Liquid to solid phase transition detection by using a vibrating tube densimeter along with densities up to 137 MPa of beef tallow fatty acid alkyl esters

IF 2.2 3区 工程技术 Q3 CHEMISTRY, PHYSICAL Journal of Chemical Thermodynamics Pub Date : 2024-01-20 DOI:10.1016/j.jct.2024.107259
Ricardo García-Morales , Francisco J. Verónico-Sánchez , José Domenzaín-González , Abel Zúñiga-Moreno , Christian Bouchot , Octavio Elizalde-Solis
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Abstract

Phase behavior and thermophysical properties of biodiesel at high pressure and high temperature are limited in the literature. These are useful to develop models and to understand their behavior having in mind the use of biodiesel in engines. Liquid to solid phase transitions, by using a vibrating tube densimeter, along with densities of three beef tallow fatty acid alkyl esters were studied in this work. Measurements of the oscillating period for each biofuel were carried out in a modular array constituted by two vibrating tube densimeters coupled in series and connected to a single loading cell. The oscillating period was converted to density by the forced path mechanical calibration (FPMC) method. Experimental liquid density sets for three beef tallow biodiesel samples based on fatty acid alkyl esters (FAAEs) are reported for the first time for pressures up to 137 MPa. These biofuels, named fatty acid methyl esters (FAMEs), fatty acid ethyl esters (FAEEs) and fatty acid butyl esters (FABEs), were measured in the temperature range of 286–393 K. The detection procedure for the beginning of the high-pressure solidification was focused on the beef tallow FABEs sample based upon its lower cloud point (CPFABEs = 281.15 K) in comparison with the reported property for the other esters (CPFAEEs = 289.15 K, CPFAMEs = 291 K) with the same feedstock; therefore, the conditions for the metastable liquid to solid phase transition associated to the effect of high pressure was detailed for waste beef tallow butyl ester biodiesel by performing step-by-step compressions in the interval of 286.20–298.13 K and with the help of the vibrating tube densimeters. FABEs had the lower density in contrast with FAEEs and FAMEs, this one being the denser biofuel. Modeling of liquid density data was performed by the perturbed-chain statistical associating fluid theory (PC-SAFT) Equation of State and the Tammann-Tait equation with maximum absolute average deviations of 0.15 % and 0.05 %, respectively. Both models were applied for correlating the thermodynamic derived properties of the fluid phase: isobaric thermal expansivity and isothermal compressibility.

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使用振动管密度计检测液相到固相的转变以及牛脂脂肪酸烷基酯高达 137 兆帕的密度
生物柴油在高压和高温下的相行为和热物理性质在文献中并不多见。考虑到生物柴油在发动机中的应用,这些资料有助于建立模型和了解其行为。本研究利用振动管密度计研究了液相到固相的转变,以及三种牛脂脂肪酸烷基酯的密度。每种生物燃料的振荡周期测量都是在一个模块阵列中进行的,该阵列由两个串联的振动管密度计组成,并与一个加载池相连。通过强制路径机械校准(FPMC)方法将振荡周期转换为密度。首次报道了基于脂肪酸烷基酯(FAAEs)的三种牛脂生物柴油样品在高达 137 兆帕压力下的液体密度实验数据。这些生物燃料分别被命名为脂肪酸甲酯(FAMEs)、脂肪酸乙酯(FAEEs)和脂肪酸丁酯(FABEs),测量温度范围为 286-393 K。与其他酯类的报告属性(CPFAEEs = 289.因此,通过在 286.20-298.13 K 的区间内逐步压缩,并借助振动管密度计,详细研究了废弃牛脂丁酯生物柴油在高压作用下发生从液态到固态的蜕变的条件。与 FAEEs 和 FAMEs 相比,FABEs 的密度较低,而 FAMEs 是密度较高的生物燃料。液体密度数据建模采用扰动链统计关联流体理论(PC-SAFT)状态方程和塔曼-泰特方程,最大绝对平均偏差分别为 0.15 % 和 0.05 %。这两个模型都用于关联流体相的热力学衍生特性:等压热膨胀率和等温压缩性。
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来源期刊
Journal of Chemical Thermodynamics
Journal of Chemical Thermodynamics 工程技术-热力学
CiteScore
5.60
自引率
15.40%
发文量
199
审稿时长
79 days
期刊介绍: The Journal of Chemical Thermodynamics exists primarily for dissemination of significant new knowledge in experimental equilibrium thermodynamics and transport properties of chemical systems. The defining attributes of The Journal are the quality and relevance of the papers published. The Journal publishes work relating to gases, liquids, solids, polymers, mixtures, solutions and interfaces. Studies on systems with variability, such as biological or bio-based materials, gas hydrates, among others, will also be considered provided these are well characterized and reproducible where possible. Experimental methods should be described in sufficient detail to allow critical assessment of the accuracy claimed. Authors are encouraged to provide physical or chemical interpretations of the results. Articles can contain modelling sections providing representations of data or molecular insights into the properties or transformations studied. Theoretical papers on chemical thermodynamics using molecular theory or modelling are also considered. The Journal welcomes review articles in the field of chemical thermodynamics but prospective authors should first consult one of the Editors concerning the suitability of the proposed review. Contributions of a routine nature or reporting on uncharacterised materials are not accepted.
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