Influence of a Horizontal Magnetic Field on a Co-Flow Methane/Air Diffusion Flame

• Published in: Combustion science and technology Vol. 180; no. 10-11; pp. 1920 - 1935
• Main Authors: Gilard, Virginie, Gillon, Pascale, Blanchard, Jean-Noël, Sarh, Brahim
• Format: Journal Article Conference Proceeding
• Language: English
• Published: Philadelphia, PA Taylor & Francis Group 01.10.2008; Taylor & Francis
• Subjects: Applied sciences; Combustion of gaseous fuels; Combustion. Flame; Diffusion flame; Energy; Energy. Thermal use of fuels; Exact sciences and technology; Liftoff; Magnetic field; Theoretical studies. Data and constants. Metering; Methane; Stability; Diffusion flame; Flame structure; Combustion; Flame propagation; Magnetic field; Lifted flame; Convection; Liftoff
• ISSN: 0010-2202; 1563-521X
• DOI: 10.1080/00102200802261506

Influence of magnetic fields on the liftoff and blow out properties of the methane/air co-flow diffusion flame has been investigated experimentally. The present experiments showed that magnetic gradients are able to minimize the liftoff height and increase the flow rate above which the flame blows out. This observed increase of stability of lifted flames is attributed to the magnetic force that develops on paramagnetic oxygen in magnetic gradients. Two mechanisms are provided to explain the extension of the lifted flame stability. By decreasing locally the air velocity upstream of the flame, the magnetic force, resulting from an upward decreasing magnetic field, modifies the fuel mixture fraction at the flame edge, reducing the liftoff height of the flame. The second mechanism is related to the variation of the magnetic susceptibility with temperature and oxygen mass fraction in which originates a magnetic convection phenomenon in air in the flame vicinity.