- Svenska
Teachers
- Kennet Tallgren
Teacher in charge
Kaj Rintanen
Scheduling groups
- MAP23-K & MAP23-D (Size: 40. Open UAS: 0.)
Groups
-
MAP23D-VIngenjör (YH), maskin- och produktionsteknik, 2023 dagstudier
Small groups
- MAP23-K & MAP23-D
Objective
After completing the course, the student should be able to make calculations on pipe flow, pumps, fans and hydro turbines as well as on conduction, convection and radiation.
Content
Basic fluid dynamics
Pipe flow
Pumps, fans and hydro turbines
Heat transport through conduction and convection in planar and cylindrical geometry
Convection calculations with dimensionless quantities
Thermal radiation
Evaluation scale
H-5
Assessment criteria, satisfactory (1)
Can qualitatively apply Bernoulli's equation and make simple calculations using this equation.
Can calculate pipe friction for single pipes.
Can interpret pump and fan diagrams and make simple calculations based on these.
Can calculate heat flow rates by radiation, conduction and convection.
Can describe how a black-body spectrum depends on temperature.
Can, in typical calculations, use correct symbols and present the calculation fairly systematically.
Assessment criteria, good (3)
Can explain the meaning of the quantities and concepts of major importance in fluid and heat transport, as well as how these quantities depend on each other.
Can do calculations for pipe systems with pumps, turbines and minor losses.
Can calculate equilibrium temperatures in situations with several simultaneous heat flows.
Can calculate temperature profiles in multi-layered walls.
Can do calculations for heat exchangers with constant U-values.
Can explain the principles of thermography.
Can use computerized tools to efficiently analyze and describe relationships in fluid and heat transport.
Assessment criteria, excellent (5)
Can calculate the U-value for a heat exchanger based on the flow conditions in simple geometries.
Can make calculations on the thermal radiation spectrum.
Can derive relationships in flow and heat transport.
Can use computerized tools to make mathematically more complicated calculations in fluid and heat transport.
Qualifications
None
Enrollment
01.12.2024 - 05.01.2025
Timing
06.01.2025 - 16.02.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Faculty of Technology and Seafaring
Campus
Vasa, Wolffskavägen 33
Teaching languages
- Svenska
Degree programmes
- Degree Programme in Industrial Management
Teachers
- Kennet Tallgren
Teacher in charge
Niklas Kallenberg
Groups
-
PRE23D-VIngenjör (YH), produktionsekonomi, 2023 dagstudier
Objective
After completing the course, the student should be able to make calculations on pipe flow, pumps, fans and hydro turbines as well as on conduction, convection and radiation.
Content
Basic fluid dynamics
Pipe flow
Pumps, fans and hydro turbines
Heat transport through conduction and convection in planar and cylindrical geometry
Convection calculations with dimensionless quantities
Thermal radiation
Evaluation scale
H-5
Assessment criteria, satisfactory (1)
Can qualitatively apply Bernoulli's equation and make simple calculations using this equation.
Can calculate pipe friction for single pipes.
Can interpret pump and fan diagrams and make simple calculations based on these.
Can calculate heat flow rates by radiation, conduction and convection.
Can describe how a black-body spectrum depends on temperature.
Can, in typical calculations, use correct symbols and present the calculation fairly systematically.
Assessment criteria, good (3)
Can explain the meaning of the quantities and concepts of major importance in fluid and heat transport, as well as how these quantities depend on each other.
Can do calculations for pipe systems with pumps, turbines and minor losses.
Can calculate equilibrium temperatures in situations with several simultaneous heat flows.
Can calculate temperature profiles in multi-layered walls.
Can do calculations for heat exchangers with constant U-values.
Can explain the principles of thermography.
Can use computerized tools to efficiently analyze and describe relationships in fluid and heat transport.
Assessment criteria, excellent (5)
Can calculate the U-value for a heat exchanger based on the flow conditions in simple geometries.
Can make calculations on the thermal radiation spectrum.
Can derive relationships in flow and heat transport.
Can use computerized tools to make mathematically more complicated calculations in fluid and heat transport.
Qualifications
None
Enrollment
02.12.2023 - 31.12.2023
Timing
01.01.2024 - 09.02.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Faculty of Technology and Seafaring
Campus
Vasa, Wolffskavägen 33
Teaching languages
- Svenska
Degree programmes
- Degree Programme in Industrial Management
Teachers
- Kennet Tallgren
Teacher in charge
Mats Borg
Groups
-
PRE22D-VIngenjör (YH), produktionsekonomi, 2022 dagstudier
Objective
After completing the course, the student should be able to make calculations on pipe flow, pumps, fans and hydro turbines as well as on conduction, convection and radiation.
Content
Basic fluid dynamics
Pipe flow
Pumps, fans and hydro turbines
Heat transport through conduction and convection in planar and cylindrical geometry
Convection calculations with dimensionless quantities
Thermal radiation
Evaluation scale
H-5
Assessment criteria, satisfactory (1)
Can qualitatively apply Bernoulli's equation and make simple calculations using this equation.
Can calculate pipe friction for single pipes.
Can interpret pump and fan diagrams and make simple calculations based on these.
Can calculate heat flow rates by radiation, conduction and convection.
Can describe how a black-body spectrum depends on temperature.
Can, in typical calculations, use correct symbols and present the calculation fairly systematically.
Assessment criteria, good (3)
Can explain the meaning of the quantities and concepts of major importance in fluid and heat transport, as well as how these quantities depend on each other.
Can do calculations for pipe systems with pumps, turbines and minor losses.
Can calculate equilibrium temperatures in situations with several simultaneous heat flows.
Can calculate temperature profiles in multi-layered walls.
Can do calculations for heat exchangers with constant U-values.
Can explain the principles of thermography.
Can use computerized tools to efficiently analyze and describe relationships in fluid and heat transport.
Assessment criteria, excellent (5)
Can calculate the U-value for a heat exchanger based on the flow conditions in simple geometries.
Can make calculations on the thermal radiation spectrum.
Can derive relationships in flow and heat transport.
Can use computerized tools to make mathematically more complicated calculations in fluid and heat transport.
Qualifications
None
Enrollment
30.11.2023 - 07.01.2024
Timing
01.01.2024 - 11.02.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Faculty of Technology and Seafaring
Campus
Vasa, Wolffskavägen 33
Teaching languages
- Svenska
Teachers
- Kennet Tallgren
Teacher in charge
Kaj Rintanen
Scheduling groups
- MAP22-K (Size: 40. Open UAS: 0.)
- MAP22-D (Size: 40. Open UAS: 0.)
Groups
-
MAP22D-VIngenjör (YH), maskin- och produktionsteknik, 2022 dagstudier
Small groups
- MAP22-K
- MAP22-D
Objective
After completing the course, the student should be able to make calculations on pipe flow, pumps, fans and hydro turbines as well as on conduction, convection and radiation.
Content
Basic fluid dynamics
Pipe flow
Pumps, fans and hydro turbines
Heat transport through conduction and convection in planar and cylindrical geometry
Convection calculations with dimensionless quantities
Thermal radiation
Evaluation scale
H-5
Assessment criteria, satisfactory (1)
Can qualitatively apply Bernoulli's equation and make simple calculations using this equation.
Can calculate pipe friction for single pipes.
Can interpret pump and fan diagrams and make simple calculations based on these.
Can calculate heat flow rates by radiation, conduction and convection.
Can describe how a black-body spectrum depends on temperature.
Can, in typical calculations, use correct symbols and present the calculation fairly systematically.
Assessment criteria, good (3)
Can explain the meaning of the quantities and concepts of major importance in fluid and heat transport, as well as how these quantities depend on each other.
Can do calculations for pipe systems with pumps, turbines and minor losses.
Can calculate equilibrium temperatures in situations with several simultaneous heat flows.
Can calculate temperature profiles in multi-layered walls.
Can do calculations for heat exchangers with constant U-values.
Can explain the principles of thermography.
Can use computerized tools to efficiently analyze and describe relationships in fluid and heat transport.
Assessment criteria, excellent (5)
Can calculate the U-value for a heat exchanger based on the flow conditions in simple geometries.
Can make calculations on the thermal radiation spectrum.
Can derive relationships in flow and heat transport.
Can use computerized tools to make mathematically more complicated calculations in fluid and heat transport.
Qualifications
None