REVIEW : FABRIKASI MEMBRAN BERBASIS NANOFIBER DENGAN METODE ELECTROSPINNING

Aprillia Nurcahya Putri, M. Munasir
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引用次数: 1

Abstract

AbstrakElectrospinning adalah metode yang efektif dalam fabrikasi membran berbasis nanofiber. Membran nanofiber yang dihasilkan dengan menggunakan metode electrospinning lebih unggul dibandingkan dengan membran konvensional seperti inversi fasa, sintering, dan track etching. Keunggulan tersebut diantaranya memiliki sifat mekanik yang baik dan porositas tinggi (≥90%) dibandingkan membran konvensional yang hanya memiliki porositas 10—20%. Membran nanofiber dapat digunakan pada proses pengolahan air untuk mengatasi masalah krisis air. Proses filtrasi membran terdapat empat tahap diantaranya ultrafiltrasi, mikrofiltrasi, nanofiltrasi, dan reverse osmosis. Karakteristik membran nanofiber dalam aplikasi purifikasi air diantaranya mampu menghalangi garam, bakteri, dan logam berat. dari proses pengolahan air menggunakan membran nanofiber diharapkan memperoleh air dengan kontaminan seminimal mungkin.Kata Kunci: Electrospinning, Membran, NanofiberAbstractElectrospinning is an effective method to fabricate nanofiber based membrane. Nanofiber membrane was produced using the electrospinning method is superior compared to conventional membrane such as phase inversion, sintering, and track etching. The advantages include having good mechanical properties and high porosity (≥90%) compared to conventional membrane which only have 10—20% porosity. Nanofiber membrane can be used in water treatment processes to overcome the water crisis problems. There are four processes of membrane filtration including ultrafiltration, microfiltration, nanofiltration, and reverse osmosis. The characteristics of nanofiber membrane that used in water purification include being able to block salts, bacteria, and heavy metals. The results of the water treatment process using nanofiber membrane is expected to obtain water with minimum contaminants.Keywords: Electrospinning, Membrane, Nanofiber
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综述:通过电旋法生产一种基于纳米纤维的膜
抽象电动势是一种有效的基于纳米纤维的膜制造方法。利用电转导方法生产的纳米纤维膜优于传统的膜,如相相、融合和轨迹等。这其中有良好的机械性能优势和传统膜孔隙度高(≥90%)相比,只有孔隙度的10—20%。纳米纤维膜可以用于水的处理过程,以解决水的危机。渗透膜的过程分为四个阶段:超级渗透、微渗透、纳米渗透和反渗透。海水净化应用中的纳米纤维膜特征可以阻挡盐、细菌和重金属。使用纳米纤维膜的水处理过程预计将将污染最低的水获得。关键词:脑垂体、膜、纳米显微电离电平是一种基于膜的制造纳米纤维的有效方法。纳米纤维膜是利用电旋转的方法生产出来的The advantages include玩得好的机械性能和高porosity(≥90%)compared to conventional主唱哪种porosity只有10—20%。纳米纤维膜可以用来治疗水质问题。膜膜过滤有四种不同的过程包括超滤、微滤、纳米过滤和反渗透。利用在海水中提取的纳米纤维特性使其能够阻挡盐、细菌和重金属。使用纳米纤维膜进行的水治疗过程的结果预计将减少污染。简写:电旋,膜,纳米纤维
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