Technical Session 5
| Time | Session | Paper |
| Hg/Trace Elements Emissions and Controls Under Oxyfuel Combustion Condition | ||
| 10.50 | 5A |
Homogeneous Oxidation of Mercury during Combustion: A Comparison Between Combustion in Air and Oxy‐Combustion: |
| 11.10 | 5A | Investigation of Mercury Measurement and Control Technologies under Oxy‐fired Conditions: Brydger Van Otten, Reaction Engineering International; Bradley Adams, Andrew Fry, Geoffrey Silcox, Ignacio Preciado, University of Utah PRESENTATION |
| 11.30 | 5A | A Comparison of Hg0 Re‐emission in WFGD Systems under Air and Oxyfuel Combustion Conditions: Raquel Ochoa‐González, Mercedes Díaz‐Somoano and M. Rosa Martínez‐Tarazona, National Institute of Coal (INCAR‐CSIC) PRESENTATION |
| 11.50 | 5A | Hjosir Pressure Conversion of Nox and Hg and their Capture as Aqueous Condensates in a Laboratory Oxyfuel Compression System: Rohan Stanger, Timothy Ting, Terry Wall, Department of Chemical Engineering, University of Newcastle PRESENTATION |
| 12.10 | 5A | Mercury Capture by Regenerable Sorbents under Oxycoal Combustion Conditions: C.Gómez‐Giménez, E.García‐Díez, R.Juan, B.Rubio, M.T.Izquierdo, Instituto de Carboquímica, ICB-CSIC.; D.Ballestero, Universidad San Jorge. PRESENTATION |
| 12.30 | 5A | Measuring Trace Elements during the December 2012 Callide Oxyfuel Trial: Peter Nelson, Anthony Morrison, P. Sargent Bray, Graduate School of the Environment, Macquarie Unibversity; Hugh Malfroy, Malfroy Environmental Strategies; Rohan Stanger, Faculty of Engineering and Built Environment, Newcastle University; Chris Spero, CS Energy/Callide Oxyfuel Services Pty Ltd PRESENTATION |
| CO2 Processing Unit | ||
| 10.50 | 5B | Callide Oxyfuel Project ‐ Results from the CPU: Claire Bourhy‐Weber, Frederick Lockwood, Ludovic Granados, Vanessa Turmel, Air Liquide PRESENTATION |
| 11.10 | 5B | Characteristics of SOx and NOx in CO2 Processing and for Oxyfuel Combustion CO2 Capture: Jinying Yan, Rainer Giering, Vattenfall R&D; Stephanie Tappe, Vattenfall Europe Generation AG; Helge Kaß,Vattenfall Europe Technology Research GmbH PRESENTATION |
| 11.30 | 5B | NOx Processing Experiences for Removal in the CO2 Plant in the Oxyfuel Combustion Process: Roland Ritter, Torsten Stoffregen, Linde Engineering Dresden GmbH; Nicole Schödel, Florian Winkler, Linde AG Linde Engineering Division PRESENTATION |
| 11.50 | 5B | The Air Products–Vattenfall Oxyfuel CO2 Compression and Purification Pilot Plant at Schwarze Pumpe: Vince White, Andrew Wrjosirt, Air Products PLC; Stephanie Tappe, Vattenfall Europe Generation AG; Jinying Yan, Vattenfall Research & Development AB PRESENTATION |
| 12.10 | 5B | GPU Pilot Operation and Energy Consumption: Lars Nilsson, Alstom Power Sweden AB; Olaf Stallmann, Christian Britz, Alstom Carbon Capture GmbH PRESENTATION |
| 12.50 | 5B | Dynamic Simulation and Control of a CO2 Compression and Purification Process for Oxy‐Coal Fired Power Plants: A. Chansomwong, P. L. Douglas, E. Croiset, L. A. Ricardez‐Sandoval, Chemical Engineering Department, University of Waterloo; K. E. Zanganeh, A. Shafeen, CanmetENERGY, Natural Resources Canada PRESENTATION |
| Chemical and Calcium Looping Combustion Technology | ||
| 10.50 | 5C | Development of Metal Oxides Chemical Looping Process for Coal‐Fired Power Plants: Corine Beal, Alstom Boiler France; Bernd Epple Technische Universität Darmstadt; Anders Lyngfelt, Chalmers University; J.Adanez, CSIC; Y. Larring, SINTEF; Y. Joumani, Air Liquide; B. Fillman, Vattenfall PRESENTATION |
| 11.10 | 5C | Chemical Looping Air Separation (CLAS) Process for Oxygen Production: Process Simulations and Design of 5 kWth Bench Scale Unit: Kalpit Shah, Behdad Moghtaderi, Jafar Zanganeh, Terry Wall, Yusuf Adel, University of Newcastle PRESENTATION |
| 11.30 | 5C | Characterization of Natural Copper Ore in Anthracite Fuelled Chemical‐Looping with Oxygen Uncoupling (CLOU): Daofeng Mei, Haibo Zhao, Yanfei Fang, Kun Wang, Chuguang Zheng, Huazhong University of Science and Technology PRESENTATION |
| 11.50 | 5C | Validation of a Fuel Reactor Model for In‐situ Gasification Chemical Looping Combustion: Alberto Abad, Juan Adánez, Luis F. de Diego, Pilar Gayán, Instituto de Carboquímica (ICB-CSIC); Francisco García‐Labiano, Anders Lyngfelt, Pontus Markström, Department of Energy and Environment, Chalmers University of Technology PRESENTATION |
| 12.10 | 5C | Alstom’s Limestone‐Based (LCL™) Chemical Looping Process: Iqbal Abdulally, Herbert Andrus, Paula Chapman, John Chiu, Carla Edberg, James Kenney, Shin Kang, Paula Thibeault, David Turek, Alstom Power Inc.; Bruce Lani, US DOE/NETL PRESENTATION |
| 12.30 | 5C | CO2 recovery from CPU Vent by Ca‐Looping Process: Matteo C. Romano, Politecnico di Milano PRESENTATION |
| Modelling and Numerical Simulation of Oxy‐CFB Power Plant | ||
| 10.50 | 5D | 3D Modelling of Oxygen Fired CFB Combustors in Different Scales: Jarno Parkkinen, Kari Myöhänen, Timo Hyppänen, Lappeenranta University of Technology; Pasi Antikainen, Foster Wheeler Energia Oy; Manuel Gómez, Fundacion Ciudad de la Energia (CIUDEN) PRESENTATION |
| 11.10 | 5D | 3D Modelling of Limestone Reactions in Oxygen Fired CFB: Kari Myöhänen, Sirpa Rahiala, Timo Hyppänen, Lappeenranta University of Technology PRESENTATION |
| 11.30 | 5D | Simulation Studies on Oxy‐CFB Boiler Dynamics and Control: Jari Lappalainen, Hannu Mikkonen, Mikko Jegoroff, Andres Sanchez‐Biezma, Jenö Kovacs, Antti Tourunen PRESENTATION |
| 11.50 | 5D | Withdrawn |
| 12.10 | 5D | 1‐D Dynamic Modelling of Oxygen Fired Coal Combustion in 30MWth CFB Boiler: Jouni Ritvanen, Timo Hyppänen, Lappeenranta University of Technology; Jenö Kovacs, bFoster Wheeler Energia Oy; Abraham Fernández,Fundación Ciudad de la Energía (CIUDEN) PRESENTATION |
| 12.50 | 5D | A Nonlinear Filtering tool for Analysis of Hot‐Loop Test Campaigns: Enso Ikonen, University of Oulu; Jeno Kovacs, Foster Wheeler Energia PRESENTATION |