Determination of a suitable index for a solvent via two-column extractive distillation using a heuristic method

The traditional approach to solvent selection in the extractive distillation process strictly focuses on the change in the relative volatility of light-heavy components induced by the solvent. However, the total annual cost of the process may not be minimal when the solvent induces the largest change in relative volatility. This work presents a heuristic method for selecting the optimal solvent to minimize the total annual cost. The functional relationship between the relative volatility and the total annual cost is established, where the main factors, such as the relative volatility of the light-heavy components and the relative volatility of the heavy-component solvent, are taken into account. Binary azeotropic mixtures of methanol-toluene and methanol-acetone are separated to verify the feasibility of the model. The results show that using the solvent with the minimal two-column extractive distillation index, the process achieves a minimal total annual cost. The method is conducive for sustainable advancements in chemistry and engineering because a suitable solvent can be selected without simulation verification.     

ABET认证背景下分离工程课程量化评价体系的建设

课程量化评估体系建设对于实现学生综合素质和能力的培养十分关键。分离工程课程教学团队在 ABET认证背景下,基于“以学生为中心”和“持续改进”的教学理念,细化课程教学目标,构建了可量化的学生能力评价体系和课程的持续改进机制,并通过数据反馈不断改进教学,使专业培养目标在本课程中完美体现。课程量化评估体系的建设对于提升课程教学质量、实现专业培养目标、推进化工专业的国际化具有十分重要的意义。     

基于象的理解在现代设计中的研究

在经济日益开放发展的今天,设计在人们的生活中充当了重要的角色。设计的产品是人造物的产品,人类根据自身的生活方式,行为习惯设计制造出为人类提供便利的产品,这些产品是基于人类对于自然的认识进而模仿或通过模仿继而创造出来的产物。本文基于人造物的分析,通过对于象的理解及现代设计的研究,其中对于 "观象制器"以及创新创造设计方法的理解及运用,为现代设计的提供指导方法,进而推动现代设计的发展。     

智能工作面电液控制装置水处理系统应用分析

为保证智能综放工作面电液控制装置运行稳定和支架等设备的安全运行,采用由过滤器组、软化水装置、储水箱、自动配比装置等组成的水处理系统;该系统对进水进行高精度过滤,并进行酸碱等离子成分处理,保证乳化液的纯净度,维护电液系统及设备运行安全。试验表明,工作面回采过程中未出现电液装置及设备故障,应用效果好。     

Tribological and corrosion behaviors of fluorocarbon coating reinforced with sodium iron titanate platelets and whiskers

A series of sodium iron titanate (NFTO)–fluorocarbon composite coatings have been prepared with the liquid-phase blending method. The effects of two types of NFTO, NFTO platelets, and NFTO whiskers, on the tribological and corrosion behaviors of the composite coatings, are systematically studied. The results show that the addition of NFTO can significantly enhance the friction-reducing and wear resistance performances of the fluorocarbon coating. Under dry sliding, the minimum specific wear rate is 1.67 × 10⁻⁴ mm³/Nm for the platelet-filled composite coatings and 1.15 × 10⁻⁴ mm³/Nm for the whisker-filled composite coatings, respectively, showing a decrease of 83.5 and 88.6% than that of pure coating. Under a simulated seawater environment, the minimum specific wear rate is 5.44 × 10⁻⁵ mm³/Nm for the platelet-filled composite coatings and 0.84 × 10⁻⁵ mm³/Nm for the whisker-filled composite coatings, respectively, showing a decrease of 90.5 and 98.5% than that of pure coating. The morphologies of worn surfaces, wear debris, and transfer films are analyzed, and the corresponding wear resistance mechanisms are discussed. The electrochemical impedance spectroscopy certifies a remarkably improved corrosion resistance of the composite coatings which have been immersed in 3.5 wt % NaCl solution for 30 days. The composite coating reinforced with 7.5 wt % platelets shows the highest resistance of 256.3 × 10⁶ Ω·cm², approximately two orders of magnitude higher than that of pure coating. © 2020 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2020 , 137, 48936.     

北方干鲜果害鼠绿色防控技术

文章介绍了北方干鲜果各种不同为害方式害鼠的相应的绿色防控技术,树根和树干害鼠中华鼢鼠、棕色田鼠宜采用银恒快速捕鼠器捕杀;果实害鼠岩松鼠、花鼠、北社鼠防治时等应采用坚果注射杀鼠剂精准灭鼠技术;果园地面害鼠大仓鼠、长尾仓鼠、黑线姬鼠等可采用TBS技术绿色防控;果实贮藏害鼠褐家鼠、黄胸鼠、小家鼠采用粘鼠板消灭。各类绿色灭鼠技术可为干鲜果害鼠的防控提供参考。     

太赫兹波计算鬼成像:原理和展望

本文立足于太赫兹波成像领域近年来备受关注的研究热点—太赫兹波计算鬼成像,首先回顾了鬼成像从量子到经典再到计算的历史过程,然后阐述了计算鬼成像的数学原理,随后综述了计算鬼成像在太赫兹波段的发展历程,及其在超衍射分辨成像、石墨烯光电导成像、太赫兹光谱成像等方面的应用,并在最后展望了太赫兹波计算鬼成像的发展前景:计算鬼成像作为一种成像手段,可以绕开在太赫兹频段缺乏经济高效的焦面阵列式探测器的难题,但目前的成像帧率还难以满足快速成像的应用需求,相信在未来随着器件性能的提升和成像算法的优化,其成像帧率可以得到大幅提升。     

Halogenation effect promoted low bandgap polymers based on asymmetric isoindigo unit with low energy loss

To optimize the energy levels of the structural framework of isoindigo polymers, a series of asymmetric isoindigo based low bandgap polymers with chlorine, fluorine and thiazole substituents was constructed and their optical, electrochemical and photovoltaic properties were comparatively evaluated for the impact of different substitutions. In comparison with the polymer based on 2,2'‐bithiophene and isoindigo unit (PTi) with non‐substituted bithiophene as the donor moiety, the highest occupied molecular orbital energy level for the newly synthesized polymers is significantly decreased, and in turn an improvement of the open‐circuit voltage (V_OC) is noted in the corresponding photovoltaic devices. More importantly, combined with a low bandgap of 1.32 eV, the energy losses (E_loss) could be reduced to 0.61 eV for polymer based on chlorinated 2,2'‐bithiophene and isoindigo unit (PCl). In addition, the halogen moieties are observed to be superior in device fabrication and give better values than the thiazole substituent. Both fluorinated and chlorinated polymer donors exhibited improved performance compared with the original polymer PTi. Consequently, this work not only presents the influence of different electron withdrawing substituents on the physicochemical and photovoltaic performance, but also backs the concept of how to reduce the energy loss via the heteroatom effect. © 2020 Society of Chemical Industry