A. E. Kozmai, M. V. Porozhnyy, V. V. Gil, D. S. Lopatin, A. V. Rodichenko, I. V. Voroshilov, V. V. Nikonenko
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引用次数: 0
Abstract
The acute shortage of hemodialysis cartridges in Russia, resulting from restrictions imposed by the European Union on the supply of high-tech equipment, has necessitated the development of domestically produced, cost-effective, and efficient hemodialysis membranes. In this study, experimental membranes based on polysulfone were developed and characterized. The effects of different pore-forming agents, polyethylene glycol and polyvinylpyrrolidone, on the structure and transport properties of the membranes have been compared. A non-steady state one-dimensional mathematical model of urea dialysis was proposed, with a key feature being the consideration of the membrane’s microheterogeneous structure. A comparison of the modeling results with experimental data on the time-dependent urea concentration in the dialysate compartment of the dialysis system indicates that the model accurately describes the system under study. A theoretical evaluation of the efficiency of the developed membrane material under conditions relevant to the hemodialysis process has been conducted, along with a comparison of urea removal performance with Nephral ST hemodialysis cartridges from Baxter, a company with a significant presence in the global market. The results have shown that the polysulfone-based membrane produced using polyvinylpyrrolidone demonstrates performance slightly inferior to that of commercially available cartridges, highlighting its potential for use in the production of hollow fiber membranes for hemodialysis cartridges.
由于欧盟对高科技设备的供应施加了限制,俄罗斯的血液透析滤芯严重短缺,因此有必要开发国产的、经济高效的血液透析膜。本研究开发并鉴定了基于聚砜的实验膜。比较了不同的成孔剂(聚乙二醇和聚乙烯吡咯烷酮)对膜的结构和传输特性的影响。提出了尿素透析的非稳态一维数学模型,其主要特点是考虑了膜的微异构结构。将建模结果与透析系统透析液区随时间变化的尿素浓度实验数据进行比较后发现,该模型准确地描述了所研究的系统。我们对所开发的膜材料在血液透析过程相关条件下的效率进行了理论评估,并将其与在全球市场上占有重要地位的百特公司生产的 Nephral ST 血液透析滤芯的尿素去除性能进行了比较。结果表明,使用聚乙烯吡咯烷酮生产的聚砜基膜的性能略逊于市场上销售的血液透析滤芯,这凸显了它在生产血液透析滤芯用中空纤维膜方面的应用潜力。
期刊介绍:
The journal Membranes and Membrane Technologies publishes original research articles and reviews devoted to scientific research and technological advancements in the field of membranes and membrane technologies, including the following main topics:novel membrane materials and creation of highly efficient polymeric and inorganic membranes;hybrid membranes, nanocomposites, and nanostructured membranes;aqueous and nonaqueous filtration processes (micro-, ultra-, and nanofiltration; reverse osmosis);gas separation;electromembrane processes and fuel cells;membrane pervaporation and membrane distillation;membrane catalysis and membrane reactors;water desalination and wastewater treatment;hybrid membrane processes;membrane sensors;membrane extraction and membrane emulsification;mathematical simulation of porous structures and membrane separation processes;membrane characterization;membrane technologies in industry (energy, mineral extraction, pharmaceutics and medicine, chemistry and petroleum chemistry, food industry, and others);membranes and protection of environment (“green chemistry”).The journal has been published in Russian already for several years, English translations of the content used to be integrated in the journal Petroleum Chemistry. This journal is a split off with additional topics.
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