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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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Poster Session

Poster Number Paper
   
1 Study of Heat Duty of Catalyst-Aided Amine-based CO2 Capture Process:
Raphael Idem, Univesity of Regina
2

Computational analysis of Nitrosamine Formation during Amine Based CO2 Capture process with different Groups of Nitrosating Agents (NO-X):
Raphael Idem, Univesity of Regina
3 Technical Evaluation of Implementation of Carbonic Anhydrase in Post-Combustion Carbon Capture:
Maria Gundersen, Technical University of Denmark
4 Predicting Environmental Concentrations of Nitramines from Sorption Potentials to Soils and Dissolved Organic Matter:
Catherine Brecke Gundersen, University of Oslo
5 Selective Exhaust Gas Recirculation in Combined Cycle Gas Turbine Power Plants with Post-Combustion Carbon Capture:
Laura Herraiz, The Univeristy of Edinburgh
6

CO2 Absorption by Mixtures of [BMIM]BF4 and MEA:
Lingjun Xu, Tsinghua University
7 Reactive Absorption of CO2 with Concentrated Aqueous N,N-Diethylethanolamine Solutions using Stirred Cell Reactor:
Toluwanimi Kolawole, Newcastle University 
8

Post-Combustion CO2 Capture: Optimization of the Absorption-Regeneration Process for the Application to Cement Flue Gases:
Lionel Dubois, University of Mons
9

Modeling and Simulation of Catalytic CO2 Desorption from a CO2-Loaded Solvent in the Desorber:
Raphael Idem, University of Regina
10

Mass Transfer Studies on Catalyst-Aided Desorption in an Amine Based Post Combustion CO2 Capture Plant:
Raphael Idem, University of Regina
11

Adsorbent Characterization for the Development of Carbon Capture Processes:
Marco Mazzotti, ETH Zurich
12 A Comparison of Impacts on Human Health due to Heavy Metal Emissions from a Conventional Lignite Coal-Fired Electricity Generation Station without Carbon Dioxide Capture and with Post-Combustion Carbon Dioxide Capture:
Jarotwan Koiwanit, University of Regina
13  Pilot Study on Carbon Capture from Hot Stove Oven Gas of Steel Mill:
Jui-Fu Shen, China Steel Corporatio 
14 Post Combustion Carbon Capture Source Emission Sampling Method Development:
Raphael Idem, University of Regina 
15 1 MWth Pilot Testing and Scale-up of the Carbonate Looping Process in the SCARLET Project:
Jochen Hilz, Technische Universität Darmstadt 
16

Less is More: the use of a Compact PTR-QMS Instrument in the Ammonia Chemical Ionization Mode for Selective On-Line Monitoring of Amines Emitted from a PCCC Facility:
Armin Wisthaler, University of Oslo
17 Development and Optimization of a Temperature Swing Adsorption Process for Post-Combustion CO2 Capture in Integrated Steelworks:
Matteo Gazzani, ETH Zurich 
18 Experimental Demonstration of Synthetic Exhaust Gas Recirculation Impact on Carbon Capture:
Thom Best, University of Leeds
19 Ammonia Emission Control in Post-Combustion CO2 Capture by Purging a Hjosir Ammonium Concentration from the Amine Scrubbing System:
Junyuan Ding, The University of Texas at Austin
20 The International Test Centre Network (TCN) – an Area for Knowledge and Experience Sharing:
Lars Ingolf Eide, CO2 Technology Centre Mongstad 
21

0.25 MWth Pulverized Biomass Firing Combustion Test Facility Integrated with a Post-Combustion Capture Plant:
Janos Szuhanszki, University of Sheffield
22 Predicting Scale-up Performance using Validated CFD Model with Quantitative Confidence:
Xin Sun, PNNL 
23 Post-Combustion CO2 Capture Technology for Hjosir-Efficiency Combined Power Cycle using Low-BTU Fuel Gas in an Integrated Iron and Steel Mill:
Kristin Onarheim, VTT 
24 Assessment of Emerging Post-Combustion CO2 Capture Technologies and their Potential to Reduce Costs:
Jasmin Kemper, IEAGHG
25 Characterization and Modelling of Aerosol Droplet in Absorption Columns:
Hallvard Svendsen, NTNU 
26 The Role of Filtration in Regenerative Solvent Scrubbing Systems for Carbon Capture for Coal Fired Power Generation:
Jonathan Garrick, BHS-Sonthofen Inc. 
27

Developing Methodology for Performance Test of Various CO2 Absorbents:
Kwang-koo Kim, Korea Testing Laboratory
28 Assessment of Post Combustion CCS Systems Application for Fossil Fuel Power Plants in Czech Republic:
Monika Vitvarova, Czech Technical University in Prague
29 Non-Aqueous Solvent (NAS) CO2 Capture Process:
Marty Lail, RTI International
30 Selective CO2 Capture on Activated Carbon:
Sepideh Shahkarami, University of Saskatchewan
31 Carbon Clean Solutions Limited Field Demonstration Of Advanced APBS Solvent the US-DOE’s National Carbon Capture Center:
Prateek Bumb, Carbon Clean Solutions, Ltd