Combustion Chemistry Centre
The Combustion Chemistry Centre, is engaged in fundamental research on the combustion of fossil and biofuels. Combustion is the ultimate interdisciplinary field: it requires knowledge of chemistry, physics, fluid dynamics, thermodynamics and mathematics. In addition, combustion science has a well defined purpose in society today, facilitating the study and analysis of problems associated with the generation of air pollutants. The Combustion Chemistry Centre is concerned with the application of combustion research to the design of energy-efficient engine and gas turbine combustion systems and the impact of their use on toxic and greenhouse gas emissions, thus helping address the problems of urban air pollution and climate change.
The coupling of experimental chemical combustion studies in our shock tubes and rapid compression machine facilities, with detailed kinetic modelling is a unique feature of our research centre. In fact, the group is the only one in Ireland producing experts in the area of combustion. With the Government¿s decision to license large-scale incinerators for municipal waste, trained graduates with expertise in incinerator processes will be required. Currently, the Combustion Chemistry Centre is the only centre in Ireland with the expertise to train researchers for this growing industry.
The Combustion Chemistry Centre is helping deliver an integrated approach to the sustainable development of biofuels by joining with both the Microbial Bioenergy Group and with the Molecular GlycoBiotechnology Group to generate biofuels.
We have a number of active research projects. Three of these are funded by Irish National Development Plan research agency awards from Science Foundation Ireland (SFI), the Irish Environmental Protection Agency (EPA), and the Irish Research Council for Science, Engineering, and Technology (IRCSET). Two of our projects are large-scale EU FP6 Marie Curie grants (BurnQuest, CleanBurn), and one in collaboration with US universities funded by the US Air Force Office of Strategic Research. We also have industry-linked projects with Rolls¿Royce Canada Limited, the Saudi Arabian Oil Company and Renault.
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(Chapman and Hall / CRC Press, 2013)On the traditional World Wide Web we all know and love, machines are used as brokers of content: they store, organize, request, route, transmit, receive and display content encapsulated as documents. In order for machines ...
Theoretical and Kinetic Study of the Reaction of Ethyl Methyl Ketone with HO2 for T = 600 -1, 600 K. Part II: Addition Reaction Channels (2013)The temperature and pressure dependence of the addition reaction of ethyl methyl ketone (EMK) with HO2 radical has been calculated with the master equation method employing conventional transition state theory estimates ...
Theoretical and Kinetic Study of the Reactions of Ketones with HO(2) Radicals. Part I: Abstraction Reaction Channels. (2013)This work presents an ab-initio and chemical kinetic study of the reaction mechanisms of hydrogen atom abstraction by the HO2 radical on five ketones: dimethyl, ethyl methyl, n-propyl methyl, iso-propyl methyl and iso-butyl ...