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Experimental and Numerical Analysis of Laminar Burning Velocity of Binary and Ternary Hydrocarbon/H-2 Mixtures

Type of Publication
Year of Publication
2012
Authors

A. Basco; F. Cammarota; A. Di Benedetto; V. Di Sarli; E. Salzano; G. Russo

Abstract

The evaluation of safety parameters for binary and ternary mixtures of hydrogen and light hydrocarbons is essential for the definition of the combustion characteristics of bio-derived fuel-gas mixtures. Furthermore, with specific reference to laminar burning velocity, there is a strong need to define simple correlations, which would allow a fast prediction of global burning velocity of the mixtures starting from molar compositions and laminar burning velocity of the pure components, in analogy with Le Chatelier's rule for flammability limits. In this paper, a preliminary experimental and numerical study is performed for the assessment of safety parameters for mixtures of methane, propane and hydrogen with air at initial ambient pressure. Explosion tests have been conducted in a reinforced 5 liters steel vessel. The PREMIX module of the CHEMKIN package, coupled to the Marinov detailed reaction scheme, has been used to compute the un-stretched laminar burning velocity. For model validation, results have been compared to experimental data.

DOI

10.3303/cet1226064

Volume

26

Notes

Times Cited: 0 Cozzani, V DeRademaeker, E Pierucci, S Klemes, JJ Salzano, Ernesto/A-2854-2008 Salzano, Ernesto/0000-0002-3238-2491 5th International Conference on Safety and Environment in the Process and Power Industry (CISAP) Jun 03-06, 2012 Milano, ITALY Italian Assoc Chemical Engn (AIDIC) 978-88-95608-17-4

Pagination

381-386

ISSN Number

1974-9791

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