1 FACULTY OF ENGINEERING SCIENCE AND TECHNOLOGY Technology

1 FACULTY OF ENGINEERING SCIENCE AND TECHNOLOGY Technology for viability & innovation Ingvald Strømmen, October 2005

2 IVT Faculty EMPLOYEES BY TYPE § 743 employees - - - - » § 2600 students in our degree programs (500 new MSc every year) 178 Professors (Full, Assistant, Adjunct) 148 Post Doctorate Fellows Researchers, 178 Technical and adm. staff 239 Research Fellows Research Assistants § 365 Ph. D students (50 -60 new Ph. D’s / year) § 47000 m 2 of laboratory space (including SINTEF) § 43 FTE** in post graduate education (2004) § Budget: 250 million NOK / year, + 180 million NOK external activities § 130 scientific publications, from levels 1 & 2 in 2004 * MSc = Master of Science [Sivilingeniør] ** FTE= Full Time Equivalent [Årsenheter]

3 Departments & Degree programs Civil & Environmental Engineering Dept. of Hydraulic & Environmental Engineering Marine Technology Dept. of Structural Engineering Dept. of Civil and Transport Engineering Dept. of Production & Quality Engineering Product Development & Materials Dept. of Petroleum Eng. & Applied Geophysics Engineering Science & ICT Dept. of Engineering Design and Materials Dept. of Energy & Process Engineering Energy & Environmental Engineering Dept. of Geology & Mineral Resources Engineering Geosciences & Petroleum Engineering Dept. of Product Design Industrial Design

4 Research Overview - IVT Faculty of Engineering Science and Technology Fisheries and Aquaculture Sustainable Energy Better extraction petroleum resources Energy & Environment – Gas Tech. Center Better utilization of Norwegian offshore resources Information and Communication Technologies Marine Research New uses for materials Materials Innovation and Industrial Development • • • Buildings Tunnels and subsurface structures Public roads and transport systems Water and wastewater systems Hydraulic systems Energy transport systems Sustainable Infrastructure Product development and production Profitable and sustainable production in Norway Industrial Ecology

5 Laboratory Resources • The laboratories are what make the research communities unique • Together with SINTEF, we have approximately 47 000 m 2 of laboratory space at our disposal (27 500 m 2 is IVT’s alone).

6 The Student tank

7 IVT’s GOALS AND STRATEGIES 2004 -2010 Goal 1 » Long-term, world class research • The Faculty of Engineering Science and Technology (IVT) shall engage in long-term, world class research, emphasizing research areas that contribute to a societal development characterized by sustainability and innovation. • Strategies (for example): – Concentrate on the primary areas with good potential – Reinforce strong research groups (sub-departments), while making good use of and further developing our laboratories. – Focus on international research collaborations and agility – Measure quality and relevance using international criteria. Vision: Technology for viability & innovation

8 IVT’s GOALS AND STRATEGIES 2004 -2010 Goal 2 » Educate for knowledge-based development & innovation • The Faculty of Engineering Science and Technology (IVT) shall, through research based teaching, produce candidates with high competencies, prone to engage in knowledge-based development and innovation. • Strategies (for example): – Integrate teaching and research, using customized academic profiles – Further develop international Masters degree programs – Establish degree programs tied to innovation and invention – Develop alliances with institutions abroad – Ensure that post-graduate education operations are in line with market needs and demands Vision: Technology for viability & innovation

9 IVT’s GOALS AND STRATEGIES 2004 -2010 Goal 3 » Communicate technology’s significance for societal development • The Faculty of Engineering Science and Technology (IVT) shall further and convey knowledge concerning technology to our community, and emphasize its significance for sustainable societal development. • Strategies (for example): – Promote research arenas (sub-departments) in such a way as to create awareness concerning their contributions to society – Encourage and contribute to a sufficient focus on technology and the natural sciences in the school system, on all levels. – Participate in research policy processes, asserting the value creation opportunities that fall within our Faculties academic arenas (sub-departments). Vision: Technology for viability & innovation

10 IVT’s GOALS AND STRATEGIES 2004 -2010 Goal 4 » Develop the organizational culture and core values • The Faculty of Engineering Science and Technology (IVT) shall further develop our organizational culture, values, attitudes, and management philosophy, in support of both a good working environment for our employees and a first-rate learning environment for our students. • Strategies (for example): – Further develop an organizational culture that reinforces our identity and shared values (working conditions, interaction, leadership, respect). – Create a stimulating learning environment (motivating, life-long learning, utilize laboratories and engineering workshops). – Develop a model system for dimensioning the research groups (subdepartments) appropriating resources, and using human resource policy initiatives. Vision: Technology for viability & innovation

11 INNOVATION AND INDUSTRY Innovation – NTNU’s goal NTNU wants to stimulate entrepreneurship among students, staff and the community, and thus contribute to building more value into Norway’s economy. Innovation should be an integral part of the university’s three main areas of operation – education, research and dissemination. (NTNU Board decision, April 2001)

12 INNOVATION AND INDUSTRY FAKTA Innovation • • • Gløshaugen Innovation Center (now full, with 20 businesses) Lectures on entrepreneurship Technology Transfer Office AS Help and support for people with ideas Idea search in the academic communities Business plan competition (Venture Cup) Results 2003: 30 business ideas suitable for commercialisation 15 patents registered from NTNU 7 businesses established with NTNU as a starting point

13 Entrepreneurship and Innovation

15 High innovative ability 1) LNG Technology • Einar Brendeng (1984): • ”The main heat exchanger is still a black box in an LNG plant. Only the manufacturer know the actual geometry and the LNG operator does not even have access to temperature probes within their own heat exchanger. ”

16 High innovative ability 5. Small Turbine Partners SMALL TURBINE PARTNER Technology: § The company construct, produce and sell hydropower turbines with high efficiency and high operation reliability to small and medium sized hydropower plants. § § Effect range 250 k. W to 10 MW § § Annual turnover 2003: NOK 2. 8 mill The turbines are taylormade for each specific case. The company also offerconsultancy services to owners of small hydropower plants. Their plate and pelton turbines are patended both national and international. Number of employees 2003: 4

17 High innovative ability 6. DTECH A/S Technology: § Heat pump drying technology using partly atmospheric freeze drying to produce the next generation of instant food products. § A factory are now being installed in Hungary for drying sweet corn and peas

18 Department of Engineering Design and Materials Engineering Design research group Commercialisation of Research Results • • Incorporated in 2000 Mobile telecom products and services • • – Business services • – SMS, MMS, WAP, Java US subsidiary: m. Snap Interactive www. boostcom. no; www. msnap. com • • Incorporated in 1999 US subsidary Development of software for mechanism simulation Consultancy www. fedem. com • • • Incorporated in 2001 in Trondheim Engineering consultancy Turnover 2003: 1, 4 MNOK Clients: Lockheed Martin, Kongsberg D&A, other Norwegian industry • • Incorporated in 2004 in Torino, Italy Turnover 2005 (est): 100 k€ Engineering consultancy Automotive products Clients: Ferrari, Graziano

19 Department of Engineering Design and Materials Metal Manufacture Group Innovation ability Johan Slutås Alupro-N as was established 1984 and is located in Trondheim, Norway. Turnover in 2004 : EUR 1, 6 mill. Core Activities: Series production of aluminium components by special forming methods. Product design and materials engineering services.

20 High innovative ability 2. Transcritical CO 2 tap water heat pumps - in Norway and Japan (development started 1989) - based on licences from Hydro/Shecco • § § § • Norway: • First commercial plant at • AS Eggprodukter, Larvik • Supplies hot water using 1/5 of electricity compared to el. heating- Running since November 1999 • Japan: - Residential use - 4 k. W heating effect, 90 o. C temp - Average el. use 1, 3 k. W - Approx. 50. 000 plants sold on the Japanese market in 2002 - Estimated reduction in Norway: approx. 7 TWh per year.

21 High innovative ability 3. Car cooling device • SINTEF/Hydro 1990 -1993: • First prototype measurements § Japanese, European and American carproducers (1993 - § EU RACE Project (1994 -1997) § VDA (Verband der Automobilindustrie): Heat pump in cars § SAE Alternate Refrigerant Symposium 1998 -2002, og Cooperative Research Program 1999 - CO 2 lab. prototype BMW 520 CFC-12 system

22 High innovative ability 4. Energos ASA § § Annual turnover 2002: NOK 236 mill Number of employees 2002: 69