Abstract

Oil palm empty fruit bunch (OPEFB) has high potency to be converted into second generation bioethanol production. OPEFB pretreated liquid hot water (LHW) assisted maleic acid (MA) pretreatment was used as substrate in simultaneous saccharification fermentation (SSF). This pretreatment was conducted at 180 °C for 70 min by using 1.5% (w/v) MA acid concentration with material and liquid ratio of 1:14. Subsequently, the pretreated samples were fermented by addition of surfactant, polyethylene glycol (PEG) 4000 and amphiphilic lignin derivatives (A-LD) using Kluyveromyces marxianus InaCC Y119 yeast at temperature of 38 °C for 89 h. Before SSF, pretreated OPEFB was pre hydrolyzed by cellulase enzyme with enzyme loading 30 FPU/g at 50 °C for 3 h. Fermentation filtrate was taken at 0, 24, 48, 72, dan 89 h as much as 1.5 mL for reducing sugar and ethanol content determination. The surfactant addition can enhance reducing sugar and also ethanol content compared to control. The highest ethanol content of 1.251 g/L was found at fermentation of OPEFB pretreated MA with PEG 4000 surfactant at 89 h.

Highlights

  • Penggunaan biomassa berlignoselulosa dari bahan non pangan dapat meminimalisasi kompetisi penggunaan bahan pangan sebagai sumber pangan atau energi [1]

  • has high potency to be converted into second generation bioethanol production

  • pretreatment was used as substrate in simultaneous saccharification fermentation

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Summary

Bahan kimia

Bahan yang digunakan pada penelitian adalah serbuk tandan kosong kelapa sawit (TKKS) berukuran 40-60 mesh yang diperoleh dari Cibadak, Sukabumi, Jawa Barat, Indonesia pada tahun 2019, asam maleat (Wako), pepton (Merck), glukosa (Merck), yeast extract (Merck), Vol 12, No 1, March 2021 enzim celluclast Trichoderma reesei ATCC 26921 (Sigma Aldrich) dengan aktivitas enzim 42.3 mL sejumlah 30 FPU/g, bufer sitrat 0.05 M (pH 4.8), asam 3, 5-dinitrosalisilat (Sigma Aldrich), PEG 4000 dan Amphipilic Lignin Derivatives (A-LD) sebanyak 15 mg/mL yang disiapkan berdasarkan Fatriasari dkk.[3]. Mikroorganisme yang digunakan yaitu khamir Kluyveromyces marxianus InaCC Y119. Peralatan Alat-alat yang digunakan dalam penelitian adalah reaktor uap air panas bertekanan, timbangan analitik, inkubator pengocok (BioShaker BR-300), hot plate, autoklaf, peralatan gelas, spektrofotometer UV-VIS (Szimadzu UV 1800), dan kromatografi gas (GC-2010 Plus Simadzu)

Praperlakuan uap air panas bertekanan dengan katalis asam maleat
OD i
BKO substrat
Hasil dan Diskusi
Ucapan Terima Kasih
Daftar Pustaka
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