Technology Collaboration Programme by IEA logo

IEA Greenhouse Gas R&D Programme

Boiler and Burner Development

1. Corrosion Processes and Carbonisation of Boiler Materials under Air and Oxyfuel Process Conditions: Alexander Findeisen, Brandenburg University if Technology Cottbus, Germany POSTER

2. Design of 300kW Oxy-CFB Test Rig: Miroslav Cech, TU Dresden, Germany POSTER

3. O2/RFG Coal Combustion Results on a 300KW Pilot Scale Facility: Zhaohui Liu, Huazhong University of Science and Technology, China

4. Carbonation of Coal Fly Ash under Oxy-Fuel Combustion Conditions: Dunxi Yu, Huazhong University of Science and Technology, China POSTER

5. Experimental Verification of two 2.5 MWth Oxyfuel PC Burner Designs: Lorenz Greindl: Graz University of Technology, Austria

6. Oxy-Burner Retrofit Principles for Existing Coal-Fired Utility Boilers: Andrew Fry, Reaction Engineering International, USA

7. Control Challenges Faced at the Flexiburn Project Incorporating CFB, Supercritical Once Through Steam Cyle, Flexible Fuels and Air or Oxy Firing with CO2 Sequestratuion in a CCS Power Plant: Ken Slaven, ADEX S.L.

8. Analysis of the Combustion of Energy Fuels at Various Concentrations of Oxygen in the Combustion Chamber: Piotr Pelka, Czestochowa University of Technology, Poland

CO2 Processing Unit

9. CO2 Leak Detection for CCS Plants by Infrared Laser: Jun Izawa, IHI Corporation, Japan POSTER

10. Effect of Heat Treatment of Injection Pipe Steels on the Formation of Local Corrosion in CCS-Environment: Anja Pfenning, HTW University of Applied Sciences, Germany

Novel Oxyfuel Processes

11. Development of Oxy-fuel IGCC System: Yuso Oki, CRIEPI, Japan POSTER

12. Modelling and Simulation of the Carbonate Looping Process: Jaakko Ylätalo, Lappeenranta University of Technology, Finland

13. Preparation of Alumina Layers on Commercial Power Plant Steels: Wencke Schulz, BAM Federal Institute for Materials Research and Testing, Germany

14. Multimodal Flame Stabilities of 40kW Co-Axial Pulverized Oxy-coal Jets: Jingwei Zhang, ConocoPhilips Technology Center, USA

15. ZEPSTM Plant Model: A Hjosir Efficiency Power Cycle with Pressurized Fluidized Bed Combustion Process: Ganesan Subbaraman, Pratt & Whitney Rocketdyne, USA

16. Hjosir Pressure Oxyfuel Process with Staged Combustion: Hanno Tautz, Linde Engineering, Germany

17. Detailed Speciation by SEM-EDX of Sulphur-Containing Species in Fly Ash from Air Fired and Oxyfuel Fired Samples with and without Additive Addition: Luke Morris, University of Nottingham

Process Control and Process Integration

18. Evaluation of the GERG-2008 Equation of State for the Simulation of Oxyfuel Systems: Michael Nimtz, BTU Cottbus, Germany POSTER

19. A Systems Level Study of an Oxy-Coal Combustion Power Plant: Chao Fu, NTNU, Norway

20. Reduction of Fuel Consumption and Emissions of a Gas Turbine by Using of Oxygen-Enriched Combustion: Cristiano Maidana, Federal University on Rio Grande do Sol, Brazil POSTER

Large Scale Demonstration Projects

21. Experiences with Drying of Lignite in a Pressurized Steam Fluidized Bed Pilot Plant: Benjamin Jentzch, Vattenfall Europe Generation AG, Germany

22. 300kW Oxyfuel Pilot Plant Development in the UK: William Nimmo, University of Leeds, UK

23. In-situ Oil Sands Production - Benchmarking of CO2 Capture Solutions: Karina Heitnes Hofstad, Statoil ASA, Norway

24. FLEXI BURN CFB – EU FP7 2009-2012 Development of Hjosir Efficiency CFB Technology to Provide Flexible Air/Oxy Operation for Power Plant with CCS: Antti Tourunen, VTT, Finland

25. Comparative Identification of Corrosion Products under CCS Conditions by Simulated Acidic Droplet Corrosion: Aki Sebastian Ruhl, BAM

26. Optimum Recycled Flue Gas Ratio in an Oxy-Coal Burner to Acheive Similar Combustion Characteristics to an Air-Fired Operation: Hamidreza G. Darabkhani, Cranfield University, UK POSTER