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IEA Greenhouse Gas R&D Programme

IEAGHG funds research into the development and deployment of carbon capture and storage (CCS) technologies

Facilitating technology advancements, addressing barriers, and enabling deployment. Our work focuses on technologies that can reduce our carbon emissions, and mitigate climate change and global warming. We are a not for profit organisation, and all of our work is subject to peer review ensuring that it remains impartial and unbiased.

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Technical Session 5

Time Session Paper
Demonstration and Large Scale Pilot Plant Projects (3)
10.40 5A

Flue Gas Desulphurisation for hot Recycle Oxyfuel Combustion: Experiences from the 30MWth Oxyfuel Pilot Plant at Schwarze Pumpe: Uwe Burchhardt, Vattenfall R&D AB, Sweden
PRESENTATION 
11.00 5A

CO2 Processing Experiences for Oxyfuel Combustion CO2 Capture - Based on Results from Vattenfall's 30 MWth Oxyfuel Pilot Plant: Uwe Burchhardt, Vattenfall R&D AB, Sweden
PRESENTATION 
11.20 5A

Development of the CO2 Demonstration Plant from Experience of the CO2 Pilot Plant Schwarze Pumpe: Roland Ritter, Linde KCA Dresden GmbH, Germany
PRESENTATION 
11.40 5A

Commissioning and First Experiences of the Operation of "Alternative CO2 Pilot Plant" (ACPP at Schwarze Pumpe: Lars Stromberg, Vattenfall
12.00 5A

The Vattenfall-Air Products Oxyfuel CO2 Compression and Purification Pilot Plant at Schwarze Pumpe - Initial Results: Vince White, Air Products PLC, UK
PRESENTATION  
12.20 5A FutureGen2.0: ASU and CPU Design and Integration: Frederick Lockwood, Air Liquide, France
PRESNENTATION 
Oxyfuel Combustion Fundamentals (2)
10.40 5B

Combustion Observation of Co-Firing with Bituminous and Sub-Bituminous Coals in Oxyfuel Condition: Gyungmin Choi, Pusan National University, South Korea
PRESENTATION 
11.00 5B

Modelling of Particle Radiation in Oxyfuel Flames: Klas Andersson, Chalmers University, Sweden
PRESENTATION 
11.20 5B Evaluation of Heat Transfer Characteristics of a Commercial Scale Oxyfuel Boiler: Yoshiharu Hayashi, hitachi Ltd., Japan
PRESENTATION 
11.40 5B

Impacts of Oxyfuel Combustion on Coal Ash and Deposits: Jost Wendt, Utah University, USA
PRESENTATION 
12.00 5B

Effect of Flue Gas Recycle Composition on Ash Coal Aerosol Chemistry in Oxy-Fired Combustion: William Morris, Utah University, USA
PRESENTATION 
12.20 5B Multimodal Flame Stabilities of 40kW Co-Axial Pulverized Oxy-coal Jets: Jost Wendt, Utah University, USA
PRESENTATION 
CFD and Process Modelling
10.40 5C

Comparisson of RANS and LES Turbulance Models for Predicting Air-Coal and Oxy-Coal Combustion Behaviours: Alessandro Pranzitelli, Leeds University, UK
PRESENTATION 
11.00 5C

Three Dimensional Modelling of a 300MWe Flexi-Burn CFB for Multifuel Combustion in Oxygen-Fired and Air-Fired Modes: Journi Ritvanen, Lappeenranta University, Finland
PRESENTATION 
11.20 5C

Assessment of of Full-Scale Boiler Oxy-Combustion Retrofit using CFD Modelling: Andrew Fry, Reaction Engineering, USA
PRESENTATION 
11.40 5C

An Integrated CFD-Process Model for Oxy-Coal Combustion: Alessandro Pranzitelli, Leeds University, UK
PRESENTATION 
12.00 5C

Prediction of Combustion andnHeat Recovery Characteristics of Oxy-Combustion Boiler using CFD: Makoto Takafuji, IHI Corp., Japan
PRESENTATION 
12.20 5C Large Eddy Simulation of a Pulverised Coal Burner under Ait and Oxy-Firing Conditions: Benjamin Franchetti, Imperial College London, UK