An exploratory experimental study of a single-cylinder diesel engine run on diesel–Mesua ferrea Linn oil–diethyl ether ternary blends

IF 0.9 Q4 ENGINEERING, CHEMICAL

Indian Chemical Engineer Pub Date : 2022-09-10 DOI:10.1080/00194506.2022.2120420

Maryom Dabi, B. B. Sahoo, U. Saha

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Abstract

ABSTRACT A small compression ignition (CI) diesel engine was run with different concentrations of diethyl ether (DEE) in Mesua ferrea Linn oil (MLO, 80% by volume)-diesel (20% by volume) blend (M20). DEE was mixed volumetrically by 5 and 10% with M20 to form ternary fuel blends M20D05 and M20D10 respectively. The results revealed an enhancement of 4.4% brake thermal efficiency (BTE) with a 5% DEE ternary blend when compared to M20 fuel at lower loads. At maximum output condition, the BTE of ternary blends M20D05 and M20D10 were found lowered by 5.1% and 6.8% respectively to the diesel mode. Brake specific fuel consumption increased with an increase in the amount of DEE in the M20 as compared to the neat M20. An elongated ignition delay period and decelerated combustion process were attained by DEE ternary blends. A maximum reduction of 13.6% CO and 25.6% NOx emissions was achieved with 10% DEE ternary blend as compared to M20 fuel. The HC emissions were increased with the increase of DEE in the blend to the neat M20 fuel. The study suggests that the ternary blends can replace the fossil diesel fuel by 25–30% in CI engines without making any engine modification. Highlights The engine was run with ternary blends of diesel/Mesua ferrea Linn vegetable oil/ DEE. Thermal efficiency increased by 4.4% with a 5% DEE ternary blend than the M20 blend. DEE blended fuels produce lower CO and NOx than the M20 blend. The 5% DEE blend shows better engine thermal efficiency than the 10% DEE blend. Lower NOx was achieved with both ternary fuel blends when compared to diesel fuel. GRAPHICAL ABSTRACT

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柴油-铁藻油-乙醚三元混合物对单缸柴油机运行的探索性试验研究

摘要在铁藻油（MLO，80体积%）-柴油（20体积%）混合物（M20）中加入不同浓度的二乙醚（DEE），使小型压燃式柴油机运行。将DEE与M20体积混合5%和10%，分别形成三元燃料混合物M20D05和M20D10。结果表明，在较低负载下，与M20燃料相比，使用5%DEE三元混合物可提高4.4%的制动热效率（BTE）。在最大输出条件下，M20D05和M20D10三元共混物的BTE分别比柴油模式降低了5.1%和6.8%。与纯M20相比，制动器比油耗随着M20中DEE含量的增加而增加。DEE三元共混物延长了点火延迟期，减缓了燃烧过程。与M20燃料相比，使用10%的DEE三元混合物可最大限度地减少13.6%的CO和25.6%的NOx排放。HC排放量随着纯M20燃料混合物中DEE的增加而增加。研究表明，在CI发动机中，三元混合物可以在不进行任何发动机改造的情况下取代25%至30%的化石柴油。亮点发动机使用柴油/铁藻植物油/DEE的三元混合物运行。与M20共混物相比，5%DEE三元共混物的热效率提高了4.4%。DEE混合燃料产生的CO和NOx比M20混合燃料低。5%DEE混合物显示出比10%DEE混合物更好的发动机热效率。与柴油燃料相比，两种三元燃料混合物都实现了更低的NOx。图形摘要

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来源期刊

Indian Chemical Engineer ENGINEERING, CHEMICAL-

CiteScore

3.00

自引率

6.70%

发文量