The Investigation of Thermodynamic and Kinetic Effects in TiO2/Al2O3/ PVDF Composite Membrane Forming Process

Lu Ping
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Abstract

The addition of inorganic nano dioxide (TiO2) and alumina (Al2O3) particles into the organic polymer material Polyvinylidene Fluoride (PVDF) can enhance the composite membranes’ hydrophilicity and anti-pollution capacity in the water treatment process. The study aimed to investigate thermodynamic and kinetic effects of the inorganic nanoparticles on composite membrane in the membrane forming process. The turbid point titration method was adopted to determine casting solution phase separation point of the system and draw ternary phase diagrams. Ternary system phase diagrams were used to investigate the thermodynamic effects of nanoparticles on the membrane forming process. UV spectrophotometer transmittance decline curves of the casting solution system added different amounts of nanoparticles were measured in order to investigate the kinetic effects of nanoparticles in the membrane forming process. The results show that nanoparticles have a very high specific surface area, which can make strong adsorption of PVDF polymer chain and reduce the cohesive energy of the polymer in the casting solution. The membrane forming system is more prone to phase separation, thereby reducing the sedimentation values of the phase separation point. The casting solution system becomes unstable thermodynamically. The decreasing trend casting solution system and precipitation values is obvious in the range of 1% to 3% nanoparticles content and this trend weakens when nanoparticles content is 4%. Nanoparticles can decrease the ability of non-solvent to accommodate in the casting solution and make membrane form in smaller non-solvent concentration. The hydrophilic nanoparticles in the casting solution can affect mass transfer resistance of the solvent and non-solvent and augment mass transfer driving force for mutual diffusion of the solvent and non-solvent thus shortening the membrane forming time from the casting solution being immersed in the gelation bath for membrane formation. In the system with PVP as pore-forming agent, the process takes about 800s without nanoparticles addition and about 600s to complete the process after adding the nanoparticles. The addition of nanoparticles reduces the cohesive energy of the polymer in the casting solution, the casting solution becomes unstable in thermodynamics; The addition of nanoparticles increases the mass transfer force by bidirectional diffusion of solvent and non-solvent in the casting solution.
TiO2/Al2O3/ PVDF复合膜成形过程的热力学和动力学效应研究
在有机高分子材料聚偏氟乙烯(PVDF)中加入无机纳米二氧化钛(TiO2)和氧化铝(Al2O3)颗粒,可以增强复合膜在水处理过程中的亲水性和抗污染能力。研究无机纳米颗粒在复合膜形成过程中的热力学和动力学作用。采用浊点滴定法确定体系的铸溶相分离点,并绘制三元相图。采用三元体系相图研究了纳米颗粒对膜形成过程的热力学影响。为了研究纳米粒子在膜形成过程中的动力学作用,测定了加入不同纳米粒子量的铸造溶液体系的紫外分光光度计透射率下降曲线。结果表明,纳米颗粒具有很高的比表面积,对PVDF聚合物链有很强的吸附作用,降低了聚合物在铸液中的黏结能。成膜系统更容易发生相分离,从而降低了相分离点的沉积值。铸造溶液体系在热力学上变得不稳定。在纳米颗粒含量为1% ~ 3%的范围内,铸液体系和析出值有明显的下降趋势,当纳米颗粒含量为4%时,这种趋势减弱。纳米粒子可以降低非溶剂在铸造溶液中的容纳能力,使膜在更小的非溶剂浓度下形成。在浇铸液中加入亲水纳米颗粒,可以影响溶剂和非溶剂的传质阻力,增强溶剂和非溶剂相互扩散的传质驱动力,从而缩短浇铸液浸入凝胶浴成膜的成膜时间。在以PVP为成孔剂的体系中,不添加纳米颗粒的过程耗时约800s,添加纳米颗粒后的过程耗时约600s。纳米粒子的加入降低了聚合物在浇铸液中的结合能,浇铸液在热力学上变得不稳定;纳米粒子的加入增加了铸造溶液中溶剂和非溶剂双向扩散的传质力。
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