1. MILD combustion of hydrogenated biogas under several operating conditions in an opposed jet configuration
- Author
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Fouzi Tabet, Ammar Hadef, and Abdelbaki Mameri
- Subjects
Hydrogen ,Renewable Energy, Sustainability and the Environment ,Chemistry ,020209 energy ,Diffusion flame ,Flame structure ,Energy Engineering and Power Technology ,chemistry.chemical_element ,CHEMKIN ,02 engineering and technology ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,Combustion ,Adiabatic flame temperature ,Fuel Technology ,Biogas ,Chemical engineering ,0202 electrical engineering, electronic engineering, information engineering ,Fuel efficiency ,Organic chemistry ,0210 nano-technology - Abstract
MILD combustion of biogas takes its importance firstly from the combustion process that diminishes significantly fuel consumption and reduces emissions and secondly from the use of biogas which is a renewable fuel. In this paper, the influence of several operating conditions (namely biogas composition, hydrogen enrichment and oxidizer dilution) is studied on flame structure and emissions. The investigation is conducted in MILD regime with a special focus on chemical effects of CO 2 in the oxidizer. Opposed jet diffusion combustion configuration is adopted. The combustion kinetics is described by the Gri 3.0 mechanism and the Chemkin code is used to solve the problem. It is found that oxygen reduction has a significant effect on flame temperature and emissions while less sensitivity corresponds to hydrogen enrichment in MILD combustion regime. Temperature and species are considerably reduced by oxygen decrease in the oxidizer and augmented by hydrogen addition to the fuel. The maximum values of temperature and species are not influenced by the composition of the biogas in MILD regime. Blending biogas with hydrogen can be used to sustain MILD combustion at very low oxygen concentration in the fuel. In MILD combustion regime, the chemical effect of CO 2 in the oxidizer stream reduces considerably the flame temperature and species production, except CO which is enhanced. For high amounts of CO 2 in the oxidizer, the chemical effect of CO 2 becomes negligible.
- Published
- 2018
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