Spray behaviour of hydro-treated ester fatty acids fuel made from used cooking oil at low injection pressures

Q. Azam, S.Z. Sulaiman, N. Abd Razak, N.M. Mazlan
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Abstract

The spray characteristics significantly affected the combustion performance. The injection pressure and fuel properties are factors that affect the spray cone angle, penetration, and droplet distribution. Although substantial research has been conducted on spray attributes, understanding the complex biofuel spray dynamics in real nozzles and injectors is crucial. This study examines hydro-processed esters and fatty acid (HEFA) spray characteristics of used cooking oil and palm oil biodiesel in a constant-volume chamber. The study was performed by varying the injection pressures ranging from 30 to 120psi for pure fuels and Jet A-1 blends. Experiments were conducted at standard sea-level atmospheric pressure and an ambient temperature of ±297K using an airblast fuel injector. The initial fuel temperature was set at ±302K. Jet A-1 was used as the baseline fuel for the comparative analysis. Particle image velocimetry (PIV) was employed to visualise the microscopic and macroscopic characteristics of the fuel spray. The results revealed a progressive increase in the penetration length corresponding to an increase in the injection pressure. Lower pressures yielded non-uniform particle distributions across the spray area, whereas cone angle augmentation stabilised at elevated pressures. A blend of 60% Jet A-1 and 40% HEFA closely matched Jet A-1 characteristics, indicating alternative aviation fuel potential. These real-time insights into spray behaviour are critical for enhancing the fuel efficiency and mitigating the generation of particulate emissions resulting from spray combustion.
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用废食用油加氢处理酯脂肪酸燃料在低喷射压力下的喷射行为
喷淋特性对燃烧性能有显著影响。喷射压力和燃油性能是影响喷射锥角、穿透和液滴分布的主要因素。尽管已经对喷雾特性进行了大量研究,但了解实际喷嘴和喷射器中复杂的生物燃料喷雾动力学至关重要。本研究在定容室中检测了用过的食用油和棕榈油生物柴油的氢加工酯和脂肪酸(HEFA)喷雾特性。该研究通过改变纯燃料和Jet A-1混合物的喷射压力,从30到120psi进行。实验在标准海平面大气压和±297K的环境温度下使用空气喷射燃料喷射器进行。初始燃料温度设定为±302K。喷气机A-1被用作比较分析的基准燃料。采用粒子图像测速技术(PIV)对燃油喷射过程的微观和宏观特征进行了可视化。结果表明,随着注射压力的增加,侵彻长度逐渐增加。较低的压力导致整个喷雾区域的颗粒分布不均匀,而锥角增大在高压下稳定。60%的Jet A-1和40%的HEFA的混合物非常符合Jet A-1的特性,表明替代航空燃料的潜力。这些对喷雾行为的实时洞察对于提高燃油效率和减少喷雾燃烧产生的颗粒排放至关重要。
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