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Engineering, Civil Engineering, Construction, Full-Time Studies, Fall, 2024:

Code: IRNS24

Degree:
Bachelor of Engineering

Degree title:
(Graduate) Engineer, Construction Engineering

Credits:
240 ects

Duration:
4 years (240 cr)

Start semester:
Autumn 2024

Descriptions

CURRICULUM
Bachelor of Engineering (UAS), Civil Engineering, daytime implementation

Studying civil engineering gives you the skills to work in the field of building construction. You will learn about the design of structures and buildings, building production and, increasingly, the maintenance and life-cycle management of buildings. A special feature of the Karelia UAS construction engineering education is the focus on wood and low-carbon construction. With this knowledge, you can con-tribute to the promotion of sustainable development in the construction sector.

The qualification to be obtained

Title Engineer, Bachelor of Engineering (UAS)
Extent 240 credits /4 years

Description of competences

The competence objectives for construction engineering education largely follow the national con-tent recommendations for the construction sector, which have been developed in cooperation with the higher education institutions providing the education. In addition, the curriculum is determined by the strategy of Karelia UAS and the competence objectives of the individual higher education institutions. The specific objective of the training is the national promotion of competences in wood and low-carbon construction. The competences aimed at by the qualifications are described below as common to all qualifications and specific to each education.
Upon completion of the qualification, you will be able to work in various expert and managerial positions in construction projects and the construction products industry. After sufficient work experience, you can work as a supervisor, structural engineer, builder or technical expert for a wide range of employers.
The education of a civil engineer includes the studies required by the qualification requirements of the Land Use and Building Act up to the demanding category of both management and structural design.

Building competences and the content of training

Your qualification consists of a set of core and complementary competences that are relevant to the world of work. You will have 225 credits of core competences and 15 credits of complementary competences. Your core studies include 30 credits of work placement and a 15-credit thesis. You can also include in your complementary studies coaching for competitive and elite athletes or student community and tutor activities.

You can choose to focus your studies on design or production. During the first and second semesters, you will acquire the basic skills needed to work as a civil engineer and the skills needed for advanced studies. In the first year, you will learn about building materials and the most common structural solutions in building construction. In the second year, you will study the basics of structural design and building production. In the third year, you can deepen your knowledge in either structural design or building production through optional studies. In the fourth year, you will demonstrate your knowledge through applied project studies and a thesis. You can complete a supervised internship during the summer semester or during a designated period during your studies. Some of your studies can be carried out in cooperation with students in building services engineering.

Work-based learning

The representatives of working life have been involved in the design of the qualification's competences. The courses have been grouped into work-based units of competences. During the courses, you will complete work-related and topical exercises that will help you to achieve good workplace skills. You will use information systems and applications that are also used by companies in the region. The theses for engineering studies are commissioned by the working world. You will develop your working life skills through supervised work placements in companies.

Working life cooperation also allows you to influence working life practices and skills renewal. The active project activities in construction technology offer you interesting learning tasks and theses that can be used to reform working life practices.

Pedagogical choices

In building technology education, the emphasis is on learning by doing. Each module is accompanied by work-based learning tasks. On the other hand, it emphasises experiential learning, relying on your ability to relate what you have learned to your own experience, to critically evaluate your own actions and to conceptualise and create new approaches to problem-solving in your profession.

Flexible implementation of studies

At the start of your studies, you will draw up a personal study plan (HOPS), in which you will set your own learning objectives, the way you will complete your studies and the timetable. You will have the opportunity to have any prior learning you have acquired elsewhere recognised as part of your degree.

The studies are grouped into thematic modules, which consist of modules to be assessed.
Flexible delivery of studies refers primarily to the optional delivery methods set out in the study path-ways, which allow you to acquire and demonstrate the required competences for a course of study. Some of the studies can be completed online. These include a number of common complementary courses in building and construction technology and courses offered by other higher education institutions in the national offer of other higher education institutions.

Internationalisation

In the degree programme, internationalisation is achieved through student exchange programmes. You have the opportunity to go abroad for studies or an internship. The studies you undertake on an international exchange are usually included in your complementary studies. The programme offers studies in English for international exchange students for one semester of study.

The programme also has active RDI cooperation with European partner universities. These collaborative projects also provide opportunities for students to get involved in multidisciplinary international teams. In particular, the different intensive programmes are an excellent way for students to start their own internationalisation.

Skills assessment

The aim of the skills assessment is to demonstrate to yourself and your future employers the skills you have achieved. The competence requirements are derived from the competence needs of the world of work. In engineering education, competences are assessed through work-based exercises, laboratory exercises, written and oral exams, reports and learning tasks. Assessment will be based on your self-assessment and peer assessment and feedback from your fellow students. Assessment feed-back helps you to monitor your progress and set new learning objectives. Karelia has common assessment criteria, which define the implementation and criteria for assessment for each course.

Career opportunities and guidance

Upon graduation, you will typically be employed in the private or public sector in a specialist position. As you gain work experience, you may progress to a position such as a project manager, where you will be responsible for project teams. In production roles, you can progress to a position as a supervisor, project engineer, project engineer or construction manager. Your studies will include professional growth and career guidance studies to support you in orienting your skills. Traineeships and, usually, a work placement, will support your work readiness and career planning.

Changes in the world of work and your own career development require continuous learning after graduation. Much of this learning takes place on the job, but can be enhanced through training. You can supplement your skills with open university of applied sciences studies or training towards a higher university of applied sciences degree. A Master's degree opens up opportunities for you to take on managerial positions, demanding expert and development tasks or to become a teacher. You will be supported by a tutor and a study adviser throughout your studies to help you plan your career.

Show study timings by semester, study year or period

Code Name Credits (cr) 2024-2025 2025-2026 2026-2027 2027-2028 Autumn
2024
Spring
2025
Autumn
2025
Spring
2026
Autumn
2026
Spring
2027
Autumn
2027
Spring
2028
1. / 2024 2. / 2024 3. / 2024 4. / 2025 5. / 2025 6. / 2025 1. / 2025 2. / 2025 3. / 2025 4. / 2026 5. / 2026 6. / 2026 1. / 2026 2. / 2026 3. / 2026 4. / 2027 5. / 2027 6. / 2027 1. / 2027 2. / 2027 3. / 2027 4. / 2028 5. / 2028 6. / 2028
IRNS24-1
Familiarising with Civil Engineering

(Choose all)

59 59 59 19.7 19.7 19.7
IRNS24-11
Basic Studies in Engineering

(Choose all)

16
IR10014 Professional Growth 1 2 2 2 1 1
IR10015 Basics of Construction Economics 3 3 3 1.5 1.5
IR10016 Algebra and Geometry 5 5 5 2.5 2.5
IR10017 Building Dynamics 4 4 4 2 2
IR10025 Reporting and Written Communication 2 2 2 1 1
IRNS24-12
Familiarising with House Building

(Choose all)

14
IR10018 Wood Construction and Wood Products 3 3 3 1.5 1.5
IR10013 CAD-Designing and Modelling 3 3 3 1.5 1.5
IR10019 English for Construction Engineering 3 3 3 1.5 1.5
IR10020 Land Use Planning 2 2 2 1 1
IR10021 Basics of Building Construction 3 3 3 1.5 1.5
IRNS24-13
Introduction to Mechanics

(Choose all)

14
IR10022 Basics of Statics and Strength Theory 5 5 5 2.5 2.5
IR10023 Differential and Integral Calculus 5 5 5 2.5 2.5
IR10024 Thermodynamics and Fluid Mechanics 4 4 4 2 2
IRNS24-14
Basics of Structural Engineering

(Choose all)

15
IR10026 Concrete Construction 1 4 4 4 2 2
IR10027 Chemistry for Construction Engineering 3 3 3 1.5 1.5
IR10028 Sociala kontakter i arbetslivet (Swedish Language) 3 3 3 1.5 1.5
IR10029 Building Construction 5 5 5 2.5 2.5
IRNS24-2
Basic Competence in Construction

(Choose all)

59
IRNS24-21
Structural Design 1

(Choose all)

13
IR10030 Fundamentals of Structural Design 3 3 3 1.5 1.5
IR10031 Timber Structures 1 5 5 5 2.5 2.5
IR10032 Concrete Structures 1 5 5 5 2.5 2.5
IRNS24-22
Construction Processes

(Choose all)

15 15 15 7.5 7.5
IR10033 Basics of Cost Management 3 3 3 1.5 1.5
IR10034 Basics of Construction Production Planning 3 3 3 1.5 1.5
IR10035 Basics of Management 3 3 3 1.5 1.5
IR10036 Geotechnical Engineering 5 5 5 2.5 2.5
IR10037 Professional Growth 2 1 1 1 0.5 0.5
IRNS24-23
Substructures and Communication

(Choose all)

14
IR10038 Foundation Engineering 5 5 5 2.5 2.5
IR10039 Professional Communication in English 2 2 2 1 1
IR10040 Calculation of Carbon Emissions 3 3 3 1.5 1.5
IR10041 Measurement Technology 2 2 2 1 1
IR10042 Svenska för byggnadsingenjörer (Swedish Language) 2 2 2 1 1
IRNS24-24
Entrepreneurship and Quality Management

(Choose all)

17
IR10043 Statics and Strength Theory 5 5 5 2.5 2.5
IR10044 Construction Quality Management 4 4 4 2 2
IR10045 Detached House Project 4 4 4 2 2
IR10046 Business and Entrepreneurship 3 3 3 1.5 1.5
IR10047 Professional Growth 3 1 1 1 0.5 0.5
IRNS24-3
Specialising in Construction Techonology

(Choose all)

47
IRNS24-31
Structural Design 2

(Choose all)

17
IR10048 Steel Structures 1 5 5 5 2.5 2.5
IR10049 Concrete Construction 2 4 4 4 2 2
IR10050 Building Physics 5 5 5 2.5 2.5
IR10051 Steel Construction 3 3 3 1.5 1.5
IRNS24-32
Developer's Administration and Environmental Impact

(Choose all)

16
IR10002 Environmental Impacts of Construction 3 3 3 1.5 1.5
IR10052 Construction and Contracting 4 4 4 2 2
IR10053 Expert Communication 3 3 3 1.5 1.5
IR10054 HVAC Systems 5 5 5 2.5 2.5
IR10055 Professional Growth 4 1 1 1 0.5 0.5
Orientation Option Studies

(Choose ects: 14)

14
IRNS24-34
Structural Design 3

(Choose all)

14
IR10063 Reinforced Concrete Structures 2 5 5 5 2.5 2.5
IR10064 Statically Undetermined Structures 5 5 5 2.5 2.5
IR10065 Applications of Modelling in Design 4 4 4 2 2
IRNS24-4
Expert in Civil Engineering

(Choose all)

60
Orientation Option Studies

(Choose ects: 15)

15
IRNS24-412
Structural Design 4

(Choose all)

15
IR10066 Foundation Engineering in Building Construction 5 5 5 2.5 2.5
IR10004 Timber Structures 2 5 5 5 2.5 2.5
IR10067 Steel Structures 2 5 5 5 2.5 2.5
IRNS24-42
Practical Training

(Choose all)

30
IR10068 Practical Training in Construction Engineering 1 10 6.7 3.3 3.3 3.3 3.3 1.7 1.7 1.7 1.7 1.7 1.7
IR10085 Practical Training in Construction Engineering 2 10 5 5 2.5 2.5 2.5 2.5 1.3 1.3 1.3 1.3 1.3 1.3 1.3 1.3
IR10086 Practical Training in Construction Engineering 3 10 5 5 2.5 2.5 2.5 2.5 1.3 1.3 1.3 1.3 1.3 1.3 1.3 1.3
IRNS24-44
Thesis

(Choose all)

15
KY10001 Thesis Planning 5 5 5 2.5 2.5
KY10002 Thesis Implementation 5 5 5 2.5 2.5
KY10003 Thesis Finalising 5 5 5 2.5 2.5
IRNS24-5
Complementary Studies

(Choose ects: 15)

15
IRNS24-51
Apartment Building Project

(Choose 0)

0
IR10069 Apartment Building Design 4 4 1 4 1 2 2 0.5 0.5
IR10070 Energy Efficiency of Buildings 3 3 3 1.5 1.5
IR10071 Element Engineering 2 3 3 1.5 1.5
IR10072 Fire Engineering 1 1 1 0.5 0.5
IR10073 Building Acoustics 2 2 2 1 1
IR10074 Coordination of Data Models 1 1 1 0.5 0.5
IRNS24-53
Indoor Environment and Research

(Choose 0)

0
IR10079 HVAC Condition Assessments 4 4 4 2 2
IR10076 Building Condition Surveys and Building Inspections 3 3 3 1.5 1.5
IR10078 Indoor Environments 4 4 4 2 2
IRNS24-54
Renovation of Buildings

(Choose 0)

0
IR10080 HVAC Renovations 3 3 3 1.5 1.5
IR10081 The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency 4 4 4 2 2
IR10082 Repair Technologies of Moisture Damaged Buildings 4 4 4 2 2
IR10083 Construction Repair Techniques 4 4 4 2 2
IRNS24-55
Other Complementary Studies

(Choose 0)

0
IR10084 Project Studies in Construction Engineering 1 - 5 1.7 3.3 1.7 1.7 1.7 0.8 0.8 0.8 0.8 0.8 0.8
IR10093 Bridge Project 1 1 1 0.5 0.5
IR10007 Introduction to Low Carbonite Construction 3 3 3 1.5 1.5
IT10040 Safety Expertise 2 2 2 1 1
Total 240 65 65.7 84 62.3 31 34 33.3 32.3 32.3 51.7 55.7 6.7 0 15.5 15.5 17 17 0 0 16.7 16.7 16.2 16.2 0 0 16.3 16.3 25.9 25.9 0 0 27.9 27.9 3.4 3.4 0

Due to the timing of optional and elective courses, credit accumulation per semester / academic year may vary.

Shared competences of UAS Bachelor's degrees 2022

In Finnish universities of applied sciences, the competences of degrees have been defined as programme-specific competences and shared competences. Competences refer to extensive competence modules, which are combinations of individual knowledge, skills and attitudes. Programme-specific competences form the basis of a student's professional expertise. Shared competences are common competence areas for different programmes and degrees, and they create the foundation for operating in a workplace, cooperation and the development of expertise.

1 Learning to Learn

The graduating student recognises the strengths and development areas of their competence and learning methods, and they utilise the opportunities communities and digitalisation provide in their learning.

- Assesses and develops their competence and learning methods in different learning environments.
- Is able to acquire, critically assess and appropriately apply the national and
international knowledge base and practices of their field.
- Also takes responsibility for group learning and sharing what has been
learned.

Professional Growth 1
Algebra and Geometry
Building Dynamics
Wood Construction and Wood Products
Chemistry for Construction Engineering
Sociala kontakter i arbetslivet (Swedish Language)
Fundamentals of Structural Design
Professional Growth 2
Svenska för byggnadsingenjörer (Swedish Language)
Detached House Project
Professional Growth 3
Building Physics
Environmental Impacts of Construction
Professional Growth 4
Planning Methods for Construction Site Production
Site Planning
Applications of Modeling in Construction Management
Project Management for Construction Projects
Management of Industrial Planning
Construction Project Cost Management and Procurement
Leadership in Consrtuction
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
Thesis Planning
Thesis Implementation
Thesis Finalising
The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency
Repair Technologies of Moisture Damaged Buildings
Construction Repair Techniques
2 Operating in a Workplace

The graduating student has versatile working life skills and is able to operate in work communities of their field.

- Is able to work constructively in a work community and promotes their own
and their work community’s well-being.
- Is able to act professionally in communication and interaction situations at a workplace.
- Utilises the opportunities offered by technology and digitalisation in their work.
- Understands the complexity of changing working life and their own resilience in changing working life situations.

Professional Growth 1
Algebra and Geometry
Differential and Integral Calculus
Sociala kontakter i arbetslivet (Swedish Language)
Professional Growth 2
Svenska för byggnadsingenjörer (Swedish Language)
Construction Quality Management
Professional Growth 3
Concrete Construction 2
Environmental Impacts of Construction
Construction and Contracting
Professional Growth 4
Planning Methods for Construction Site Production
Site Planning
Applications of Modeling in Construction Management
Reinforced Concrete Structures 2
Project Management for Construction Projects
Management of Industrial Planning
Construction Project Cost Management and Procurement
Leadership in Consrtuction
Foundation Engineering in Building Construction
Timber Structures 2
Steel Structures 2
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
Thesis Planning
Thesis Implementation
Thesis Finalising
Apartment Building Design
The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency
Repair Technologies of Moisture Damaged Buildings
3 Ethics

The graduating student adheres to the ethical principles and values of their field of profession, taking the principles of equality and non-discrimination into account.

- Is able to take responsibility for their own actions and their consequences and reflects on them in accordance with the ethical principles and values of their field.
- Takes others into account and promotes equality and non-discrimination.
- Take into account the realisation of diversity and accessibility in their actions.
- Understands the principles of responsible conduct of research and adheres to them.
- Is able to influence society based on ethical values.

Professional Growth 1
Differential and Integral Calculus
Professional Growth 2
Construction Quality Management
Professional Growth 3
Environmental Impacts of Construction
Professional Growth 4
Site Planning
Project Management for Construction Projects
Construction Project Cost Management and Procurement
Leadership in Consrtuction
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
Thesis Planning
Thesis Implementation
Thesis Finalising
4 Sustainable Development

The graduating student is familiar with the principles of sustainable development, promotes their implementation and acts responsibly as a professional and a member of society.

- Is able to use information related to their field in finding, implementing and establishing sustainable solutions and operating models.
- Understands sustainability challenges, their interdependencies and the various aspects of issues and problems.

Basics of Construction Economics
Wood Construction and Wood Products
Land Use Planning
Building Construction
Calculation of Carbon Emissions
Construction Quality Management
Detached House Project
Concrete Construction 2
Building Physics
Environmental Impacts of Construction
Construction and Contracting
Professional Growth 4
Site Planning
Project Management for Construction Projects
Construction Project Cost Management and Procurement
Leadership in Consrtuction
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
Thesis Planning
Thesis Implementation
Thesis Finalising
Fire Engineering
The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency
Repair Technologies of Moisture Damaged Buildings
Construction Repair Techniques
5 Internationality and Multiculturalism

The graduating student is able to operate in multicultural and international operating environments and networks.

- Is familiar with the impacts of their cultural background on their activities and is able to develop operating methods that take multiculturalism into account in their work community.
- Is able to monitor and utilise the international development of their field in their work.
- Is able to communicate internationally in their work tasks.

Professional Growth 1
Differential and Integral Calculus
Sociala kontakter i arbetslivet (Swedish Language)
Professional Growth 2
Professional Growth 3
Professional Growth 4
Leadership in Consrtuction
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
6 Proactive Development

The graduating student is able to develop solutions that anticipate the future of their own field, applying existing knowledge and research and development methods.

− Solves problem situations creatively and reforms operating methods together with others.
− Is able to work in projects in cooperation with actors of different fields.
− Is able to apply existing knowledge in the field in development and utilises research and development methods.
− Is able to seek customer-oriented, sustainable and economically viable solutions, anticipating the future of their field.

Algebra and Geometry
Wood Construction and Wood Products
Land Use Planning
Differential and Integral Calculus
Construction Quality Management
Detached House Project
Building Physics
Construction and Contracting
Site Planning
Applications of Modeling in Construction Management
Project Management for Construction Projects
Leadership in Consrtuction
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
Thesis Planning
Thesis Implementation
Thesis Finalising
Fire Engineering
The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency
Not grouped
Reporting and Written Communication
CAD-Designing and Modelling
English for Construction Engineering
Basics of Building Construction
Basics of Statics and Strength Theory
Thermodynamics and Fluid Mechanics
Concrete Construction 1
Timber Structures 1
Concrete Structures 1
Basics of Cost Management
Basics of Construction Production Planning
Basics of Management
Geotechnical Engineering
Foundation Engineering
Professional Communication in English
Measurement Technology
Statics and Strength Theory
Business and Entrepreneurship
Steel Structures 1
Steel Construction
Expert Communication
HVAC Systems
Statically Undetermined Structures
Applications of Modelling in Design
Energy Efficiency of Buildings
Element Engineering
Building Acoustics
Coordination of Data Models
Workplace Training
HVAC Condition Assessments
Building Condition Surveys and Building Inspections
Indoor Environments
HVAC Renovations
Project Studies in Construction Engineering
Bridge Project
Introduction to Low Carbonite Construction
Safety Expertise
First Aid
Advanced CAD-Planning

Thesis and practical training

Practical Training Related
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
Workplace Training
Thesis Related
Thesis Planning
Thesis Implementation
Thesis Finalising
Not grouped
Professional Growth 1
Basics of Construction Economics
Algebra and Geometry
Building Dynamics
Reporting and Written Communication
Wood Construction and Wood Products
CAD-Designing and Modelling
English for Construction Engineering
Land Use Planning
Basics of Building Construction
Basics of Statics and Strength Theory
Differential and Integral Calculus
Thermodynamics and Fluid Mechanics
Concrete Construction 1
Chemistry for Construction Engineering
Sociala kontakter i arbetslivet (Swedish Language)
Building Construction
Fundamentals of Structural Design
Timber Structures 1
Concrete Structures 1
Basics of Cost Management
Basics of Construction Production Planning
Basics of Management
Geotechnical Engineering
Professional Growth 2
Foundation Engineering
Professional Communication in English
Calculation of Carbon Emissions
Measurement Technology
Svenska för byggnadsingenjörer (Swedish Language)
Statics and Strength Theory
Construction Quality Management
Detached House Project
Business and Entrepreneurship
Professional Growth 3
Steel Structures 1
Concrete Construction 2
Building Physics
Steel Construction
Environmental Impacts of Construction
Construction and Contracting
Expert Communication
HVAC Systems
Professional Growth 4
Planning Methods for Construction Site Production
Site Planning
Applications of Modeling in Construction Management
Reinforced Concrete Structures 2
Statically Undetermined Structures
Applications of Modelling in Design
Project Management for Construction Projects
Management of Industrial Planning
Construction Project Cost Management and Procurement
Leadership in Consrtuction
Foundation Engineering in Building Construction
Timber Structures 2
Steel Structures 2
Apartment Building Design
Energy Efficiency of Buildings
Element Engineering
Fire Engineering
Building Acoustics
Coordination of Data Models
HVAC Condition Assessments
Building Condition Surveys and Building Inspections
Indoor Environments
HVAC Renovations
The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency
Repair Technologies of Moisture Damaged Buildings
Construction Repair Techniques
Project Studies in Construction Engineering
Bridge Project
Introduction to Low Carbonite Construction
Safety Expertise
First Aid
Advanced CAD-Planning

Shared Competences of Construction Engineering 2022 =>

A. Competence in Design of Structures

- can design the structures of a house and use the main building materials, taking into account the life cycle, safety, health and economy of the structures
- control the static behaviour of structures
- is familiar with physical and chemical phenomena in buildings
- know the impact of other design disciplines (ARK, GEO, building services engineering) on structural design
- knows the requirements of industrial production and prefabricated construction

Building Dynamics
Wood Construction and Wood Products
Basics of Statics and Strength Theory
Chemistry for Construction Engineering
Building Construction
Fundamentals of Structural Design
Timber Structures 1
Concrete Structures 1
Geotechnical Engineering
Foundation Engineering
Detached House Project
Steel Structures 1
Concrete Construction 2
Building Physics
Steel Construction
Reinforced Concrete Structures 2
Statically Undetermined Structures
Applications of Modelling in Design
Management of Industrial Planning
Foundation Engineering in Building Construction
Timber Structures 2
Steel Structures 2
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
Apartment Building Design
Element Engineering
Fire Engineering
The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency
B. Competence in Building Production

- can build, commission and manage construction works
- specific knowledge of site engineering and prefabricated construction in wood construction
- knows the principles and methods of production management
- knows the importance and implications of HVAC and automation technology
- can take into account the quality and safety requirements of construction
- knows the principles of construction entrepreneurship
- manages the dry chain in construction

Basics of Construction Economics
Wood Construction and Wood Products
Thermodynamics and Fluid Mechanics
Building Construction
Geotechnical Engineering
Foundation Engineering
Measurement Technology
Construction Quality Management
Detached House Project
Concrete Construction 2
Building Physics
Steel Construction
Construction and Contracting
Planning Methods for Construction Site Production
Site Planning
Applications of Modeling in Construction Management
Project Management for Construction Projects
Management of Industrial Planning
Construction Project Cost Management and Procurement
Leadership in Consrtuction
Foundation Engineering in Building Construction
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
Apartment Building Design
Fire Engineering
Building Condition Surveys and Building Inspections
The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency
Repair Technologies of Moisture Damaged Buildings
Construction Repair Techniques
C. Competence in Wood Construction

- knows the material properties of wood in construction
- know how to design and produce sophisticated wooden structures
- knows and is able to use wood construction products and understands the specific features of partial construction
- know the basics of fire design of wooden structures
- knows the basics of sound engineering design

Wood Construction and Wood Products
Building Construction
Timber Structures 1
Detached House Project
Building Physics
Planning Methods for Construction Site Production
Site Planning
Applications of Modeling in Construction Management
Project Management for Construction Projects
Management of Industrial Planning
Construction Project Cost Management and Procurement
Timber Structures 2
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
Apartment Building Design
Fire Engineering
Building Condition Surveys and Building Inspections
The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency
Repair Technologies of Moisture Damaged Buildings
Construction Repair Techniques
D. Competence in Renovation Construction

- can assess and examine the condition and serviceability of a building
- knowledge of renovation processes and techniques

Concrete Construction 2
Building Physics
Site Planning
Applications of Modeling in Construction Management
Project Management for Construction Projects
Construction Project Cost Management and Procurement
Leadership in Consrtuction
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
Building Condition Surveys and Building Inspections
The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency
Repair Technologies of Moisture Damaged Buildings
Construction Repair Techniques
E. Competence in Computer Modelling and Digitalisation

- masters the production and use of information models in design, production and life cycle management
- knows the potential of augmented reality and virtuality in construction
- understands the importance of digitalisation throughout the life cycle of a building
- know the basics of knowledge management
- knows and can use the information systems of the industry

Algebra and Geometry
CAD-Designing and Modelling
Construction Quality Management
Detached House Project
Steel Construction
Construction and Contracting
Planning Methods for Construction Site Production
Site Planning
Applications of Modeling in Construction Management
Reinforced Concrete Structures 2
Applications of Modelling in Design
Project Management for Construction Projects
Management of Industrial Planning
Construction Project Cost Management and Procurement
Leadership in Consrtuction
Timber Structures 2
Steel Structures 2
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
Apartment Building Design
Coordination of Data Models
The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency
Not grouped
Professional Growth 1
Reporting and Written Communication
English for Construction Engineering
Land Use Planning
Basics of Building Construction
Differential and Integral Calculus
Concrete Construction 1
Sociala kontakter i arbetslivet (Swedish Language)
Basics of Cost Management
Basics of Construction Production Planning
Basics of Management
Professional Growth 2
Professional Communication in English
Calculation of Carbon Emissions
Svenska för byggnadsingenjörer (Swedish Language)
Statics and Strength Theory
Business and Entrepreneurship
Professional Growth 3
Environmental Impacts of Construction
Expert Communication
HVAC Systems
Professional Growth 4
Thesis Planning
Thesis Implementation
Thesis Finalising
Energy Efficiency of Buildings
Building Acoustics
Workplace Training
HVAC Condition Assessments
Indoor Environments
HVAC Renovations
Project Studies in Construction Engineering
Bridge Project
Introduction to Low Carbonite Construction
Safety Expertise
First Aid
Advanced CAD-Planning

Wood Construction and Wood Products
Basics of Statics and Strength Theory
Fundamentals of Structural Design
Timber Structures 1
Statics and Strength Theory
Statically Undetermined Structures
Timber Structures 2
Basics of Statics and Strength Theory
Concrete Construction 1
Fundamentals of Structural Design
Concrete Structures 1
Statics and Strength Theory
Concrete Construction 2
Reinforced Concrete Structures 2
Statically Undetermined Structures
Basics of Statics and Strength Theory
Fundamentals of Structural Design
Statics and Strength Theory
Steel Structures 1
Steel Construction
Statically Undetermined Structures
Steel Structures 2
Basics of Statics and Strength Theory
Fundamentals of Structural Design
Geotechnical Engineering
Foundation Engineering
Statics and Strength Theory
Statically Undetermined Structures
Foundation Engineering in Building Construction
Basics of Statics and Strength Theory
Fundamentals of Structural Design
Statics and Strength Theory
Building Physics
Statically Undetermined Structures
The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency
Repair Technologies of Moisture Damaged Buildings
Construction Repair Techniques
Not grouped
Professional Growth 1
Basics of Construction Economics
Algebra and Geometry
Building Dynamics
Reporting and Written Communication
CAD-Designing and Modelling
English for Construction Engineering
Land Use Planning
Basics of Building Construction
Differential and Integral Calculus
Thermodynamics and Fluid Mechanics
Chemistry for Construction Engineering
Sociala kontakter i arbetslivet (Swedish Language)
Building Construction
Basics of Cost Management
Basics of Construction Production Planning
Basics of Management
Professional Growth 2
Professional Communication in English
Calculation of Carbon Emissions
Measurement Technology
Svenska för byggnadsingenjörer (Swedish Language)
Construction Quality Management
Detached House Project
Business and Entrepreneurship
Professional Growth 3
Environmental Impacts of Construction
Construction and Contracting
Expert Communication
HVAC Systems
Professional Growth 4
Planning Methods for Construction Site Production
Site Planning
Applications of Modeling in Construction Management
Applications of Modelling in Design
Project Management for Construction Projects
Management of Industrial Planning
Construction Project Cost Management and Procurement
Leadership in Consrtuction
Practical Training in Construction Engineering 1
Practical Training in Construction Engineering 2
Practical Training in Construction Engineering 3
Thesis Planning
Thesis Implementation
Thesis Finalising
Apartment Building Design
Energy Efficiency of Buildings
Element Engineering
Fire Engineering
Building Acoustics
Coordination of Data Models
Workplace Training
HVAC Condition Assessments
Building Condition Surveys and Building Inspections
Indoor Environments
HVAC Renovations
Project Studies in Construction Engineering
Bridge Project
Introduction to Low Carbonite Construction
Safety Expertise
First Aid
Advanced CAD-Planning

Code Name Credits (cr)
IRNS24-1
Familiarising with Civil Engineering

(Choose all)

59
IRNS24-11
Basic Studies in Engineering

(Choose all)

16
IR10014 Professional Growth 1 2
IR10015 Basics of Construction Economics 3
IR10016 Algebra and Geometry 5
IR10017 Building Dynamics 4
IR10025 Reporting and Written Communication 2
IRNS24-12
Familiarising with House Building

(Choose all)

14
IR10018 Wood Construction and Wood Products 3
IR10013 CAD-Designing and Modelling 3
IR10019 English for Construction Engineering 3
IR10020 Land Use Planning 2
IR10021 Basics of Building Construction 3
IRNS24-13
Introduction to Mechanics

(Choose all)

14
IR10022 Basics of Statics and Strength Theory 5
IR10023 Differential and Integral Calculus 5
IR10024 Thermodynamics and Fluid Mechanics 4
IRNS24-14
Basics of Structural Engineering

(Choose all)

15
IR10026 Concrete Construction 1 4
IR10027 Chemistry for Construction Engineering 3
IR10028 Sociala kontakter i arbetslivet (Swedish Language) 3
IR10029 Building Construction 5
IRNS24-2
Basic Competence in Construction

(Choose all)

59
IRNS24-21
Structural Design 1

(Choose all)

13
IR10030 Fundamentals of Structural Design 3
IR10031 Timber Structures 1 5
IR10032 Concrete Structures 1 5
IRNS24-22
Construction Processes

(Choose all)

15
IR10033 Basics of Cost Management 3
IR10034 Basics of Construction Production Planning 3
IR10035 Basics of Management 3
IR10036 Geotechnical Engineering 5
IR10037 Professional Growth 2 1
IRNS24-23
Substructures and Communication

(Choose all)

14
IR10038 Foundation Engineering 5
IR10039 Professional Communication in English 2
IR10040 Calculation of Carbon Emissions 3
IR10041 Measurement Technology 2
IR10042 Svenska för byggnadsingenjörer (Swedish Language) 2
IRNS24-24
Entrepreneurship and Quality Management

(Choose all)

17
IR10043 Statics and Strength Theory 5
IR10044 Construction Quality Management 4
IR10045 Detached House Project 4
IR10046 Business and Entrepreneurship 3
IR10047 Professional Growth 3 1
IRNS24-3
Specialising in Construction Techonology

(Choose all)

47
IRNS24-31
Structural Design 2

(Choose all)

17
IR10048 Steel Structures 1 5
IR10049 Concrete Construction 2 4
IR10050 Building Physics 5
IR10051 Steel Construction 3
IRNS24-32
Developer's Administration and Environmental Impact

(Choose all)

16
IR10002 Environmental Impacts of Construction 3
IR10052 Construction and Contracting 4
IR10053 Expert Communication 3
IR10054 HVAC Systems 5
IR10055 Professional Growth 4 1
Orientation Option Studies

(Choose ects: 14)

14
IRNS24-33
Starting a Construction Site and Site Management

(Choose all)

14
IR10056 Planning Methods for Construction Site Production 5
IR10057 Site Planning 5
IR10058 Applications of Modeling in Construction Management 4
IRNS24-34
Structural Design 3

(Choose all)

14
IR10063 Reinforced Concrete Structures 2 5
IR10064 Statically Undetermined Structures 5
IR10065 Applications of Modelling in Design 4
IRNS24-4
Expert in Civil Engineering

(Choose all)

60
Orientation Option Studies

(Choose ects: 15)

15
IRNS24-411
Production Planning and Management

(Choose all)

15
IR10059 Project Management for Construction Projects 3
IR10060 Management of Industrial Planning 4
IR10061 Construction Project Cost Management and Procurement 5
IR10062 Leadership in Consrtuction 3
IRNS24-412
Structural Design 4

(Choose all)

15
IR10066 Foundation Engineering in Building Construction 5
IR10004 Timber Structures 2 5
IR10067 Steel Structures 2 5
IRNS24-42
Practical Training

(Choose all)

30
IR10068 Practical Training in Construction Engineering 1 10
IR10085 Practical Training in Construction Engineering 2 10
IR10086 Practical Training in Construction Engineering 3 10
IRNS24-44
Thesis

(Choose all)

15
KY10001 Thesis Planning 5
KY10002 Thesis Implementation 5
KY10003 Thesis Finalising 5
IRNS24-5
Complementary Studies

(Choose ects: 15)

15
IRNS24-51
Apartment Building Project

(Choose 0)

0
IR10069 Apartment Building Design 4
IR10070 Energy Efficiency of Buildings 3
IR10071 Element Engineering 2
IR10072 Fire Engineering 1
IR10073 Building Acoustics 2
IR10074 Coordination of Data Models 1
IRNS24-52
Workplace Training

(Choose 0)

0
IR10075 Workplace Training 15
IRNS24-53
Indoor Environment and Research

(Choose 0)

0
IR10079 HVAC Condition Assessments 4
IR10076 Building Condition Surveys and Building Inspections 3
IR10078 Indoor Environments 4
IRNS24-54
Renovation of Buildings

(Choose 0)

0
IR10080 HVAC Renovations 3
IR10081 The Planning of Repairs of Moisture Damaged Buildings and Required Energy Efficiency 4
IR10082 Repair Technologies of Moisture Damaged Buildings 4
IR10083 Construction Repair Techniques 4
IRNS24-55
Other Complementary Studies

(Choose 0)

0
IR10084 Project Studies in Construction Engineering 1 - 5
IR10093 Bridge Project 1
IR10007 Introduction to Low Carbonite Construction 3
IT10040 Safety Expertise 2
SH10070 First Aid 1
IR10096 Advanced CAD-Planning 2