磁场取向在植物油预混燃烧中的作用

IF 1.5 Q3 ENGINEERING, CHEMICAL Journal of Combustion Pub Date : 2020-01-28 DOI:10.1155/2020/2145353
D. Perdana, L. Yuliati, N. Hamidi, I. Wardana
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引用次数: 2

摘要

研究了磁场取向对植物油预混燃烧的影响。结果表明,磁场使氢质子的自旋从对位方向改变为正位方向,使电子的自旋能量增大,从而提高了层流燃烧速度。随着电线杆强度的增大,植物油的火焰速度增加幅度更大。吸引磁场对火焰速度的增加影响最大,使火焰稳定极限向lean等效比方向变宽。这是因为具有顺磁性质的O2从南极(S)向北极(N)输送了更多的交叉火焰,而具有反磁性质的反应产物中H2O携带的热能则从N极向S极输送了更多的交叉火焰。这使得燃烧接近路易斯数等于1,而在斥力磁极S-S中,更多的O2被泵入火焰,而更多的热量被泵出火焰,因此,火焰中的燃烧更稀薄,反应不是最优的。相反,在N-N极,更多的H2O携带的热量被泵入火焰,而更多的O2被泵出火焰。因此,火焰中的燃烧更丰富,反应也不是最优的。因此,层流火焰在排斥极处的速度低于吸引极处的速度。
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The Role of Magnetic Field Orientation in Vegetable Oil Premixed Combustion
This study observed the influence of magnetic field orientation on the premixed combustion of vegetable oil. The results show that the magnetic field increased the laminar burning velocity because the spin of electron became more energetic and changes the spin of hydrogen proton from para to ortho. The increase of flame speed became larger on vegetable oil with stronger electric poles. The attraction magnetic field gives the strongest effect against the increase of flame speed and makes flame stability limit wider toward lean equivalence ratio. This is because O2 with the paramagnetic nature is pumped more crossing flame from the south pole (S) to north pole (N) whereas the heat energy carried by H2O from the reaction product with the diamagnetic nature is pumped more crossing flame in the N pole to the S pole. This made the combustion close to Lewis number equal to unity, whereas in the repulsion magnetic poles, S-S, more O2 is pumped into the flame while more heat is pumped out of the flame, and thus, combustion in the flame is leaner and reactions are not optimal. Conversely, at N-N poles, more heat carried by H2O was pumped into the flame while more O2 was pumped out of the flame. As a result, combustion in the flame is richer and the reaction is also not optimal. As a consequence, the velocity of the laminar flame at the repelling poles is lower than that of attracting poles.
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来源期刊
Journal of Combustion
Journal of Combustion ENGINEERING, CHEMICAL-
CiteScore
2.00
自引率
28.60%
发文量
8
审稿时长
20 weeks
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