SUSPOWER – The KTH Cluster of Research Infrastructures in Sustainable Thermal Power Generation

1. SUSPOWER – The KTH Cluster of Research Infrastructures in Sustainable Thermal Power Generation Andrew Martin Associate Professor (Docent) Department of Energy Technology

2. Brief Overview of SUSPOWER • Allows transnational access to facilities in • Innovative combustion • Gasification • Gas turbine technology • Key stats: • 34 visits (each 20 exp. day) during 3 year period • 838 kEuro total budget • Commencement date 1 Nov 2004 • Project status: • First meeting of USP 24 May 2005 • 4 out of 8 proposals accepted • Visits to begin on 11 June 2005 • Homepage: www.energy.kth.se/proj/projects/SUSPOWER

3. Innovative Combustion Installation • High-temperature air combustion semi-industrial test facility (HiTAC) • Extremely high air preheating levels (up to 1300 C) • 500 kW nominal capacity • Extremely well instrumented • NOx reductions, improved fuel conversion efficiencies, and enhanced furnace performance key factors • High-pressure catalytic combustion test facility • Industrially relevant pressure levels (i.e. for gas turbines) • Variety of catalysts and fuels can be employed • Ultra-low NOx emissions possible

4. Gasification Installation • High-temperature air and steam gasification (HTAG) test facility • Extremely high preheating levels a unique feature • Variety of solid fuels can be employed • Automatic fuel feeding now available (20 kg/hr) • Biomass and wastes of particular interest • Pressurized fluidized bed reactor • Pressure levels up to 35 bar, rare in other facilities • Air, steam, and CO2 possible fluidizing agents • Coupling to CHRISGAS for complimentary experimentation

5. Gas Turbine Technology Installation • Low-pressure turbine test facility • Unique rig for testing aeromechanical phenomena in rotating components • Oscillating blade device • Critical for enhancing turbine performance and increasing component lifetime • VM100 transonic wind tunnel • Mass flows up to 4.7 kg/s at 4 bar • Wide variety of test sections available • New test sections ready mounted • Cold flow test turbine • Full-flow device • 1- 3 stages with rotational speeds up to 10000 rpm • Special diagnostic equipment • Laser anemometers including 3-D L2F • Steady and unsteady pressure measurement

6. Envisioned Impacts • Scientific novelty • Experiments conducted with two or more separate installations (e.g. gasification and catalytic combustion) • Fresh, outside approaches to utilizing existing equipment • Host benefits • Increased capacity = more efficient facility utilization • Enhanced international exposure • User/host synergies • Links to advanced numerical studies • Expanded experimental data sets • Benchmarking • Attraction for young engineers • Involvement of students encouraged

7. Reflections on the Future • Current flexibility in project implementation should be maintained • Mapping of current resources vital • Apparent duplication not necessarily negative • How can users and providers be best matched? • Desirable to include researchers outside energy field? • Assembling new multinational research teams • Education contra research • Earmarked experimental days for training purposes? • Remote operation and access