作为未改装研究发动机的潜在替代燃料的含1-丁醇的凤凰木生物柴油混合物。

Royal Poinciana Biodiesel Blends with 1-Butanol as a Potential Alternative Fuel for Unmodified Research Engines.

作者信息

Kumar K Sunil, Alqarni Sondos, Islam Saiful, Shah Mohd Asif

机构信息

Department of Mechanical Engineering, Faculty of Engineering, Mohamed Sathak A.J. College of Engineering, IT Park, Siruseri, Chennai 603103, India.

Department of Electrical Engineering, King Khalid University, Abha 61421, Saudi Arabia.

出版信息

ACS Omega. 2024 Mar 14;9(12):13960-13974. doi: 10.1021/acsomega.3c09014. eCollection 2024 Mar 26.

DOI:10.1021/acsomega.3c09014

PMID:38559967

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10975626/

Abstract

This research work investigates the experimental work of a single-cylinder diesel engine operated with royal poinciana biodiesel blends with various proportions of 10, 20, and 30% volume with 1-butanol as an effective ignition-improving additive. The test blends were indicated as D90RP7B3 (90% diesel + 7% royal poinciana biodiesel + 3% butanol), D80RP14B6 (80% diesel + 14% royal poinciana biodiesel + 6% butanol), D70RP21B9 (70% diesel + 21% royal poinciana biodiesel + 9% butanol), and pure royal poinciana biodiesel (RP100) and diesel. The significant findings or results obtained during the experimentation are that BTE is suitable for blend D90RP7B3, and the least BSFC is found for blend D90RP7B3 in the 0.24 kg/kWh range. The inline cylinder pressures are found to be suitable for the blend D90RP7B3 in the range of 7 MPa; HRR is ideal for both the blends D90RP7B3 and D80RP14B6 in the range of 90 and 88 kJ; D90RP7B3 possesses adequate ignition delay at full load conditions 16° in crank angle advance; maximum / ratios are well suitable for the blend D90RP7B3 in the ratio 11:1 at higher loads. Volumetric efficiency is achieved well for all the blends and diesel; the emissions released from the royal poinciana blends, such as CO, CO, HC, and NO, were reduced by 14.12, 8.33, 11.1, and 18.8% compared to standard diesel. Hence, royal poinciana blends with 1-butanol can be considered the best fuels in the automobile sector.

摘要

本研究工作探究了一台单缸柴油发动机的试验情况，该发动机使用了体积比分别为10%、20%和30%的凤凰木生物柴油与1-丁醇的混合燃料，1-丁醇作为一种有效的点火改进添加剂。试验混合燃料分别标记为D90RP7B3（90%柴油+7%凤凰木生物柴油+3%丁醇）、D80RP14B6（80%柴油+14%凤凰木生物柴油+6%丁醇）、D70RP21B9（70%柴油+21%凤凰木生物柴油+9%丁醇），以及纯凤凰木生物柴油（RP100）和柴油。试验过程中获得的重要发现或结果是，制动热效率适用于混合燃料D90RP7B3，并且在0.24 kg/kWh范围内，混合燃料D90RP7B3的燃油消耗率最低。直列气缸压力在7 MPa范围内适用于混合燃料D90RP7B3；热释放率在90和88 kJ范围内对于混合燃料D90RP7B3和D80RP14B6均较为理想；D90RP7B3在全负荷工况下具有足够的点火延迟，提前角为16°曲轴转角；最大空燃比在较高负荷下以11:1的比例非常适合混合燃料D90RP7B3。所有混合燃料和柴油的容积效率都实现得较好；与标准柴油相比，凤凰木混合燃料排放的一氧化碳（CO）、碳氢化合物（HC）和氮氧化物（NO）分别减少了14.12%、8.33%、11.1%和18.8%。因此，凤凰木与1-丁醇的混合燃料可被视为汽车领域的最佳燃料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9650/10975626/329e8dfba166/ao3c09014_0001.jpg

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作为未改装研究发动机的潜在替代燃料的含1-丁醇的凤凰木生物柴油混合物。

Royal Poinciana Biodiesel Blends with 1-Butanol as a Potential Alternative Fuel for Unmodified Research Engines.

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