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Oulu University of Applied Sciences School of Engineering, Oulu Oulu Campus Raahe Campus.

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Presentation on theme: "Oulu University of Applied Sciences School of Engineering, Oulu Oulu Campus Raahe Campus."— Presentation transcript:

1 Oulu University of Applied Sciences School of Engineering, Oulu Oulu Campus Raahe Campus

2 Oulu University of Applied Sciences School of Engineering & Other Schools School of Health and Social Care Kari Virolainen School of Business and Information Management Päivi Vesala Rector’s Office Jouko Paaso School of Engineering Oulu Campus Raahe Campus Jyrki Laitinen School of Vocational Teacher Education Asko Karjalainen School of Renewable Natural Resources Jukka Tikkanen School of Music, Dance and Media Riitta Tötterström

3 Oulu University of Applied Sciences - 9,000 students including 230 international degree students and 230 exchange students from ca. 50 countries - 1,800 annual intake - 1,400 students in adult education - 1,200 completed degrees annually - 600 students in the School of Vocational Teacher Education 200 complete the pedagogical studies annually -Employment rate of graduating students 70% -2000 students School of Engineering Oulu Campus -700 students in Civil Engineering

4 Oulu University of Applied Sciences - 800 teachers and other staff members In addition, over 100 visiting lecturers and experts from abroad - 30 Bachelor’s degree programmes, of which 4 in English (Business Information Technology,International Business, Information Technology in Raahe & Oulu) - 10 Master’s degree programmes, out of which 2 in English (Industrial Management, Information Technology) - € 55 million annual turnover

5 Structure of Studies Further education Professional Specialisation Studies 30–60 ECTS cr First cycle degree Bachelor’s degree 3.5–4.5 years 210–270 ECTS cr Bachelor’s thesis 15 ECTS cr Practical training 30–120 ECTS cr. Free-choice studies 15 ECTS cr Second cycle degree Master’s Degree 60–90 ECTS cr Professional studies (compulsory / optional) Basic studies (compulsory / optional) 135–240 ECTS cr Three years work experience Civil Engineering: Bachelor of Engineering, BEng, 240 ECTS credits (4 years) Options: House Building Engineering, Municipal Engineering Construction Management: Bachelor of Engineering, BEng, 210 ECTS credits (3.5 years)/Master Builder Options: House Building Engineering, Municipal Engineering

6 Basic Studies and Professional Studies (Option of House Building Engineering) T523103 Basics of Product Type Based Building Design 3 ECTS cr Learning outcomes: The student knows the basic concepts of building information modelling (BIM) and understands the use and benefits of creating a building information model. Contents: The basics of building information modeling. Modeling guidelines for designers. Use of product libraries. Object technology examples. Building simulation. Examples of pilot projects In practise: Basic use of Archicad, BIM basic ideas, a single-family house project, 75 students/ year SP, 1.3.2012 Advised Free-choice Studies (Module of Construction Technology) T545203 Application Programs in Construction Industry 3 ECTS cr Learning outcomes: The student becomes familiar with the application programs of cost control and management of production in building project and will apply them in practice. Contents: Application programs of cost calculation in construction planning. Application programs of construction cost calculation and cost control in production. In practise: One class/academic year – 25 students. TCM link available to cost management and time sheduling programmes

7 Advised Free-choice Studies (Module of house building engineering) T525403 Advanced Course in Product Type Based Construction Design 3 ECTS cr Learning outcomes: The student becomes familiar with the hierarchy of the building information models and different ways of using it building processes and is able to use building information modeling with different software applications and understands the basic differences between design model and building information model. Contents: Creating a building information model and modifying a design model according to the building information model instructions. Making use of the building information model in different steps of house building and design. In practise: One class/academic year – 25 students. The students will: - get familiar with different models of design (HVAC, electricity) and different architect models created with programs like Revit and Archicad - practice creating a simple model with the main aim in quantities - produce and transfer quantities from a modell both to excel and to costs calculation programms - get familiar with combination and fitting together of different models and collision detection of systems - get familiar with Tekla structural model structure and it’s practical use e.g. time scheduling in a project - get familiar with the practical use of BIM in prefabrication of conrete strcuctures SP, 1.3.2012

8 Optional - free-choise courses T515903 Application Software for Structural Engineering, TEKLA 3 ECTS cr Concrete, steel structural design, 2 classes/academic year – 50 students, programm basics T514103 Optional Course of Construction Engineering 1, Revit Structure3 ECTS cr Wooden structural design, 2 classes/academic year – 50 students, programm basics, as a project a structural modell of a small factory T514103 Optional Course of Construction Engineering 1, Vertex 3 ECTS cr Building design of prefabricated wooden houses, 2 classes/academic year – 50 students, programm basics, as a project single-family house SP, 1.3.2012 Modelling/ Building physics/ Programmes available Comsol multiphysics, thermal studies IDA ICE – energy simulation Therm, thermal bridges


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