在柴油发动机中应用含有短链醇的 DieselB10 配方:相平衡、物理化学和热力学特性以及功率曲线

IF 1.5 4区 工程技术 Q3 ENGINEERING, CHEMICAL
Edyjancleide Rodrigues da Silva, Jéssyca Kaenny de Andrade Bezerra, Eduardo Lins de Barros Neto, Paula Fabiane Pinheiro do Nascimento, Claudio Marcilio Leite da Silva, Maria Eduarda Belinho Bezerra, Humberto Maia Neves de Oliveira, Luciene da Silva Santos, Lindemberg de Jesus Nogueira Duarte
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引用次数: 0

摘要

柴油是运输业使用的主要燃料之一。为了促进能源的可持续发展,使用含有柴油、生物柴油和酒精的混合物是一种有吸引力的选择。这项研究旨在通过柴油发动机实验和先进的热力学建模相结合的方法,开发并鉴定含有 DieselB10/丁醇/甲醇(DBM)和 DieselB10/丁醇/乙醇(DBE)的新型燃料配方。根据平衡图(25 °C)确定了这些配方,并对其进行了密度测试(ASTM D4052)、运动粘度和动态粘度(ASTM D7042)、对铜的腐蚀性(ASTM D130)、流动点(ASTM D97)、浊点(ASTM D2500)、冷滤器堵塞点(ASTM D6371)和蒸汽压(ASTM D6378)测试,结果表明它们 100% 符合国家石油、天然气和生物燃料局(ANP)的规范。接下来,混合物被用于构建柴油发动机功率曲线(ABNT - NBR ISO 1585)。混溶曲线表明,与 DBM 系统相比,使用乙醇的 DBE 系统具有较小的双相区,这是因为乙醇的极性较低。采用的热力学模型是 UNIQUAC(通用准化学模型)和 NRTL(非随机双液模型),与 NRTL(RMSD 为 2.25%)相比,UNIQUAC 更准确(RMSD-根均方差为 0.34%)。添加醇类可提高浊点和蒸汽压,同时降低粘度和密度。这些配方符合 ANP 标准,没有腐蚀风险。发动机测试表明,与 DieselB10 相比,DB 配方的小时消耗量更低,效率更高,但由于醇类的热值较低,比消耗量有所增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Application of DieselB10 formulations with short-chain alcohols in diesel cycle engines: phase equilibrium, physicochemical and thermodynamic properties and power curves

Application of DieselB10 formulations with short-chain alcohols in diesel cycle engines: phase equilibrium, physicochemical and thermodynamic properties and power curves

Diesel oil is one of the main fuels applied in the transport industry. With a view to contributing to sustainable energy development, the use of mixtures containing diesel, biodiesel and alcohols is an attractive option. This research aims to develop and characterize new fuel formulations with DieselB10/Butanol/Methanol (DBM) and DieselB10/Butanol/Ethanol (DBE) using a combined approach of experimentation in diesel engines and advanced thermodynamic modeling. The formulations were determined based on equilibrium diagrams (25 °C) and submitted to density tests (ASTM D4052), kinematic and dynamic viscosities (ASTM D7042), corrosiveness to copper (ASTM D130), fluidity point (ASTM D97), cloud point (ASTM D2500), cold filter plugging point (ASTM D6371) and vapor pressure (ASTM D6378), which showed 100% compliance with National Petroleum, Natural Gas and Biofuels Agency (ANP) specifications. Next, the mixtures were used to construct diesel cycle engine power curves (ABNT – NBR ISO 1585). The miscibility curves indicated that the DBE system, which uses ethanol, has a smaller biphasic region compared to the DBM system, due to the lower polarity of ethanol. Thermodynamic models UNIQUAC (Universal Quasichemical) and NRTL (Non Random Two-Liquid) were employed, with UNIQUAC being more accurate (RMSD—Root Mean Square Deviation—of 0.34%) compared to NRTL (RMSD of 2.25%). The addition of alcohols increased the cloud point and vapor pressure while reducing viscosity and density. The formulations met ANP standards and did not present a corrosion risk. Engine tests showed that the DB formulation had lower hourly consumption and higher efficiency compared to DieselB10, with increased specific consumption due to the lower calorific value of the alcohols.

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来源期刊
Brazilian Journal of Chemical Engineering
Brazilian Journal of Chemical Engineering 工程技术-工程:化工
CiteScore
2.50
自引率
0.00%
发文量
84
审稿时长
6.8 months
期刊介绍: The Brazilian Journal of Chemical Engineering is a quarterly publication of the Associação Brasileira de Engenharia Química (Brazilian Society of Chemical Engineering - ABEQ) aiming at publishing papers reporting on basic and applied research and innovation in the field of chemical engineering and related areas.
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