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1.
《Ceramics International》2021,47(19):27535-27544
In this paper, we present an efficient and effective method to predict the pressure dependence and temperature dependence of second-order elastic constants (SOECs) by introducing third-order elastic constants (TOECs) in the monocarbide ultrahigh temperature ceramics. The method is validated by comparing with experiments and previous calculations in four TMCs (TM = Nb, Ti, V, Zr). Using this method, we investigate the derivatives of SOECs against pressure and temperature as well as the anisotropic properties of polycrystalline modulus. In addition, we fit the SOECs with pressure and temperature under the framework of CALPHAD for practice usage. 相似文献
2.
输油泵机组作为管道输油系统的主要设备,其运行状态影响着油田正常的生产。传统的针对泵机组的“预防为主,计划检修”检修模式由于缺乏实时性、灵活性,已无法满足设备安全稳定运行的要求。基于这种缺陷,通过“预测性维修”的方式实时掌握输油泵组运行状态趋势能够及时察觉设备故障,为企业计划性备品备件、提高生产效率、确保生产安全提供有力保障。因此,本文提出了一种基于ARMA模型的输油泵振动特征值趋势预测方案。通过对某输油站车间输油泵进行在线监测,得到测点振动信号特征值的历史数据。使用历史时间数据进行建模,进行当前时间数据预测。通过实际数据与预测数据对比,发现ARMA模型可以较好地拟合输油泵振动信号特征值,满足当下预测趋势的需求。该方案较于其他传统趋势预测方法准确率高、计算迅速、易于理解,填补了输油泵振动信号趋势预测方面的空白。 相似文献
3.
采用硬度计、轮廓仪、光学显微镜、扫描电子显微镜等对服役后的U71Mn钢轨气压焊接头的硬度、裂纹形貌及显微组织进行测试与观察,分析接头不同区域的损伤行为。结果表明:焊接接头两侧距接头中心30~50 mm处存在低凹区域,其位置与软化区位置吻合;轮轨接触使接头硬度提高,但是软化区的硬度始终低于母材;根据珠光体形态,接头从中心向两侧热影响区可依次分为层片状珠光体区域、部分珠光体球化区Ⅰ、珠光体球化区、部分珠光体球化区Ⅱ;软化区位于珠光体球化区;珠光体球化区与部分珠光体球化区的裂纹深度和裂纹尖端扩展角都较大,这是由于粒状珠光体对裂纹扩展的阻力较小导致的。 相似文献
4.
Afsaneh Alishahi Mohammad-Taghi Golmakani Mehrdad Niakousari 《European Journal of Lipid Science and Technology》2021,123(9):2000377
Vegetable oil refinery waste containing acid oil is used as an inexpensive feedstock for producing biodiesel by microwave-assisted esterification (MAE) method. Effects of some main variables such as free fatty acid:methanol molar ratio (1:1, 1:5, and 1:10), reaction time (5, 30, and 60 min), and catalyst concentration (1%, 2%, and 3%) on physicochemical properties of produced biodiesel are investigated. Optimum reaction conditions of MAE are free fatty acid:methanol molar ratio of 1:10, reaction time of 60 min, and a catalyst concentration of 3%, while having 95.79% conversion yield. By increasing the conversion yield of the biodiesel, density and color brightness increase, while viscosity and refractive index decrease. There are no significant differences between physicochemical and heating properties of biodiesel produced by MAE and magnetic stirrer esterification (MSE) methods. Meanwhile, energy consumption of MAE method is almost four times lower than that of MSE. MAE as a promising alternative to the conventional esterification method can be considered as an energy-efficient method for producing biodiesel from inexpensive vegetable oil refinery waste. Practical applications : Acid oil is an inexpensive by-product of alkali refining in vegetable oil plants that would pollute the environment if not rendered safely. In this study, MAE is used to convert acid oil to biodiesel as a practical process for bringing alkali refining waste into production cycle. Acid oil can provide a reduction in the cost of biodiesel production. In addition, application of energy-efficient MAE method can facilitate the economical production of biodiesel. 相似文献
5.
6.
近年来,国际政治经济形势发生了深刻变革,中国的石油行业面临着严峻的多维挑战。在高成本开采压力之下,采取油气技术+互联网的方式,借助机器视觉技术建设智能油田有望成为当前油田降本增效的有效途径。通过调研机器视觉技术在油田应用现状及进展,对融合过程中存在的问题进行了分析挖掘,前瞻性地探讨了机器视觉与油田深度融合的建设目标、建设模式和建设方向。 相似文献
7.
随着原油品质的下降,在炼油过程中造成的腐蚀问题,受到广泛重视,腐蚀监控技术得到快速发展。炼油装置中的均匀腐蚀情况可以通过电阻探针监控法和电感探针监控法来进行监控,点腐蚀情况可以通过线性极化探针监测法和电化学噪声监控技术来进行监控,应力腐蚀情况可以通过氢通量测量技术和线性极化探针监控法来进行监控。基于这些腐蚀监控技术,建立腐蚀监控系统,用于全面监控炼油装置的腐蚀情况,基本实现了对炼油装置腐蚀情况的连续监测,以便及时给出应对措施,可有效预防腐蚀的发生,减少安全事故。 相似文献
8.
腐蚀控制是石油天然气管输过程中的一个重要问题.CO2是石油天然气管道中最常见的腐蚀介质,研究CO2腐蚀机制和防护措施具有重要科学意义和经济价值.综述了CO2的腐蚀机理,包括化学反应、电化学反应和传质过程.对现有的腐蚀理论进行了深入讨论,发现阴极反应对CO2腐蚀具有重要影响,CO2对阳极过程的影响尚未明确.在腐蚀机理的基础上,考虑管道实际工况,结合电化学实验结果阐述了各影响因素对CO2腐蚀行为的影响,并结合CO2腐蚀的影响因素讨论了常用管道防护措施的缺陷:阴极保护系统受电位影响较大,应确立新的阴极保护电位,以保证在杂散电流作用下的阴极保护效果;防护涂层容易在杂散电流干扰下发生降解,失去保护性;多数缓蚀剂对环境有害.最后,展望了未来CO2腐蚀和防护的发展方向:为进一步了解CO2腐蚀机理,需要对CO2的电化学腐蚀行为进行系统地实验测试.研究不同缓蚀剂的协同效应,使用环境友好型绿色缓蚀剂,利用新材料开发智能涂层和新型阴极保护系统,也是未来的研究方向之一. 相似文献
9.
Alison Willette Benjamin Fallen Hem Bhandari Carl Sams Feng Chen Virginia Sykes Chris Smallwood Kristin Bilyeu Zenglu Li Vincent Pantalone 《Journal of the American Oil Chemists' Society》2021,98(8):861-869
Soybean oil hydrogenation alters the linolenic acid molecule to prevent the oil from becoming rancid, however, health reports have indicated trans-fat caused by hydrogenation, is not generally regarded as safe. Typical soybeans contain approximately 80 g kg−1 to 120 g kg−1 linolenic acid and 240 g kg−1 of oleic acid. In an effort to accommodate the need for high-quality oil, the United Soybean Board introduced an industry standard for a high oleic acid greater than 750 g kg−1 and linolenic acid less than 30 g kg−1 oil. By combing mutations in the soybean plant at four loci, FAD2-1A and FAD2-1B, oleate desaturase genes and FAD3A and FAD3C, linoleate desaturase genes, and seed oil will not require hydrogenation to prevent oxidation and produce high-quality oil. In 2017 and 2018, a study comparing four near-isogenic lines across multiple Tennessee locations was performed to identify agronomic traits associated with mutations in FAD3A and FAD3C loci, while holding FAD2-1A and FAD2-1B constant in the mutant (high oleic) state. Soybean lines were assessed for yield and oil quality based on mutations at FAD2-1 and FAD3 loci. Variations of wild-type and mutant genotypes were compared at FAD3A and FAD3C loci. Analysis using a generalized linear mixed model in SAS 9.4, indicated no yield drag or other negative agronomic traits associated with the high oleic and low linolenic acid genotype. All four mutations of fad2-1A, fad2-1B, fad3A, and fad3C were determined as necessary to produce a soybean with the new industry standard (>750 g kg−1 oleic and <30 g kg−1 linolenic acid) in a maturity group-IV-Late cultivar for Tennessee growers. 相似文献
10.
Experimental investigation on evaporation interface temperature and evaporation rate of water in its own vapor at low pressures 下载免费PDF全文
Evaporative phase transitions are widely present in industrial production and daily life such as thin film processes and crystal growth. The evaporation of the liquid layer and the thermocapillary convection affect each other and restrict each other, making the energy transfer mechanism of the evaporation interface very complicated. To understand the evaporation characteristics of water in its low-pressure pure vapor environment, a series of experimental studies were carried out on the temperature distributions and evaporating rate of water evaporation in the annular pool. The cylinder temperature of the annular liquid pool is controlled between 3℃ and 15℃, and the evaporation environment pressure ranges from 394 Pa to 1467 Pa, when the temperature measurement starts, the depth of water is 10 mm. The results show that the temperature of the vapor side on the liquid-vapor interface is higher than that of the liquid side and there is an obvious temperature jump across the vapor-liquid interface. With the decrease of the pressure ratio, the evaporation rate increases, and the interface temperature jump is enlarged. Meanwhile, with the increase of the distance from the cylinder, the local evaporation rate decreases, thus, the temperature jump decreases. At the same pressure ratio, as the cylinder temperature increases, the heat flux from vapor side decreases, the temperature jump decreases at all measurement points. Within the experimental controlled parameters, the maximum temperature jump obtained in the measurements is 2.56℃. Due to the coupling effect of evaporation cooling and thermocapillary convection, there is a uniform temperature layer with a thickness of about 2 mm under the evaporation interface. The thickness of the uniform temperature layer near the cylinder is always larger than that in the middle of the evaporation interface. In the uniform temperature layer, the thermocapillary convection induced by radial temperature gradient transfers heat from the cylinder to the liquid-vapor interface to compensate for the latent heat of evaporation. Below the uniform temperature layer, the temperature rises rapidly due to heat conduction and buoyancy convection. 相似文献