减粘塔减粘技术在乙烯装置上的应用

分析了传统的急冷油减粘方法的不足之处,阐述了减粘塔减粘的原理,并结合减粘塔的工艺特殊性,列举了具体的设计改进、工艺调整以及安全运行防堵措施。介绍了中国石化扬子石油化工股份有限公司烯烃厂1#、2#乙烯装置减粘塔运行情况与效果,并针对遗留问题,提出了改造方案。     

Rheological behaviour of polysaccharide aqueous solutions

Several data relative to the viscosity of water-soluble polysaccharide solutions were collected from the literature and processed by different rheological models. Some relationships between the viscosity of these polymer solutions, their molecular weight and their solution concentrations, were established and their validity checked. Thus, an accurate equation correlating the viscosity and both the shear rate and the solution concentration of different water soluble polysaccharides (xanthan, hyaluronan, carboxymethylcellulose) was deduced on the basis of Cross' model which suggests two domains in which the viscosity is constant, i.e. very low and very high shear rate ranges. Then, an expression relating the zero-shear viscosity (A) and the concentration of their solutions was proposed. Finally, an alternative equation to that of Mark–Houwink correlating the molecular weight and the intrinsic viscosity of the water-soluble polysaccharides studied in this paper was found.     

高浓色母粒的制备及流变行为研究

通过调控加工工艺及选择母粒配方，成功地制备出质量分数为70％的高浓白母粒。通过SEM观察发现，即使钛白粉质量分数高达70％．载体树脂仍可形成网状结构的连续相。测试母粒流变性能表明，高浓白母粒熔体仍为假塑性流体，流变行为稳定连续，且切力变稀的趋势较纯树脂更为明显；高浓白母粒与纯料共混时会出现等粘点，为色母粒的均匀着色提供了理论依据。制备出的高浓色母粒外观光洁，分散性能优良。     

低压片状模塑料增稠工艺研究

采用氧化镁为增稠剂、结晶树脂以粉料形式加入而降低片材热模内粘度的工艺，改进了对低压片状模塑料的增稠方法。结果表明：采用此工艺，设备不需要加热，增稠符合传统SMC增稠曲线；片材在模腔内有较低的粘度，适宜于低压成型。     

EFFECTS OF NONIONIC SURFACTANTS ON PERFORMANCE OF COPPER CHEMICAL MECHANICAL POLISHING

During copper chemical mechanical polishing (Cu-CMP), the physical properties of slurry, such as the dispersion and suspension stability of abrasives, the interaction between particles and the polished surface, and the rheological characteristics, greatly affect the planarization efficiency. In this study, several nonionic surfactants were added to change the aforementioned physical characteristics of slurry and Cu-CMP performance. Their effects were investigated. The experimental results showed that Al₂O₃ slurry with 300 ppm Triton DF-16 could enhance the wettability of the Cu surface and stabilize the dispersion of abrasives in the slurry. Therefore, the passivation reaction on the Cu surface during CMP would occur uniformly, and the removal of particles during post cleaning could be improved. Cu CMP using the slurry with an adequate amount of nonionic surfactants, Triton DF-16, is proposed to reduce the surface roughness, enhancing the planarity.     

BLOOD VISCOELASTICITY FOR CONDITIONS OF PHYSIOLOGICAL FLOW IN SMALL ARTERIES

The viscoelasticity of blood is quantified by studying the oscillatory flow of suspensions of RBC in plasma in 218 μm and 400 μm glass capillary tubes. The flow conditions are chosen to reflect normal physiological flow in small arterial vessels. Data are obtained for suspension hematocrits between 35 and 80 percent, and at physiological temperature (37°C) The results indicate that the elastic component of the viscoelasticity of blood is effectively negligible for the conditions of this study; the measured pressure gradient-flowrate relationship is dominated by the viscous component of blood viscoelasticity.     

Evaluation of polymer rheology from drop spreading experiments

In this paper, spreading experiments on “heavy” polymer drops are performed. “Heavy” refers to large polymer drops, i.e., the radius of the drop, R, is much larger than the capillary length, κ^-1, so that the spreading is dictated by gravity. The zero-shear viscosity can be found from measurements of the time-dependent drop radius or vice versa. Viscosity values found from spreading experiments compare well with the viscosity values found from dynamic rheological experiments.     

Paste extrusion of polytetrafluoroethylene (PTFE): Surface tension and viscosity effects

The effects of the lubricant physical properties on the processing of polytetrafluoroethylene (PTFE) fine powder resins are studied. Lubricants having different surface tension and viscosity were used; the two properties changed independently. These effects were studied by using dies of various contraction angle and reduction ratio for resins having a variety of molecular architecture. It was found that the wettability (surface tension) of the lubricant strongly affects the pressure needed to extrude the PTFE pastes. The viscosity of the lubricant was also found to play a significant role in the process since a lubricant with a low viscosity causes the paste to be extruded at a lower pressure. These effects of the physical properties on the extrusion pressure influence significantly the mechanical properties of the final extrudates. The latter are functions of the degree of fibrillation, which is significantly influenced by the wettability and viscosity of lubricants. Finally, the effects of die geometry on extrusion pressure and mechanical properties of extrudates were also assessed in order to determine the geometrical characteristics and operation conditions for the optimization of the process.     

乙烯装置急冷油系统减粘技术的研究

基于乙烯装置急冷油和急冷系统结垢物的组成分析，探讨了急冷油增粘和系统结垢的机理．研究了适用于急冷油系统的新型减粘剂RIPP-1420和减粘剂的注入技术。结果表明，RIPP-1420减粘剂和该注入技术能有效降低急冷油系统物料的粘度，减少结垢物的生成。     

表面活性剂对聚乙烯醇水溶液黏度影响的研究

研究了阴离子十二烷基硫酸钠、阳离子十六烷基三甲基溴化铵和非离子壬基酚聚氧乙烯醚等3种不同类型的表面活性剂对聚乙烯醇溶液黏度性质的影响。结果表明,离子型表面活性剂与聚乙烯醇发生疏水链相互作用使高聚物带有电荷,体系黏度增加;非离子表面活性剂与聚乙烯醇无相互作用,体系黏度不变;盐的加入,只对聚乙烯醇/离子型表面活性剂混合体系影响大,而对聚乙烯醇/非离子型表面活性剂混合体系无影响。