Rachid Ait Belale, F. Alaoui, Mohamed Elkhouakhi, Mohamed Lifi, Y. Chhiti, L. Deshayes, Ilham Abala, A. Sahibeddine
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引用次数: 3
摘要
本文介绍了两种生物柴油:豆油生物柴油(SOB)和废食用油生物柴油(WCOB)的体积特性的实验和预测结果,并与normfluid作为商业柴油进行了比较。在298.15 K ~ 393.15 K和0.1 MPa ~ 140 MPa范围内,采用安东帕高压振动管密度计(DMA HPM)测量了SOB和WCOB的密度,而normfluid的密度采用文献收集。密度用Tait方程进行预测。该方程显示了本研究中所有产物密度的预测效率,每种化合物的AAD=0.01%。由此,在较宽的压力和温度范围内,确定了等压成本$\alpha_{p}$和等温压缩率кT等热力学性质。$\alpha_{p}$和кT作为温度和压力的函数具有相同的行为,而商品柴油在高温和低压下的$\alpha_{p}$和кT值高于生物柴油,这一信息在设计工程中具有重要意义。
Comparison of thermodynamic properties of renewable diesel and commercial diesel
This paper presents experimental and predicted results of volumetric properties for two biodiesels: Soybean Oil Biodiesel (SOB) and Waste Cooking Oil Biodiesel (WCOB) compared to the Normafluid as commercial diesel. Densities of SOB and WCOB were measured from 298.15 K to 393.15 K and from 0.1 MPa to 140 MPa, using an Anton Paar high-pressure vibrating tube densimeter (DMA HPM), whereas, the density of Normafluid was collected from literature. The density was predicted using the Tait Equation of Stat. This equation shows an efficiency of the prediction of the density of all products presented in this work with AAD=0.01% for each compound. Therefrom, thermodynamic properties as isobaric expensivity, $\alpha_{p}$, and isothermal compressibility, кT, were determined over wide pressure and temperature ranges. $\alpha_{p}$ and кT, have the same behavior as a function of temperature and pressure, while commercial diesel has a higher values of $\alpha_{p}$ and кT than those of biodiesel at high temperature and low pressure, this information is of major importance in design engineering.
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