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Application of Hybrid Energy Systems to Manage Carbon Footprint and Reduce Environmental Impact of Energy Processes – Smith et al
Abstract
The IFRF’s 16th International Members’ Conference took place in Boston between 8 and 10 June 2009 and was attended by some 80 delegates. Around forty papers were accepted for the conference and these were grouped into eight parallel sessions which ran over the three days alongside a number of plenary sessions of which four were dedicated to invited keynote speakers. Two workshops were also held, one entitled “Experiments and simulations: extracting information from uncertain measurements and predictions” chaired by Professor Phil Smith of the University of Utah, and the other, “Present and future applications of flameless combustion in various industries and processes”, chaired by IFRF Vice President Jacques Dugué.
This website contains all the presentations delivered by conference speakers and made available to the IFRF afterwards. They have been organised by session. For a quick overview of the order of events, please see the Conference programme, also available at this site.
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Research: Conference
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Outline
- 01 Application of Hybrid Energy Systems to Manage Carbon Footprint and Reduce Environmental Impact of Energy Processes – Smith et al
- 02 Measurements and analysis of blowoff in CH4-CO2-O2 flames – Amato et al
- 03 OH-PLIF Studies of Acoustically Forced Swirl Flames – Sai Kumar Thumuluru, Tim Lieuwen
- 04 Applying Laser-Induced Incandescence (LII) Technique to Soot Volume Fraction Measurements For Pyrolyzing Pulverized Coal – Hu et al
- 05 Invisible-HiTAC-flame Control using Flame Ionization Monitoring Technique applied to Demonstration Plant for Advanced Steam Reformer – Mochida and Araake
- 06 Supporting Material to Hinnrichs – Tajigus video
- 07 Remote Sensing and Analysis of Unburned Gases from Stacks and Flares Using Imaging Spectroscopy – Michele Hinnrichs
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Download PDFWood, J. D. S. P. R. B. P. a. R. (2009) Application of Hybrid Energy Systems to Manage Carbon Footprint and Reduce Environmental Impact of Energy Processes – Smith et al.