Basics of Building PhysicsLaajuus (5 cr)
Code: TRRF0002
Credits
5 op
Teaching language
- Finnish
Responsible person
- Antti Kauppinen
Objective
Object of the course:
The knowledge and skills you get on this course you will need in order to be able to identify moisture sources in buildings, become aware of humidity transition mechanisms, and know how to perform moisture-related calculations.
Course competences:
- Mathematic and Natural science competence
- Technological competence
The learning objectives of the course:
You know how to tell the most important regulations and instructions on thermal technology and humidity in structures, and you know how to determine the heat transmittance factor for different structures. You know and recognize the moisture sources and humidity displacement mechanisms in buildings, you know how to make moisture-technical calculations of flat structures, you know the most important principles of drying and drying up structures. You know the most important factors affecting the energy efficiency of buildings.
These are also the basic tasks of the course.
Content
Indoor air, humidity control.
Qualifications
Basics of House Building, Physics / Fluids and Heat.
Assessment criteria, satisfactory (1)
Passable (1): The student recognizes all of the learning objectives, understands the meaning of them and is able to perform the basic tasks described in the learning objectives of the course.
Satisfying (2): In addition to previous skills, the student can systematically describe the issues of the course.
Assessment criteria, good (3)
Good (3): In addition to previous skills, the student can describe the influences of various solutions and can make reasoned choices between alternatives.
Laudable (4): In addition to previous skills, the student can apply the learned issues independently and is able to evaluate done solutions.
Assessment criteria, excellent (5)
Excellent ( 5 ): In addition to previous skills, the student shows deep knowledge of course contents as well as ability to parse and wider analyze the influences of solutions.
Further information
Qualifications:
The course is part of studies that belong to qualifications of civil engineer (Ministry of the Environment guidelines on the difficulty classes of design tasks YM1/601/2015)
The studies follow guidelines of curriculum performed in cooperation with Universities of applied sciences and construction industry in 2017.
Enrollment
01.11.2022 - 05.01.2023
Timing
09.01.2023 - 30.04.2023
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 50
Degree programmes
- Bachelor's Degree Programme in Construction and Civil Engineering
Teachers
- Antti Kauppinen
Teacher in charge
Jussi Korpinen
Groups
-
TRY21S1Rakennus- ja yhdyskuntatekniikka (AMK)
Objective
Object of the course:
The knowledge and skills you get on this course you will need in order to be able to identify moisture sources in buildings, become aware of humidity transition mechanisms, and know how to perform moisture-related calculations.
Course competences:
- Mathematic and Natural science competence
- Technological competence
The learning objectives of the course:
You know how to tell the most important regulations and instructions on thermal technology and humidity in structures, and you know how to determine the heat transmittance factor for different structures. You know and recognize the moisture sources and humidity displacement mechanisms in buildings, you know how to make moisture-technical calculations of flat structures, you know the most important principles of drying and drying up structures. You know the most important factors affecting the energy efficiency of buildings.
These are also the basic tasks of the course.
Content
Indoor air, humidity control.
Materials
YM asetus uuden rakennuksen energiatehokkuudesta (1010/2017)
YM asetusrakennusten kosteusteknisestä toimivuudesta (782/2017)
Rakennusten kosteustekninen toimivuus, YM ohje 2020
RIL 255-1-2014 Rakennusfysiikka 1
Material given during the lectures
Teaching methods
- Lectures face-to-face / Online Lectures,
- Assignments / Learning assignments,
- Seminars / Workshops
- Webinars
- etc.
Employer connections
Excursions
etc..
Exam schedules
Will be agreed on the first contact lesson of the course.
Completion alternatives
Studification: See the Despcription of Module.
Student workload
- Lectures 53 h
- Independent Work 80 h.
( including among others: Learning assignments, Home Works, preparing for Test)
- Total 133 h
Further information
Grading methods
- Test
- Assignments / Learning assignments,
- Continuing Grading
- Self Grading
The Grading is high-quality and it is based on the learning objectives and criterion of the course.
Self Grading has an important role in Student's Grading.
See also Grading
Evaluation scale
0-5
Assessment criteria, satisfactory (1)
Passable (1): The student recognizes all of the learning objectives, understands the meaning of them and is able to perform the basic tasks described in the learning objectives of the course.
Satisfying (2): In addition to previous skills, the student can systematically describe the issues of the course.
Assessment criteria, good (3)
Good (3): In addition to previous skills, the student can describe the influences of various solutions and can make reasoned choices between alternatives.
Laudable (4): In addition to previous skills, the student can apply the learned issues independently and is able to evaluate done solutions.
Assessment criteria, excellent (5)
Excellent ( 5 ): In addition to previous skills, the student shows deep knowledge of course contents as well as ability to parse and wider analyze the influences of solutions.
Qualifications
Basics of House Building, Physics / Fluids and Heat.
Further information
Qualifications:
The course is part of studies that belong to qualifications of civil engineer (Ministry of the Environment guidelines on the difficulty classes of design tasks YM1/601/2015)
The studies follow guidelines of curriculum performed in cooperation with Universities of applied sciences and construction industry in 2017.
Enrollment
01.11.2021 - 09.01.2022
Timing
10.01.2022 - 29.04.2022
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 45
Degree programmes
- Bachelor's Degree Programme in Construction and Civil Engineering
Teachers
- Jussi Korpinen
Teacher in charge
Antti Kauppinen
Groups
-
TRY20S1Bachelor's Degree Programme in Construction and Civil Engineering
Objective
Object of the course:
The knowledge and skills you get on this course you will need in order to be able to identify moisture sources in buildings, become aware of humidity transition mechanisms, and know how to perform moisture-related calculations.
Course competences:
- Mathematic and Natural science competence
- Technological competence
The learning objectives of the course:
You know how to tell the most important regulations and instructions on thermal technology and humidity in structures, and you know how to determine the heat transmittance factor for different structures. You know and recognize the moisture sources and humidity displacement mechanisms in buildings, you know how to make moisture-technical calculations of flat structures, you know the most important principles of drying and drying up structures. You know the most important factors affecting the energy efficiency of buildings.
These are also the basic tasks of the course.
Content
Indoor air, humidity control.
Materials
YM asetus uuden rakennuksen energiatehokkuudesta (1010/2017)
YM asetusrakennusten kosteusteknisestä toimivuudesta (782/2017)
Rakennusten kosteustekninen toimivuus, YM ohje 2020
RIL 255-1-2014 Rakennusfysiikka 1
Muu luentojen yhteydessä esitettävä materiaali
Teaching methods
- Lectures face-to-face / Online Lectures,
- Assignments / Learning assignments,
- Seminars / Workshops
- Webinars
- etc.
Employer connections
Excursions
etc..
Exam schedules
Will be agreed on the first contact lesson of the course.
Completion alternatives
Studification: See the Despcription of Module.
Student workload
- Lectures 40 h
- Independent Work 40 h.
( including among others: Learning assignments, Home Works, preparing for Test)
- Total 80 h
Further information
Grading methods
- Test
- Assignments / Learning assignments,
- Continuing Grading
- Self Grading
The Grading is high-quality and it is based on the learning objectives and criterion of the course.
Self Grading has an important role in Student's Grading.
See also Grading
Evaluation scale
0-5
Assessment criteria, satisfactory (1)
Passable (1): The student recognizes all of the learning objectives, understands the meaning of them and is able to perform the basic tasks described in the learning objectives of the course.
Satisfying (2): In addition to previous skills, the student can systematically describe the issues of the course.
Assessment criteria, good (3)
Good (3): In addition to previous skills, the student can describe the influences of various solutions and can make reasoned choices between alternatives.
Laudable (4): In addition to previous skills, the student can apply the learned issues independently and is able to evaluate done solutions.
Assessment criteria, excellent (5)
Excellent ( 5 ): In addition to previous skills, the student shows deep knowledge of course contents as well as ability to parse and wider analyze the influences of solutions.
Qualifications
Basics of House Building, Physics / Fluids and Heat.
Further information
Qualifications:
The course is part of studies that belong to qualifications of civil engineer (Ministry of the Environment guidelines on the difficulty classes of design tasks YM1/601/2015)
The studies follow guidelines of curriculum performed in cooperation with Universities of applied sciences and construction industry in 2017.