硫酸法钛白粉生产中钛液的分析和铁分离

以硫酸法钛白粉生产工艺中间体浓钛液(硫酸氧钛)和偏钛酸为原料,分析了浓钛液中二氧化钛和铁的含量。总Ti的测试采用Al片还原法和高铁盐氧化还原滴定法,浓钛液中Ti3 直接用高铁盐氧化还原滴定法测定,铁含量用KMnO4氧化还原滴定法进行分析。采用无机陶瓷膜洗涤分离方法考查了水解后偏钛酸中的除铁效率,利用分光光度法和火焰原子吸收法分别测定洗涤液和二氧化钛粉体中的铁含量。试验表明,无机陶瓷膜洗涤分离方法可以将二氧化钛粉体中铁含量降到30×10-3‰以下,煅烧后产品白度大于94。陶瓷膜洗涤工艺可以实现连续操作,是一种值得推广的新工艺。     

Multiple Random Forests Modelling for Urban Water Consumption Forecasting

The precise forecasting of water consumption is the basis in water resources planning and management. However, predicting water consumption fluctuations is complicated, given their non-stationary and non-linear characteristics. In this paper, a multiple random forests model, integrated wavelet transform and random forests regression (W-RFR), is proposed for the prediction of daily urban water consumption in southwest of China. Raw time series were first decomposed into low- and high-frequency parts with discrete wavelet transformation (DWT). The random forests regression (RFR) method was then used for prediction using each subseries. In the process, the input and output constructions of the RFR model were proposed for each subseries on the basis of the delay times and the embedding dimension of the attractor reconstruction computed by the C-C method, respectively. The forecasting values of each subseries were summarized as the final results. Four performance criteria, i.e., correlation coefficient (R), mean absolute percentage error (MAPE), normalized root mean square error (NRMSE) and threshold static (TS), were used to evaluate the forecasting capacity of the W-RFR. The results indicated that the W-RFR can capture the basic dynamics of the daily urban water consumption. The forecasted performance of the proposed approach was also compared with those of models, i.e., the RFR and forward feed neural network (FFNN) models. The results indicated that among the models, the precision of the predictions of the proposed model was greater, which is attributed to good feature extractions from the multi-scale perspective and favorable feature learning performance using the decision trees.     

一种多官能团乳化剂在羧基丁苯胶乳合成中的应用

试验发现：一种阴离子型兼具非离子性的乳化剂A用于羧基丁苯胶乳聚合体系，可显著提高胶乳的质量，其质量分数即使下降到原配方乳化剂标准用量的25％，也能制备出合格的胶乳；与使用SDS的聚合体系相比，使用乳化剂A的聚合体系的聚合反应及产物质量重复性好，胶乳的钙离子稳定性显著提高。分析发现，乳化剂用量的大小会导致聚合反应机理的差异，从而影响聚合反应及产物质量；在酸性条件下，乳化剂本 身的稳定性也是造成这种差异的原因之一。应用试验结果表明：用乳化剂A代替SDS并在一定范围内改变其用量，不会影响胶乳的应用性能。     

土坝溃决跌坎水流水动力特性数值模拟

黏性土坝漫顶溃决涉及多学科交叉,过程极其复杂,尽管国内外大量物理模型试验成果表明其溃决多以“跌坎式”溯源冲蚀为主要特征,然而对该冲蚀发展形式下的水流-坝体微观作用机制尚不清晰。水流作为漫顶溃决的冲刷主动力,对坝体溃决发展起着主导性作用,采用RNG k-ε紊流模型和VOF自由液面捕捉技术针对黏性土坝漫顶溃决代表性水流结构——溃决跌坎水流开展了三维数值模拟研究,对跌坎水流的水流结构、流态、水力特性指标等进行了细致分析,揭示了不同工况下坝体跌坎上的剪切应力、流速分布规律,进而从水动力学的角度对坝面进行受力分析,初步推断了黏性土坝漫顶溃决过程中各级跌坎的主要合并方式为“台阶水平面刷深下切”。研究成果为进一步掌握黏性土坝漫顶溃决发展演变机理提供了理论基础。     

高水头船闸第二分流口自分流体型水力特性研究

高水头船闸输水水流能量巨大,水力指标高,对输水系统布置和型式提出了更高要求。大藤峡水利枢纽工程船闸最大设计水头40.25 m,输水系统第二分流口拟采用空腔自分流型式,在国内外尚无先例。通过采用三维数值模拟的技术手段对该分流口型式及输水系统整体分流性能进行系统研究,详细分析在各典型充、泄水时刻第二分流口部位的水动力特性,论证在工程实际应用中的可行性。研究结果表明,在合理布置各分支廊道的出水支孔尺寸后,该分流口型式在充、泄水过程中分流效果较好,但在分流口内部存在典型流速、压力分布区域,特别是在泄水工况下分流口大墩头附近存在较大范围三角低流速紊动区域,可能会对分流口结构造成不利影响。研究成果可为全面掌握该分流口型式的水力特性以及进一步改进优化提供技术参考。     

新型无卤阻燃剂六苯胺基环三磷腈的合成

由五氯化磷和氯化铵合成了六氯环三磷腈（Ⅰ），通过亲和取代反应由苯胺和Ⅰ合成了六（苯胺基）环三磷腈（Ⅱ），对反应条件进行了优化，并对化合物Ⅰ、Ⅱ进行了元素分析、IR谱和质谱表征。用化合物Ⅱ与ABS树脂共混制备了阻燃ABS树脂，测试了其氧指数和力学性能等指标。     

导电高分子PEDOT／PSS保护银纳米颗粒的制备与表征

利用导电高分子聚（3，4-二氧乙基噻吩）／聚（对苯乙烯磺酸）（PEDOT／PSS）作保护剂，制备了银纳米颗粒，用UV-Vis和TEM对其进行了表征．结果表明，选择合适量的PEDOT／PSS保护剂可以得到大小分布较窄银纳米颗粒．     

子午线轮胎钢丝圈缠绕系统设计

介绍自行设计的子午线轮胎钢丝圈缠绕生产线结构、工艺原理和控制系统。该生产线采用PLC和触摸屏控制钢丝圈的缠绕，有自动和手动两种工作模式。其缓冲装置上装有6个限位开关。PLC可根据检测到的限位开关信号使动滑轮保持在合适位置，缓冲装置上设置的抱闸可防止断丝或故障发生时动滑轮下落撞击基座。生产线采用6个断丝探测开关，能在断丝时全线停机，有效保证人机安全。     

加热炉用喷补料的研制及应用

介绍了ＨＹＪ—０１喷补料的实验室研制及工业应用。实践表明，该喷补料粘接强度好，抗热震性好。喷补衬使用时间已超过１４个月，无明显破损现象。     

A study on structure and electrochemical properties of (La, Ce, Pr, Nd)2MgNi9 hydrogen storage electrode alloys

(La, Ce, Pr, Nd)₂MgNi₉ hydrogen storage alloys were prepared through induction melting followed by a long annealing treatment. The structure and electrochemical properties of annealed alloys have been investigated by orthogonal design experiments. Both the individual effects of each substituting element and their interaction in alloys were studied systemically. It has been shown that the structure of main phase in alloys belongs to PuNi₃-type with a space group R-3m. Substituting rare-earth elements have a significant effect on both the phase structure of alloys and microstructure. The anisotropic change in the crystal structure of alloys can cause the acceleration of pulverization of alloy particles and result in the deterioration of the cyclic stability of alloy electrodes. Misch metals can raise the plateau pressure of hydrogen absorption/desorption. The discharge capacity of alloy ranges from 342.97 to 380.68 mAh g⁻¹ depending on the sort and content of substituting elements. Both cerium and neodymium can obviously reduce the discharge capacity of alloy electrodes. When compared to the La₂MgNi₉ alloy electrode, mish metals can significantly improve the high rate dischargeability of alloy electrodes. The improvement of the kinetic characteristic of alloy electrodes mainly results from the increase of the hydrogen diffusion rate in alloy bulk.