Lämmöntuotanto- ja jäähdytysjärjestelmät (10 cr)
Code: TX00DL44-3001
General information
Enrollment
02.12.2019 - 07.01.2020
Timing
01.01.2020 - 31.07.2020
Number of ECTS credits allocated
10 op
Mode of delivery
Contact teaching
Unit
Kiinteistö- ja rakennusala
Campus
Myllypurontie 1
Teaching languages
- Finnish
Degree programmes
- Talotekniikan tutkinto-ohjelma
Teachers
- Hanna Sulamäki
- Aki Valkeapää
- Seppo Innanen
Groups
-
TXF18S1_LULVI-urakoinnin opintopolku
-
TXF18S1BTalotekniikan ryhmä B
-
TXF18S1_LSLVI-suunnittelun opintopolku
-
TXF18S1ATalotekniikan ryhmä A
-
TXF18S1Talotekniikan tutkinto-ohjelma päivä
Objective
The students can describe the centralized energy production and distribution system and the shares of different sources. They can explain the operating principles of combined heat and power production and heating plants. They are able to interpret and apply heating regulations and draw up the scheme of a district heating substation, boiler and solar heating system and dimension their main components.
The students can explain the operating principle of a district cooling system and ways of implementing them. They can calculate the process of compressor-driven refrigeration system, draw up and analyze the cycle in logp,h –diagram. They are able to interpret and apply cooling regulations and draw up the scheme of a refrigeration and heat pump system and dimension their main components.
Content
Centralized heat production (3 ECTS): Energy sources, combined heat and power (CHP), heating plants, district heating.
Local/community distributed energy systems (4 ECTS): Biomass fired boiler plants, solar heating plants, small-scale CHP.
Heat production at buildings (4 ECTS): District heating substations and boilers.
Cooling systems and heat pumps (3 ECTS): District cooling, district cooling substations, heat pumps and cooling plants (refrigeration in air conditioning systems, commercial refrigeration). Pipe networks for secondary heat transfer fluids.
Evaluation scale
0-5
Assessment criteria, satisfactory (1)
The students are, when assisted, able to create a connection diagram of a building level heat production system with a district heating substation, a boiler, solar heating panels and a heat pump and dimension the main components of the system.
The students are able to recognize the fundamental concepts and methods associated with the course and are able to solve simple problems.
Assessment criteria, good (3)
In addition to above, the students are able to apply the fundamental concepts and methods associated with the course to simple problems in natural and technical sciences.
Assessment criteria, excellent (5)
The students are able to apply the fundamental concepts and methods associated with the course to more demanding problems in natural and technical sciences.
Assessment criteria, approved/failed
The students are, when assisted, able to create a connection diagram of a building level heat production system with a district heating substation, a boiler, solar heating panels and a heat pump and dimension the main components of the system.
The students are able to recognize the fundamental concepts and methods associated with the course and are able to solve simple problems.
Qualifications
Basics for Dimensioning of HVAC Systems