浆态相低温甲醇合成用的CuCr／CH3ONa催化体系的反应性能

在液相介质为二甲苯，甲醇或液体石蜡，温度１００～１４０℃，压力３．５～４．７ＭＰａ条件下，使用Ｈ２／ＣＯ＝２的合成气，在１Ｌ搅拌釜内考察了自制的ＣｕＣｒ／ＣＨ３ＯＮａ催化体系的浆态相低温甲醇合成的反应性能，结果表明液相介质以二甲苯为佳，ＣＯ转化率随压力而升高，温度以１２０℃为宜。４４ｈ的连续运转表明以ＣＯ转化率为代表的催化体系的反应性能基本稳定。     

分散剂分子结构特征对煤浆流变特性的影响

系统考察了具有不同分子结构特片系列分散剂对高浓度煤浆性质的影响。发现煤的成浆性、浆体的流变特性和稳定化作用与分散剂的分子结构特征密切相关。就本研究所涉及的分散剂种类和煤种而言，分散剂单体结构中多核芳烃结构所占比例较小时易于使浆体呈屈服假塑性，相反，则使浆体呈屈服胀塑性。分散剂单体的侧链结构对煤成浆性和浆体流变性的影响不很突出，而分散剂的第二单体结构的影响却非常显著。结果还同时表明，分散剂的高分散性能是导致浆体呈屈服胀塑性流体和弱化浆体稳定化作用的重要因素。     

反应条件对悬浮床加氢裂化过程的影响

在间歇式反应釜中，考察了氢分压3MPa～28MPa对叔丁基苯和正丁基苯裂化反应的影响。结果表明，氢分压变化对不同分子结构的反应物有不同的影响。叔丁基苯的转化率随氢分压的升高而提高，正丁基苯的转化率随氢分压的升高而降低。氢分压的提高促进了与芳香环连接的碳键的断裂，与反应物的分子结构无关。在此基础上，考察了初氢压的变化对轮古常压渣油（LGAR）和克拉玛依常压渣油（KMAR）悬浮床加氢裂化的影响，讨论了温度和反应时间对悬浮床加氢过程的影响，初氢压的提高对渣油的转化和甲苯不溶物的生成都有促进作用。     

兖州煤与催化裂化油浆共处理及其重质产物组成性质的初步研究

采用石家庄催化裂化油浆和兖州煤共处理，考察了反应条件对兖州煤转化及产物分布的影响，并应用棒状薄层色谱分析了共处理重质产物族组成的变化规律。结果表明，催化裂化油浆与兖州煤共处理，可大大提高兖州煤的转化率，共处理既可得到部分轻质油品，又可得到相当量的重质产物。ＴＬＣ／ＦＩＤ分析表明，催化裂化油浆与兖州煤共处理的重质产物与商用高等级道路沥青族组成近似，重质产物可用于制备高等组道路沥青。     

Determination of As, Cd, Pb and Tl in coal by electrothermal vaporization inductively coupled plasma mass spectrometry using slurry sampling and external calibration against aqueous standards

A method was developed for the determination of As, Cd, Pb and Tl by electrothermal vaporization inductively coupled plasma mass spectrometry (ETV-ICP-MS) with slurry sample introduction using certified reference coal samples. The ⁷⁵As, ¹¹¹Cd, ²⁰⁸Pb and ²⁰⁵Tl isotopes were monitored, considering the lower probabilities of these isotopes in suffering interferences. The carrier and modifier effect of Ru added in solution was evaluated, demonstrating that sensitivity for all elements is considerably improved by the addition of 15 μg of Ru to each individual measurement. This confirms its ability to act as a physical carrier particularly for the analytes in aqueous solution. Pyrolysis and vaporization temperatures of 500 and 2500 °C, respectively, were selected after optimization for aqueous solutions and for coal slurries. Similarly, the carrier gas flow rate was optimized as 1.1 L min⁻¹. After optimization of the operational parameters, the determination of the four elements in six certified reference coal samples was carried out by external calibration against aqueous standards in 5% v/v HNO₃, resulting in good agreement between the certified or given values and the determined ones. For Tl, due to the absence of certified values, a comparison was established considering previously published data using solid sampling high-resolution continuum source graphite furnace atomic absorption spectrometry. Detection limits (μg g⁻¹) of 0.1, 0.004, 0.045 and 0.001 were achieved for As, Cd, Pb and Tl, respectively, and the precision was typically better than 10%.     

On the reflection and polarisation properties of ice cloud

A number of cirrus ice crystal scattering models are tested using measurements of total reflectance and polarised reflectance obtained from the space-based polarisation and directionality of Earth's reflectances (POLDER) instrument. In this paper, 1 day of global POLDER data is utilised taken from the 25 June 2003 to test the assumed ice crystal models. The POLDER instrument is able to test the validity of various ice crystal models since it can measure the total reflectance and polarised reflectance at up to 14 different viewing directions almost simultaneously between the scattering angles of about 60–180°. It is found that ice crystal models that are randomised (in this case the randomisation element is through distortion) from some pristine ice crystal geometry best fit simultaneous measurements of total and polarised reflectance. The optimal distortion parameter that best describes the POLDER measurements is found to be 0.40, which has been applied to a randomly oriented six-branched bullet-rosette and randomly oriented chain-like aggregate. Moreover, distorted ice crystals that have undergone significant distortions beyond 0.40 may fit the total reflectance measurements but not the polarisation measurements. Therefore, total reflectance measurements by themselves do not provide sufficient information to constrain assumed complex/distorted ice crystal models.     

南翼山油田卤水低温结晶过程研究

自行设计搭建了一套油田水低温冷冻实验设备, 使用该设备研究了南翼山油田原始卤水在-18.90 °C到-30.90 °C范围内的结冰析盐过程, 精确测量了油田水随温度降低第一种和第二种固相的析出温度. 化学分析得到了该温度范围内Ca²⁺、Mg²⁺、K⁺、Cl^-、B₂O₃、Na⁺六种常量组分在液相中的含量变化趋势. 使用低温X射线衍射法对原始卤水在低温下得到的固相进行了初步的鉴定, 并对南翼山油田水的低温相变过程进行了实时监测. 实验结果表明: 南翼山油田水降温至-19.10 °C析出第一种盐NaCl·2H₂O, 降至-23.55 °C同时析出冰和NaCl·2H₂O.     

自由能计算揭示苏氨酸对抗冻蛋白与冰晶结合能力的影响

采用分子动力学模拟和自由能计算研究了中等活性黑麦草抗冻蛋白(Lolium perenne antifreeze protein, LpAFP)冰结合位点(Ice-binding site, IBS)上苏氨酸(Thr)含量对其吸附冰晶能力的影响. 构建了一系列LpAFP突变体结构, 使其IBS上苏氨酸含量逐步增加, 其中包括一个对IBS上11个位点的突变, 使每个β片段均具有Thr-x-Thr基序(x是非保守的氨基酸, 主要是疏水氨基酸). 利用重要性采样算法(WTM-eABF)计算了LpAFP及其突变体与冰晶结合过程的自由能变化, 该算法结合了Well-tempering metadynamics的“填谷”和扩展拉格朗日自适应偏置力方法的“削峰”的优点, 显著提高了算法的采样效率. 结果表明, LpAFP突变体的IBS苏氨酸含量越高, 其与冰的结合在能量上越有利. 当突变体具有重复Thr-x-Thr基序时, 其与冰的结合能力最强. 进一步分析表明, 苏氨酸含量越高, IBS结合的液态水分子越多, 与冰晶结合时锚定包合水稳定存在的时间就越长, 抗冻蛋白的IBS与冰面之间的氢键网络也越稳定, 从而提高了抗冻蛋白与冰的结合能力. 增加苏氨酸残基的含量是提高中等活性抗冻蛋白抗冻活性的方法.     

超声衰减谱测量电池浆料的粒度分布

电池浆料中颗粒状活性物质的粒度大小和分散均匀性对电池的内阻、 电压、 局部表面电流和总极化程度等性能有直接影响, 实现对其的在线实时测量对电池的质量控制具有重要意义. 基于电池浆料的高固含量、 高黏度和低透光性的特点, 本文利用超声衰减谱的方式测量了其粒度分布(PSD). 应用于电池浆料的粒度分布测量的最大难点是其利用超声衰减谱法预测粒度分布的模型需要难以获得的分散相和连续相的物性参数. 本文采用主成分分析(PCA)结合误差反向传播(BP)神经网络建立预测模型解决了超声衰减谱法的难点, 并引入遗传算法(GA)优化BP神经网络的初始阈值和权值. 通过以LiCoO₂为活性物质的电池浆料进行了验证, 结果表明, PCA-GA-BP神经网络能够有效对不同固含量电池浆料的粒度分布进行预测, 预测值与真实值的峰形重合度高, 峰高偏差小, 两者的均方误差为0.1358, 拟合度(R²)为0.9816, 说明超声衰减谱法可作为测量电池浆料粒度分布的重要方式.     

Process-Structure-Formulation Interactions for Enhanced Sodium Ion Battery Development: A Review

Before the viability of a cell formulation can be assessed for implementation in commercial sodium ion batteries, processes applied in cell production should be validated and optimized. This review summarizes the steps performed in constructing sodium ion (Na-ion) cells at research scale, highlighting parameters and techniques that are likely to impact measured cycling performance. Consistent process-structure-performance links have been established for typical lithium-ion (Li-ion) cells, which can guide hypotheses to test in Na-ion cells. Liquid electrolyte viscosity, sequence of mixing electrode slurries, rate of drying electrodes and cycling characteristics of formation were found critical to the reported capacity of laboratory cells. Based on the observed importance of processing to battery performance outcomes, the current focus on novel materials in Na-ion research should be balanced with deeper investigation into mechanistic changes of cell components during and after production, to better inform future designs of these promising batteries.