Synthesis of biofuel from Luffas cylindrical-Dennettia tripetala oil blend (BT40) using catalytic sweet corn stock acidified with iron (III) sulfate (Fe2(SO4)3)

F.C. Ozioko , P.N. Onwuachi-Iheagwara , A. Cyril , K. Mabel , R. Nwadiolu , J.C. Oboreh , T.F. Adepoju , J.S. Oboreh
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Abstract

In an attempt to model and optimize the biodiesel production from the binary oil blends, a BTO40 obtained from the mixture of Dennettia tripetala (DTO) and Luffas cylindrical (LCO) oilseeds was employed in a double-stage microwave-assisted batch process (DSMABP). The DTO40 was esterified with iron (III) sulfate (Fe2(SO4)3) and then transesterified with catalyst selectivity between calcined fermented sweet corn stock (CFCS) and calcined non-fermented sweet corn stock (CNFCS). Catalyst characterization was carried out using analyzers, while process modeling and optimization were carried out using statistical tools. The produced biodiesel qualities were evaluated, and the catalyst potential was tested by a catalyst reusability test. Results show that a BTO40 was suitable for maximum biodiesel yield of 98.92% (wt./wt.) with HHV of 43.84 MJ/kg, CN of 79.73, flash point of 120 °C, cloud point of -3 °C, pour point of -6 °C, cold filter plugging point of +2 °C, oxidative stability of 4.6 h, and carbon residue of 0.02% nm. The statistical modeling and optimization by RSMI-Optimal predicted a mean value of biodiesel to be 99.28% (wt./wt.), the ANNGA predicted a mean biodiesel yield of 99.78% (wt./wt.), and γGCFW predicted 99.82% (wt./wt.), respectively, at different variable conditions. These values were validated in triplicate, and the average means were obtained as 98.57% (wt./wt.), 99.69% (wt./wt.), and 99.71% (wt./wt.), respectively. Catalyst usability tests show DFSCS has high alkali potential as a base catalyst. The produced biodiesel properties are in total agreement with the recommended biodiesel standard. The study concluded that BTO40 treated with a 0.1 M Fe2(SO4)3 solution in a base-catalyzed calcined fermented sweet corn stock for biodiesel synthesis can be used as an alternative fuel.

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用硫酸铁 (III) 酸化的催化甜玉米浆 (Fe2(SO4)3) 从圆柱形褐藻-三叶褐藻混合油 (BT40) 中合成生物燃料
为了模拟和优化二元油混合物生物柴油的生产,在双级微波辅助间歇工艺(DSMABP)中使用了从三叶荠(DTO)和圆柱苜蓿(LCO)油籽混合物中获得的 BTO40。DTO40 与硫酸铁(III)(Fe2(SO4)3)发生酯化反应,然后在煅烧发酵甜玉米浆料(CFCS)和煅烧非发酵甜玉米浆料(CNFCS)之间进行催化剂选择性酯化反应。催化剂的表征使用分析仪进行,工艺建模和优化则使用统计工具进行。对生产的生物柴油质量进行了评估,并通过催化剂可重复使用性测试检验了催化剂的潜力。结果表明,BTO40 催化剂的生物柴油最高收率为 98.92%(重量/重量),HHV 为 43.84 MJ/kg,CN 为 79.73,闪点为 120 °C,浊点为 -3 °C,倾点为 -6 °C,冷滤堵点为 +2 °C,氧化稳定性为 4.6 h,碳残留量为 0.02% nm。在不同的变量条件下,通过 RSMI-Optimal 统计建模和优化,预测生物柴油的平均值为 99.28%(重量/重量),ANNGA 预测生物柴油的平均产率为 99.78%(重量/重量),γGCFW 预测生物柴油的平均产率为 99.82%(重量/重量)。这些数值经过一式三份的验证,得出的平均值分别为 98.57%(重量比/重量比)、99.69%(重量比/重量比)和 99.71%(重量比/重量比)。催化剂可用性测试表明,DFSCS 作为碱催化剂具有很高的碱潜力。生产的生物柴油性能与推荐的生物柴油标准完全一致。研究认为,在碱催化煅烧发酵甜玉米浆料合成生物柴油的过程中,用 0.1 M Fe2(SO4)3 溶液处理 BTO40 可用作替代燃料。
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来源期刊
CiteScore
8.40
自引率
0.00%
发文量
100
审稿时长
33 weeks
期刊介绍: The journal has a particular interest in publishing papers on the unique issues facing chemical engineering taking place in countries that are rich in resources but face specific technical and societal challenges, which require detailed knowledge of local conditions to address. Core topic areas are: Environmental process engineering • treatment and handling of waste and pollutants • the abatement of pollution, environmental process control • cleaner technologies • waste minimization • environmental chemical engineering • water treatment Reaction Engineering • modelling and simulation of reactors • transport phenomena within reacting systems • fluidization technology • reactor design Separation technologies • classic separations • novel separations Process and materials synthesis • novel synthesis of materials or processes, including but not limited to nanotechnology, ceramics, etc. Metallurgical process engineering and coal technology • novel developments related to the minerals beneficiation industry • coal technology Chemical engineering education • guides to good practice • novel approaches to learning • education beyond university.
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