Advanced Combustion and Aerothermal Technologies: Environmental Protection and Pollution Reductions
Nick Syred, Artem Khalatov
Springer Science & Business Media, Oct 18, 2007 - Technology & Engineering - 471 pages
The NATO Advanced Workshop “Advanced Combustion and Aerothermal Technologies: Environmental Protection and Pollution Reductions” was held in Kiev (Ukraine) from 15 to 19 May 2006 and was organized by the Institute of Engineering Thermophysics (Ukraine) and Cardiff University (UK). This Workshop based on the long-term collaboration between the Institute of Engineering Thermophysics and Cardiff University resulted in a first NATO Scientific Prize received by Professor N. Syred, UK, and Professor A. Khalatov in 2002, who served as Workshop codirectors. The justification for this Workshop was based upon the perceived need for the bringing together of research in a number of combustion and aerotherm- related areas, so as to allow more rapid progress to be made. The primary Workshop objectives were to assess the existing knowledge on advanced combustion and aerothermal technologies providing reduced environmental impact, to identify directions for future research in the field, and to promote the close relationships and business contacts between scientists from the NATO and partner countries. This synergy in research and development is essential if advances in specific areas are to be widely utilized, whilst helping to cro- fertilize other areas and stimulate new developments. Of especial importance is the dissemination of concepts and ideas evolved in the aerospace industries into other related areas, whilst encouraging contacts, research exchanges, and int- actions between engineers and scientists in the NATO and partner countries.
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Advanced Combustion and Aerothermal Technologies: Environmental Protection ...
Nick Syred,Artem Khalatov
No preview available - 2009
Advanced Combustion Aerothermal Technologies air preheating application axial biomass boiler brown coal burner burning calculations carbon Cardiff University cavity CFBC CFD modeling chamber of combustion cofiring Combustion and Aerothermal combustion chamber combustion process combustion products combustor components concentration cooling decreases detonation developed droplet effect efficiency electric electrode energy environmental experimental flame flameless flammable gas flow rate flue gas flue gases fluidized bed fluidized bed combustion formation fuel cell furnace gas turbine gasification geometry GFPD heat transfer HPPs hydrogen ignition increase industrial injector inlet installation Khalatov eds liner main zone mass micronized coal moisture natural gas nitrogen oxides NOx emissions numerical operation parameters particles performance plasma pollutant power engineering predicted pressure primary ratio reaction recirculation reduced release secondary radiator simulations solid fuel soot steam surface swirl syngas Syred temperature thermal thermodynamic turbulent Ukraine velocity vortex waste wood pellets