JISI: Jurnal Integrasi Sistem Industri

Pervaporation is an alternative separation process using membrane which allows separations of organic mixtures and dehydrates organic solvents with low energy consumption. The purpose of this experiment is to analyze the influence of operating parameters such as feed temperature, times, variation of feed ethanol water mixtures, variation of membranes on pervaporation performance shown by the flux and selectivity by using ceramic membranes with variation of diatomaceous earth and clay as separation. Pervaporation process performance is determined from permeate selectivity and flux. Increase of permeate selectivity and flux means also increasing performace of pervaporation. However, increasing product flux may contribute on decreasing selectivity. The research consists of membrane preparation, pervaporation process, and optimization. Feed of this research are ethanol-water mixture with temperature varying between 40-60oC and downstream pressure 0.5 mbar. Ceramic membrane is used and modification with 30,60,90% of diatomaceous earth. From the results, the membranes have successfully improved the flux of this research..The results showed that the operating conditions of 0,5mbar pressure of permeate, the variation in temperatures of 40ºC, 50ºC and º, th variation of membranes and times produces the flux increases and selectivity decreases.In these conditions the maximum temperature, 60ºC gives the flux of 0,1945 l/m2.hr and the selectivity of 1,7198. In these conditions produce fuel grade ethanol with purity levels reached 98% from 95% ethanol feed.The test results indicated the mean value of t = 31.400> t table = 2.00 and sig. =0,000 <α = 0.05, thus the average (mean) of 1.806 issignificant. Thus the hypothesis that the level of damage membrane of the product significantly affect the processproduction is not proven.

Pervaporation, diatomaceous earth, clay, flux, selectivity, statistical

Andriani. R. 2007. Teknologi Pervaporasi untuk Dehidrasi Etanol Menggunakan Membran Zeolit NaA. ITB.

Asip, F. dan Okta, T. 2013. Adsorbsi H2S Pada Gas Alam Menggunakan Membran Keramik Dengan Metode Titrasi Iodometri. Jurnal Teknik Kimia No. 4, Vol. 19.

Fessenden, R.J, Fessenden, J.S. 1986. Kimia Organik Jilid I. Terjemahan Aloysius Hadyana Pudjaatmaka. Erlangga, Jakarta.

Nasrun, 2004. Studi Pemakaian Zeolit untuk Meningkatkan Performansi Membran. Institut Teknologi Bandung. Bandung.

Nuryono, dkk. 2003. Kajian Kinetika Adsorpsi Krom(III) Pada Tanah Diatomit Setelah Perlakuan dengan Asam Sulfat dan Asam Klorida. Jurnal Indonesian Journal of Chemistry, 3 (1):32-38.

Rahmah dkk. 2011. Kapasitas Adsorpsi Tanah Diatomeae (Tanah Diatom) terhadap Ion Kromium (VI). Jurnal Jurnal Chemical Vol. 12 Nomor 1 Juni 2011:60 – 66.

Rarasati, R. dan Puspitasari, R.A. 2010. Pemodelan Matematik Dehidrasi Bioetanol dengan Membran Pervaporasi. Universitas Diponegoro. Semarang.

Samosir, A. 2009. Pengaruh Tawas dan Diatomea (Tanah Diatom) dalam Proses Pengolahan Air Gambut dengan Metode Elektrokoagulasi. Universitas Sumatera Utara. Medan.

Sano, Tsuteji. Hiroshi Yanagishita. 1994. Separation of Ethanol-Water Mixture by Silicate Membran on Pervaporation. Science and Technology. Japan.

Sari, M.D. 2011. Membran Pervaporasi Polistirena Dengan Variasi Penambahan Konsentrasi Pluronic. Institut Pertanian Bogor. Bogor

Sunaryo dan Widyawidura, W. Pengembangan Bahan Membran Keramik Untuk Peningkatan Kualitas Air Minum. Jurnal Spektra, Volume 10 Nomor 2 Desember 2010

Sutanto, E dan Ryandadari, D.2014. Analisis Kualitas Billet Dengan Metode Statistical Process Control (Spc) Pada Pt. Hanil Jaya Steel.JPTM. Volume 03 Nomor 01 Tahun 2014, 213-221

Wahyuni, Ika. 2012. Studi Pemisahan Campuran Azeotrop Etanol-Air dan Isopropil Alkohol-Air Melalui Proses Pervaporasi dengan Membran Thin Film Composite Komersial. Universitas Indonesia. Depok.