A highly efficient and cost-effective liquid biofuel for agricultural diesel engines from ternary blending of distilled Yang-Na (Dipterocarpus alatus) oil, waste cooking oil biodiesel, and petroleum diesel oil

IF 4.2 Q2 ENERGY & FUELS Renewable Energy Focus Pub Date : 2024-01-09 DOI:10.1016/j.ref.2024.100540
Wuttichai Roschat , Sunti Phewphong , Sakorn Inthachai , Kaewta Donpamee , Nantakon Phudeetip , Tappagorn Leelatam , Preecha Moonsin , Somporn Katekaew , Krittiyanee Namwongsa , Boonyawan Yoosuk , Pathompong Janetaisong , Vinich Promarak
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Abstract

This study reports a highly efficient and cost-effective liquid biofuel for agricultural diesel engines by a ternary blending of waste cooking oil (WCO) biodiesel, distilled Yang-Na oil, and petroleum diesel oil. Biodiesel oil from WCO synthesized by NaOH-catalyzed pilot plant-scale solar reactor exhibited fuel properties that met ASTM-D6751 and EN-14214 standards. Crude Yang-Na was distilled at 280 oC to obtain distilled Yang-Na oil with major components of α-Gujernene (63.07 wt.%), α-Caryophyllene (19.08 wt.%), γ-Gujernene (5.16 wt.%), and γ-Elemene (5.23 wt.%), along with 7.46 wt.% of other hydrocarbon compounds. The ternary blendings of waste cooking oil (WCO) biodiesel, distilled Yang-Na oil, and petroleum diesel oil were formulated (50:30:20 and 50:25:25) and their physicochemical properties were evaluated and compared with a commercial B10 petroleum diesel oil. The formulated liquid biofuels met standards and closely resembled petroleum diesel with a viscosity of 3.86 cSt, density value of 876 kg m-3, and heating values of 9991 kcal/kg. The performance testing of the blended fuels in a small agricultural diesel engine showed the efficiency levels matched with a commercial B10 petroleum diesel oil and outperformed individual biodiesel and distilled Yang-Na oil. Variances in Brake Power and Brake Specific Fuel Consumption were <1% with low emissions of CO2, CO, HC, and NOx, while Engine Torque and biofuel consumption during cultivation showed differences of 3.42% and 2.54%, respectively. Accordingly, the obtained blended fuel is a promising option for community resource utilization, offering an alternative energy source for future communities.

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利用蒸馏杨-娜(Dipterocarpus alatus)油、废弃食用油生物柴油和石油柴油的三元混合技术,为农用柴油发动机提供高效、经济的液体生物燃料
本研究报告了一种用于农用柴油发动机的高效、经济的液体生物燃料,它由废弃食用油(WCO)生物柴油、蒸馏杨楠木油和石油柴油三元混合而成。通过 NaOH 催化的试验性工厂规模太阳能反应器从 WCO 合成的生物柴油油显示出符合 ASTM-D6751 和 EN-14214 标准的燃料特性。粗杨-萘在 280 oC 下蒸馏得到蒸馏杨-萘油,其主要成分为 α-石竹烯(63.07 wt.%)、α-石竹烯(19.08 wt.%)、γ-石竹烯(5.16 wt.%)和γ-榄香烯(5.23 wt.%),以及 7.46 wt.% 的其他碳氢化合物。配制了废弃食用油(WCO)生物柴油、蒸馏杨呐油和石油柴油的三元混合物(50:30:20 和 50:25:25),并对其理化性质进行了评估,并与商用 B10 石油柴油进行了比较。配制的液体生物燃料符合标准,与石油柴油非常相似,粘度为 3.86 cSt,密度值为 876 kg m-3,发热值为 9991 kcal/kg。在小型农用柴油发动机中对混合燃料进行的性能测试表明,其效率水平与商用 B10 石油柴油相当,并且优于单独的生物柴油和蒸馏杨-纳油。制动功率和制动比耗油量的差异为 1%,二氧化碳、一氧化碳、碳氢化合物和氮氧化物的排放量较低,而发动机扭矩和种植过程中的生物燃料消耗量的差异分别为 3.42% 和 2.54%。因此,所获得的混合燃料是一种很有前景的社区资源利用方案,可为未来社区提供替代能源。
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来源期刊
Renewable Energy Focus
Renewable Energy Focus Renewable Energy, Sustainability and the Environment
CiteScore
7.10
自引率
8.30%
发文量
0
审稿时长
48 days
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