Kinetics, thermodynamics and characterization of neem seeds (Azadirachta indica) oil extraction: Extensive study of the processes

Green Technologies and Sustainability Pub Date : 2024-08-05 DOI:10.1016/j.grets.2024.100126

Chinedu Matthew Agu , Charles C. Orakwue , Onuabuchi N. Ani , Mmesoma P. Chinedu

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Abstract

Kinetic and thermodynamics studies and the effect of process parameters such as seed average particle size, extraction time and temperature on the extraction of neem seed oil were investigated. Solvent extraction method was used with n-hexane as the solvent. The plot of percentage yield versus time showed that percentage yield increased with increase in time and temperature and decrease in seed average particle size. The highest percentage yield of 54.14% was obtained at optimum conditions of 0.5 mm average particle size, 55 °C temperature and 150 min extraction time. Kinetic study showed that pseudo second order model and Elovich’s model both described the extraction of neem seed oil based on least RMS and SD values. However, pseudo 2nd order gave highest R² value and calculated oil yield at aforementioned optimum conditions. Therefore, pseudo 2nd order model was chosen as best kinetic model for the process. Hyperbolic model, conversely gave no fit to the process. Thermodynamics parameters results $Δ$ H (428.11 KJ/mol), $Δ$ S (1.82 KJ/mol), and $Δ$ G (-168.63 KJ/mol) for extracting oil from neem seed indicate that the process was endothermic, irreversible and spontaneous, respectively. The physiochemical properties show that neem oil has potential in biodiesel application. Fatty acid composition showed that neem seed oil is saturated.

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印楝籽（Azadirachta indica）榨油的动力学、热力学和特性：广泛的工艺研究

研究了楝树籽油萃取的动力学、热力学以及种子平均粒径、萃取时间和温度等工艺参数的影响。萃取方法采用正己烷作为溶剂。产量百分比与时间的关系图显示，产量百分比随时间和温度的增加而增加，种子平均粒径则随时间和温度的增加而减小。在平均粒径为 0.5 毫米、温度为 55 ℃、萃取时间为 150 分钟的最佳条件下，萃取率最高，为 54.14%。动力学研究表明，伪二阶模型和埃洛维奇模型都以最小均方根值和标度值描述了楝树籽油的萃取过程。然而，在上述最佳条件下，伪二阶模型给出了最高的 R2 值和计算出的出油率。因此，伪 2 阶模型被选为该过程的最佳动力学模型。反之，双曲模型与该过程不匹配。从楝树籽中萃取油的热力学参数结果ΔH（428.11 KJ/mol）、ΔS（1.82 KJ/mol）和ΔG（-168.63 KJ/mol）分别表明该过程是内热、不可逆和自发的。理化性质表明楝树油具有应用于生物柴油的潜力。脂肪酸组成表明楝树籽油是饱和脂肪酸。

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Green Technologies and Sustainability

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