- Experiments in a Once-through Furnace Simulating Different Extents of Recycle Gas Cleaning in Coal-fired Oxy-fuel Combustion: Behaviour of Mercury:
Reinhold Spörl, Jörg Maier, IFK - Institute of Combustion and Power Plant Technology, Universität Stuttgart; Lawrence Belo, Kalpit Shah, Rohan Stanger, Terry Wall, Chemical Engineering, The University of Newcastle - CO2 Quality Control by Scrubbing in Oxy-fuel Combustion: An Evaluation of Operational pH Impacts, and Prediction of SO2 Absorption Rate:
Dunyu Liu, Terry Wall, Rohan Stanger, Yinghui Liu, Chemical Engineering, the University of Newcastle -
Design of Steam Cycle for Oxy-combustion Coal based Power Plants with an emphasis on Heat Integration:
R. Soundararajana, T. Gundersen, Norwegian University of Science and Technology, Dep. Energy and Process Engineering; R. Anantharaman, SINTEF Energy Research - Particle Behavior of Solid Fuels under Oxy-fuel Conditions:
Christopher Thiel, Martin Pohl, Michael Beckmann, Technische Universität Dresden, Institute of Power Engineering; Thomas Herzog, Wolfgang Spiegal, CheMin GmbH - Vertical Solids Suspension Distribution under Air/Carbon Dioxide Conditions in
a Circulating Fluidized Bed:
Maciej Komorowski, Pawel Mirek, Wojciech Nowakc, Institute of Advanced Energy Technologies, Czestochowa University of Technology -
Reliable and Efficient Combustion of Oxygen/Coal/Recycled Flue Gas Mixtures (RELCOM):
Steve Wilcox, University of Glamorgan, Faculty of Advanced Technology; Neil Fricker, University of Glamorgan, -
FLEXI BURN CFB - Development of Hjosir Efficiency CFB Technology to Provide Flexible Air/Oxy Operation for Power Plant with CCS:
Antti Tourunen, Toni Pikkarainen, VTT Technical Research Centre of Finland -
Control Strategy of the Transition Process for the 3MWth Oxyfuel Full Chain System in China:
Luo Wei, Liu Zhaohui, Huang Xiaohong, Zhang Tai, Wang Qiao, Zheng Chuguang, Huazhong University of Science and Technology -
Comparison of Cryogenic Air Separation Processes Based on Energetic and Exergetic Criteria:
Hayato Hagia, EDF R&D, Fluid Dynamics Power Generation and Environment Department and MINES ParisTech, DEP - Department of Energy and Processes; Yann Le Moullec, EDF R&D, Fluid Dynamics Power Generation and Environment Department; Chakib Bouallou, MINES ParisTech, DEP - Department of Energy and Processes - Oxy-fuel Combustion Demonstration Facility with Flue Gas Recirculation for Burner Evaluation:
Chendhil Periasamya, Vijaykant Sadasivunia, Ken Kaisera, Scott Liedela, Rong Fana, Jiefu Ma, Air Liquide, Delaware Research and Technology Center; Niomar Marcano, Patrick Recourt, Remi Tsiava, Air Liquide, Claude Delorme Research Center -
Thermodynamic Performance and NOx Emission Characteristic in Syngas-dedicated Gas Turbine in IGCC Power Plant:
Hyeon-Jeong Kim, On Nu-ri Won, Gyung-Min Choi, Duck-Jool Kim, Pusan Natioanl University -
Influence of Fluidizing Gas Composition on Combustion and NOx Emission:
Carlos Lupiañez, Isabel Guedea, Irene Bolea, Luis I. Díez, Luis M. Romeo, CIRCE – Center of Research of Energy Resources and Consumptions - Coal Char Gasification in O2/Ar, Ar/CO2 and O2/CO2 Environments:
Hirotatsu Watanabea, Li Xiaofana, Ken Okazaki, Tokyo Institute of Technology - Experimental Study of a New Hybrid CO2 Capture Configuration:
K. E. Zanganeh, A. Shafeen, A. Beigzadeh, C. Salvador, M. Abbassi, CanmetENERGY, Natural Resources Canada - Carbonation of Ash Deposits During Oxy-coal Combustion:
Zhonghua Zhan, Jost O.L. Wendt, Department of Chemical Engineering and Institute for Clean and Secure Energy, University of Utah - Effects of Directed Pure O2 Injection on Flame Stability in Co-axial Oxy-fuel Turbulent Diffusion Flames:
Dadmehr Rezaei, Jost O.L. Wendt, Department of Chemical Engineering and Institute for Clean and secure Energy, University of Utah - Efficiency Assessments of Pressurized Oxy-Coal Power Generation with Integrated Flue Gas Heat Recovery:
Hou-Tsen Chena, Deparment of Mechanical Engineering and Research Center for Energy Technology and Strategy National Cheng Kung University and Ming-Hsun Wua, Deparment of Mechanical Engineering, National Cheng Kung University
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Influence of Water Vapour Concentration on Pulverized Coal Oxyfuel Combustion Process with Flue Gas Recirculation:
Bartosz Świątkowski, Paweł Bocian, Ewa Marek, Institute of Power Engineering,Department of Thermal Processes -
Development of an Advanced, Elevated Pressure, Oxy-fuel Power Plant with CO2 capture:
Mark Fitzsimmons, Pratt&Whitney Rocketdyne; Martin Kibili, Alexander Alekseev, Stevan Jovanovic, Linde Group, Clean Energy and Innovation Management -
Ignition Modeling of Single Coal Particle Under Oxy-fuel Combustion:
Huang Xiaohong, Yang Ming, Liu Zhaohui, Pi Ligang, Zheng Chuguang, Huazhong University of Science and Technology -
Dynamic Simulation on the Transition Process of the 3MWth Oxyfuel Full Chain System:
Luo Wei, Liu Zhaohui, Huang Xiaohong, Zhang Tai, Wang Qiao, Zheng Chuguang, Huazhong University of Science and Technology -
Large Eddy Simulation of a 100 kWth Oxy-coal Swirl Burner:
B.M. Franchetti, F. Cavallo Marincola, S. Navarro-Martinez, Department of Mechanical Engineering, Imperial College London; S. Black, M. Pourkashanian, CFD Centre/ETII, Faculty of Engineering, University of Leeds; A.M. Kempf, Universitat Duisburg-Essen - Coal Dust Ignition Experiments for Oxyfuel Safety:
Ignacio Trabadela, Jon Gibbins, Institute for Materials and Processes, School of Engineering, university of Edinburgh; Hannah Chalmers, Institute for Energy Systems, School of Engineering, University of Edinburgh - EU project - Optimization of oxygen-based CFBC technology with CO2 capture (O2GEN):
LM Romeo, CIRCE; R Kuivalainen, FWEOY; JP Tranier, Air Liquide; M Gómez, CIUDEN; A Sánchez-Biezma, ENDESA; A Tourunen, VTT Technical Research Centre of Finland; B Navarrete, Universidad de Sevilla; JL Bayort, INERCO; P Gimondo, CSM; R Bialecki, Politechnika Slaska SUT; T Hyppänen, LUT - Influence of CO2 and Oxygen Enriched Oxidizer in Natural Gas Combustion:
E. Karagianni, K. J. Hughes, D. Ingham, A. Pranzitelli, M. Pourkashanian, Energy Technology and Innovation Initiative (ETII), Faculty of Engineering, University of Leeds -
New Solvents for Carbon Dioxide Capture by Means of Chemical Absorption:
A. García-Abuín, D. Gómez-Díaz*, J.M. Navaza, Department of Chemical Engineering. ETSE -
Research on Potential Environmental Impacts of Oxy-fuel Combustion at EPA:
Chun Wai Lee, William Linak, National Risk Management Research Laboratory, U.S. Environmental protection Agency; Christopher K. Winterrowd, ARCADIS U.S. Inc; Myrrha Andersen, Department of Mechanical and Aerospcae Engineering, North Carolina University - SO2 Absorption from Oxy‐Combustion Flue Gases:
Ruth Diego, Miguel A. Delgado, Manuel Gómez, Tomás Coca, Pedro Otero, Fundación Ciudad de la Energia (CIUDEN); Frederick Lockwood, Ludovic Granados, Vanessa Turmel, Air Liquide - Oxy‐Combustion Model and Numerical Simulation in Pulverized Coal Flames:
A. Bermúdez, I. Constenla, Departamento de Matemática Aplicada, Universidad de Santiago de Compostela; Ruth Diego, J.L. Ferrína, Benito Navarrete, Pedro Otero, Jesús Ramos, CIUDEN; L. Saavedra, Departamento de Matemática Aplicada Universidad Politécnica de Madrid -
Chemical Challenges to Metallic and Ceramic Materials in Oxyfuel Co‐Firing CFB Combustors:
M.C. Mayoral, J.M. Andrés, M.P. Gimeno, L.I. Díez, Instituto de Carboquímica – CSIC - Effect of Recirculated SO2 on Soot Formed from Ethylene Pyrolysis. Application of Flue Gas Recirculation (FGR) Techniques:
María Abián, Ángela Millera, Rafael Bilbao, María Alzueta, Aragón Institute of Engineering Research (I3A), University of Zaragoza - Heat Fluxes of Interacting Swirled Coal Flames:
Maximilian Blume, Andreas Bamgartner, Adrian Goanta, Pedro Dias, Technische Universität München - Institute for Energy Systems; Hartmut Spliethoff, Technische Universität München - Institute for Energy Systems and Zentrum für Angewandte Energieforschung (ZAE Bayern)