Imam Rudi Sugara, N. Ilminnafik, Salahuddin Junus, M. N. Kustanto, Y. Hermawan
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引用次数: 0
摘要
Nyamplung (Calophyllum Inophyllum)是一种环保的替代燃料,可以用来替代化石燃料的消耗。本实验在本生灯上进行,目的是研究磁场对牛油果生物柴油预混火焰的影响。燃料蒸发使用的温度为473 K,使用的等效比例在φ 0.7之间;0.8;0.9;1.0;1.1和1.2。本实验使用的改良磁体磁力为11000高斯,磁力变化为N-S、S-N、N-N和S-S。实验表明,在S-S处,磁场对层流火焰速度对磁变点的影响显著,提高了3.8%;n n 4.8%;N-S点层流火焰速度最高,为20.7%。层流火焰速度的增强值表明了更优的燃烧过程。磁场可以影响O2和H2O,改变碳氢化合物的取向,使O2和燃料更容易进行氧化过程,从而达到更优的燃烧效果。
Experimental Study on the Effect of Magnetic Fields on Combustion Characteristics of Biodiesel from Nyamplung (Calophyllum Inophyllum)
Nyamplung (Calophyllum Inophyllum) is an environmentally friendly alternative fuel that can be used to replace the consumption of fossil fuels. The purpose of this experiment was to analyze the effect of magnetic fields on the premixed flame of biodiesel from Calophyllum Inophyllum, the experiments were carried out on a bunsen burner. Fuel evaporation uses a temperature of 473 K and the equivalent ratio used is between ϕ 0.7; 0.8; 0.9; 1.0; 1.1 and 1.2. This experiment used a modified magnet that has magnetic force in 11.000 gausses with magnetic variations N-S, S-N, N-N, and S-S. Experiments revealed that magnetic fields have a significant effect to increase the value of laminar flame speed on magnetic variations point at S-S 3.8%; N-N 4.8%; S-N 17.09%, and the highest laminar flame speed were at point N-S 20.7%. The enhancement value of laminar flame speed indicated more optimum combustion processes. The magnetic fields can influence the O2, and H2O and change the orientation of the hydrocarbons which makes it easier for O2 and fuel to carry out the oxidation process, resulting in more optimal combustion.
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