丁二酸酐酯化改性糯米淀粉的研究

目的 为了提高糯米淀粉的粘度，以达到标签胶的要求。方法 对糯米淀粉进行丁二酸酐酯化改性，通过单因素试验及响应面优化确定出最佳酯化条件，测定其理化性质，并对其进行结构表征。结果 丁二酸酐酯化改性糯米淀粉的最优工艺条件：丁二酸酐添加量（丁二酸酐占淀粉干基的质量百分比）为10.3%，酯化温度为41.5℃，酯化时间为2.0 h,pH为9.0，在此条件下制得的糯米淀粉胶的粘度较高，可达到61.6 Pa·s，且溶解性与溶胀度均有不同程度的提高。电镜与热力学性质分析表明，酯化后淀粉颗粒结晶结构受到破坏，表面粗糙，出现凹陷与裂缝。结论 经过丁二酸酐酯化后，糯米淀粉胶的粘度得到提高。     

液相色谱-串联质谱技术在临床检验中的应用研究进展

液相色谱-串联质谱（LC-MS/MS）技术具有高灵敏度、高特异性、高分辨率和高效率的优点。近年来随着仪器灵敏度的提高，LC-MS/MS在常规临床检验中显示出极大的潜力，并在疾病早期预防和诊断中发挥着不可替代的作用。本文对LC-MS/MS在新生儿疾病筛查、维生素D检测、内分泌激素检测、肽类和蛋白质定量分析等临床检验方面的研究进展进行综述，并讨论了未来面临的挑战。     

某垃圾焚烧厂循环冷却水的硬度控制效果

针对南京市某生活垃圾焚烧发电厂循环冷却水硬度高、循环管道及冷却塔材料表面结垢严重的问题,开展循环冷却水的硬度控制小试试验,并进行生产化试验.采用加药絮凝沉淀法考察了Ca(OH)2、NaOH、阻垢剂、阳离子聚丙烯酰胺(CPAM)等药剂对循环冷却水硬度试验的影响.结果 表明:与只添加Ca(OH)2或共同添加Ca(OH)2、阻垢剂相比,将Ca(OH)2替换为NaOH后,循环水硬度去除率得到了显著的提高;与只投加NaOH相比,组合投加NaOH和阻垢剂时,废水硬度由800.8mg/L降至260.26 mg/L,去除率达67.5％.通过在南京某垃圾焚烧发电厂进行生产化试验后,试验结果表明,通过合理调节NaOH和阻垢剂用量,可以很好地实现现场循环水硬度去除率为50％的目标.     

电厂管理按要素划分区域精准成本控制

为了降低发电企业运行成本,本文提出按生产要素划分为水、煤、电三个区域,精准分析造成煤耗、电耗、水耗高的原因,对可控成本的关键指标采取针对性措施,实现了电厂降低生产成本、节能降耗的目标。     

Functional organisation of the endomembrane network in the digestive gland of the Venus flytrap: revisiting an old story with a new microscopy toolbox

Up-to-date imaging approaches were used to address the spatiotemporal organisation of the endomembrane system in secretory cells of Dionaea muscipula. Different ‘slice and view’ methodologies were performed on resin-embedded samples to finally achieve a 3D reconstruction of the cell architecture, using ultrastructural tomography, array tomography, serial block face-scanning electron microscopy (SBF-SEM), correlation, and volume rendering at the light microscopy level. Observations of cryo-fixed samples by high-pressure freezing revealed changes of the endomembrane system that occur after trap activation and prey digestion. They provide evidence for an original strategy that adapts the secretory machinery to a specific and unique case of stimulated exocytosis in plant cells. A first secretion peak is part of a rapid response to deliver digestive fluids to the cell surface, which delivers the needed stock of digestive materials ‘on site’. The second peak of activity could then be associated with the reconstruction of the Golgi apparatus (GA), endoplasmic reticulum (ER) and vacuolar machinery, in order to prepare for a subsequent round of prey capture. Tubular continuum between ER and Golgi stacks observed on ZIO-impregnated tissues may correspond to an efficient transfer mechanism for lipids and/or proteins, especially for use in rapidly resetting the molecular GA machinery. The occurrence of one vacuolar continuum may permit continuous adjustment of cell homeostasy. The subcellular features of the secretory cells of Dionaea muscipula outline key innovations in the organisation of plant cell compartmentalisation that are used to cope with specific cell needs such as the full use of the GA as a protein factory, and the ability to create protein reservoirs in the periplasmic space. Shape-derived forces of the pleiomorphic vacuole may act as signals to accompany the sorting and entering flows of the cell.     

镀锌层硅酸盐+虫胶复合转化膜的制备和表征

目的阻碍热镀锌板出现白锈,提高镀锌层的耐腐蚀性能。方法采用正交试验法优化出添加虫胶水溶液的有机无机复合钝化液。通过电化学Tafel极化曲线、交流阻抗(EIS)、乙酸铅点滴和中性盐雾试验,对比分析基体、硅酸盐+虫胶复合钝化膜与铬酸盐钝化膜的耐腐蚀性能。采用摩擦法测试对比分析基体和无铬钝化膜试样的附着性能,并通过扫描电子显微镜、X射线光电子能谱和红外光谱对形貌和结构进行分析。结果添加虫胶水溶液的复合钝化膜表面平整致密,72 h中性盐雾试验后的腐蚀面积小于10%。乙酸铅点滴试验和电化学测试显示,复合钝化膜的耐腐蚀性能较基体好。附着力试验测试显示,复合钝化膜具有良好的附着能力。结论因为复合钝化液中的虫胶与硅酸盐交织为O—Si—CH_2结构,与金属离子结合生成致密的膜层附着在镀锌层表面,使得复合钝化膜致密平整,且使腐蚀过程得到了强烈的抑制。     

Robust model for optimization of forming process for metallic bipolar plates of cleaner energy production system

Energy production systems such as proton-exchange membrane fuel cell (PEMFC) has a promising future in the cleaner energy market due to zero emissions. Rubber pad forming (RPF) process of metallic bipolar plates of PEMFCs is gaining attention among the researchers. Studies based on design of experiments have been conducted to find the crucial parameters of the forming process. These methods are based on the assumptions of the model structure, correlated residuals, etc., which can cause uncertainty in estimation ability of the model on unseen data. Therefore, the present study focuses on the design of robust models of these parameters for PEMFCs using an optimization approach of genetic programming (GP). The inputs from the experiments considered in GP are radius, the friction coefficient, the filling factor and the minimum thickness. Experiments on PEMFCs validates the performance of the GP models. Further, the relationships between the two inputs and the three outputs for PEMFCs are generated as well as the contributions of each input to each of the output. Optimization of the models generated by GP can further determine the forming quality of metallic bipolar plates of PEMFCs by an appropriate setting of the two inputs.     

Experimental and optimization of material synthesis process parameters for improving capacity of lithium‐ion battery

New methods for synthesis of active materials have been developed to improve capacity and cycle life performance of lithium‐ion batteries. Past studies have focused on routes of development of materials and new processes, which might not be economical for large‐scale production. In this regard, this study examines a widely employed carbothermal reduction technology for the synthesis of lithium‐iron phosphate (LiFePO₄/C) and investigates effects of process conditions during this synthesis on final battery performance. An experimental combined genetic programming approach is used to model the effects of crucial process conditions (sintering time, the carbon content, and the sintering temperature) on the discharge capacity of the assembled battery. Experiments are conducted to collect the discharge capacity data based on varying LiFePO₄/C synthesis conditions, and genetic programming is employed to develop a suitable functional relationship between them. The results show that the battery discharge capacity is controlled significantly by adjusting sintering temperature and carbon content, while the effect of sintering time is found to be insignificant. Further, the interaction effect of the sintering time and carbon content is much more obvious than that of the sintering time and the sintering temperature. The findings from the study pave the way for the optimum design of the synthesis process of LiFePO₄/C for a higher battery performance.     

聚乙烯材料的拉伸疲劳动力学模型

高分子材料的疲劳破坏过程无论是机理还是现象都与金属材料有较大的不同,不能将金属的疲劳曲线[应力-寿命(S-N)曲线]的拟合模型直接用于高分子材料。在微观缺陷集中的动力学模型基础上进行修正,提出了存在平均应力下的高分子拉伸疲劳动力学模型,并应用于一种聚乙烯材料的拉伸疲劳试验中。结果表明,该模型能够准确地描述聚乙烯材料的拉伸疲劳行为,并且具有良好的稳定性。