Al203-PZT压电陶瓷膜在乳化油分离中的抗污染研究毕业论文
2020-04-20 13:52:03
摘 要
在当前,食品加工、石油纺织、皮革等产业排放的含油废水增多,含乳化油废水对环境保护和生态平衡危害极大,含油废水主要成分是水和黏着的油性物质,并且还包含了不同浓度的对人体有害的化学品,对生物的生存环境具有负面的影响。膜分离技术可以有效的处理含乳化油废水问题,长时间的使用必然造成膜污染问题。
超声波清洗技术被证实在膜分离过程中有良好的抗污染效果,为避免引入额外的超声设备,研究者开发了一种以压电材料制备的分离膜,利用压电材料可以将电能转换为机械能的特性,使膜材料在过滤过程中产生原位高频振动和超声波,从而达到抗污染的效果,而PZT压电陶瓷具有很好的压电效果。本文以Al2O3-PZT压电陶瓷膜处理含油乳化液废水为研究对象,以验证压电陶瓷膜的抗污染性能为目标,考察了过滤过程中,污染方式,跨膜压差,膜面流速,乳化液pH值以及乳化液的浓度对压电陶瓷膜抗污染性能的影响。研究的内容主要分为以下几个方面:
利用商业化生产的PZT陶瓷粉体为原料,通过干压成型的方法制备陶瓷膜支撑体,在空气气氛下烧结制备压电陶瓷膜支撑体,并通过浸渍提拉法再进行烧结制备Al2O3-PZT压电陶瓷膜。压电陶瓷支撑体的平均孔径约为1 μm,孔隙率为22.4 %,纯水渗透率为814 L·m-2·h-1·bar-1,三点抗弯强度为69.7 MPa,压电性能为385 mV。Al2O3分离层的平均孔径100 nm,纯水渗透率为230 L·m-2·h-1·bar-1,压电性能为320 mV。
将制备的Al2O3-PZT压电陶瓷膜在200 ppm、2000 ppm以及酸性和碱性2000 ppm含油乳化液进行过滤实验,考察其原位超声作用。结果表明,压电陶瓷膜的原位超声作用对于膜表面有明显的的清洁作用。当外加交流电频率为210 kHz时,降低乳化油的浓度,较小的跨膜压差,增大膜面流速和输入电压可以使Al203-PZT压电陶瓷膜获得更高的稳定通量,但原位超声作用在重度污染及低表面流速下更加显著。膜表面性质可以与原位超声协同作用使Al2O3-PZT压电陶瓷膜具有更优异的抗污染性能。
本文制备的Al2O3-PZT压电陶瓷膜中包含了对人体有害的铅成分,后续实验可以研究在长时间使用Al2O3-PZT压电陶瓷膜过滤实验时,是否会有铅逸出情况。同时,在100 nm分离精度的Al2O3-PZT压电陶瓷膜基础上,可以继续制备具有原位超声作用的非对称超滤以及纳滤陶瓷膜,研究在更小尺度下原位超声的抗污染作用。由于研究条件有限,本文制备的压电分离膜仅为片状结构,无法满足工业大规模的要求,出于实际考虑,可以制备平板或管式压电陶瓷膜进行研究。
关键词:Al2O3-PZT压电陶瓷膜 原位超声 抗污染 含油乳化液
ABSTRACT
At present, oil-containing wastewater discharged from food processing, petroleum textile, leather and other industries is increasing. Emulsified oil-containing wastewater is harmful to environmental protection and ecological balance. The main components of oil-containing wastewater are water and adhering oily substances. It also contains chemicals harmful to human body at different concentrations, which has a negative impact on the living environment of organisms. Membrane separation technology can effectively treat wastewater containing emulsified oil, and long-term use will inevitably lead to membrane fouling.
Ultrasound cleaning technology has been proved to have good anti-fouling effect in membrane separation process. To avoid introducing additional ultrasonic equipment, researchers developed a separation membrane made of piezoelectric materials. The characteristics of piezoelectric materials can convert electrical energy into mechanical energy, which can make membrane materials produce in-situ high frequency vibration and ultrasound in the filtration process, thus achieving anti-fouling effect. PZT piezoelectric ceramics have good piezoelectric effect. In this paper, Al2O3-PZT piezoelectric ceramic membrane was used to treat oil-containing emulsion wastewater. In order to verify the anti-fouling performance of piezoelectric ceramic membrane, the effects of fouling mode, transmembrane pressure difference, membrane surface velocity, emulsion pH value and emulsion concentration on the anti-fouling performance of piezoelectric ceramic membrane were investigated. The contents of the study are mainly divided into the following aspects:
Using commercialized PZT ceramic powders as raw materials, ceramic film supports were prepared by dry pressing method, and piezoelectric ceramic film supports were prepared by sintering in air. Al2O3-PZT piezoelectric ceramic films were prepared by dipping and pulling method and then sintering. The average pore size of piezoelectric ceramic support is about 1 micron, the porosity is 22.4%, the water permeability is 814 L·m-2·h-1·bar-1, the three-point bending strength is 69.7 MPa, and the piezoelectric performance is 385 mV. The average pore size of Al2O3 separation layer is 100 nm, the permeability of pure water is 230 L·m-2·h-1·bar-1, and the piezoelectric property is 320 mV.
Al2O3-PZT piezoelectric ceramic membranes were filtered at 200 ppm, 2000 ppm and acidic and alkaline 2000 ppm oil-containing emulsifiers, and their in-situ ultrasound effects were investigated. The results show that the in-situ ultrasonic treatment of piezoelectric ceramic film has obvious cleaning effect on the surface of the film. When the applied AC frequency is 210 kHz, the stable flux of Al2O3-PZT piezoelectric ceramic film can be increased by reducing the concentration of emulsified oil, decreasing the transmembrane pressure difference, increasing the flow rate and input voltage, but the in-situ ultrasound effect is more significant under the condition of severe pollution and low surface flow rate. Al2O3-PZT piezoelectric ceramic membranes have excellent anti-fouling properties because of their surface properties and in situ ultrasound.
The Al2O3-PZT piezoelectric ceramic membrane prepared in this paper contains lead which is harmful to human body. Follow-up experiments can be carried out to study whether there will be lead escaping during long-term filtration experiments using Al2O3-PZT piezoelectric ceramic membrane. At the same time, on the basis of Al2O3-PZT piezoelectric ceramic membrane with separation accuracy of 100 nm, asymmetric ultrafiltration and nanofiltration ceramic membranes with in-situ ultrasound can be further prepared to study the anti-pollution effect of in-situ ultrasound at a smaller scale. Because of the limited research conditions, the piezoelectric separation membranes prepared in this paper are only sheet structure, which can not meet the large-scale industrial requirements. For practical consideration, flat or tubular piezoelectric ceramic membranes can be prepared for research.
KEYWORDS:Al2O3-PZT piezoelectric ceramic; ultrasound; anti-fouling; oil emulsion
目录
摘要 I
ABSTRACT III
目录 V
第一章 文献综述 1
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