扁管粘土基多孔支撑过滤器的制备

Dolgorjav Rentsendavaa, Saran Galdansambuu, Song In‐Hyuck
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引用次数: 0

摘要

蒙古的淡水资源很少。因此,保护水资源是很重要的。一种有效的方法是将水净化后再利用。因此,蒙古科技大学材料科学中心的科学家与韩国材料科学研究院的研究人员合作,在2017-2020年间开展了一个项目。本研究以蒙古沸石和制备的高岭土为原料,利用KIMS的双螺杆真空挤出机对扁平管状多孔支架进行挤出。在800℃和1000℃下对支架进行烧成,用汞孔法测定支架的孔隙分布等性能。沸石-高岭土载体的容重为1.46 g/cm,孔隙率为41.52%,平均孔径为218 nm。该支架在0.01 MPa和0.08 MPa下的透水性分别为115 L/m·h和970 L/m·h,取得了较好的效果。废水处理试验表明,这些膜也具有良好的抗压强度。我们清理了一家皮革工厂的污水,污染非常严重,粘度很高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fabrication of Flat Tubular Clay-Based Porous Support Filters
Mongolia has few freshwater resources. It is therefore important to conserve water resources. An efficient possibility is to purify water and reuse it. Therefore, the scientists from the Material Science Center of the Mongolian University of Science and Technology collaborated with the researcher from the Korea Institute of Material Science and carried out a project between 2017-2020. In this study, Mongolian zeolites and prepared kaolin were used and flat tubular porous support was extruded by a double screw vacuum extruder at KIMS. The supports were burned at 800 and 1000°C and the properties such as pore distribution were determined by mercury porosimetry. The zeolite-kaolin support had a bulk density of 1.46 g/cm, a porosity of 41.52% and, an average pore size of 218 nm. With its water permeability of 115 L/m·h at 0.01 MPa and 970 L/m·h at 0.08 MPa, the support achieved good results. The wastewater treatment tests show that these membranes also have good compressive strengths. We have cleaned the sewage from a leather factory, which was very highly contaminated and has high viscosity.
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