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Ardinal, Ardinal
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Studi Potensi Pembentukan Biogas Dari Sampah Makanan dan Ko-Substrat Feses Sapi Untuk Energi Listrik Alternatif: Studi Kasus Di Universitas Andalas Ardinal, Ardinal; Gewe, Rima Senditya; Raharjo, Slamet; Iskandar R, Iskandar R
Jurnal Litbang Industri Vol 5, No 2 (2015)
Publisher : Institution for Industrial Research and Standardization of Industry - Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (924.194 KB) | DOI: 10.24960/jli.v5i2.673.101-111

Abstract

The potential raw materials for biogas formation through anaerobic treatments available on the campus of Andalas University (Unand) in Padang are the cafeteria’s food waste and cow feces. This study was aimed to look at the effect of cow feces in the formation of biogas from food waste that used a floating drum digester which was conditioned twice. Retention time was 20 days and the pH of packing material was conditioned by adding limestone. The ratio variation of packing materials composition such as food waste and cow feces were 100:0 (control digester), 75:25 (test 1 digester with a C/N ratio 30) and 50:50 (test 2 digester with a C/N ratio 25). The results showed that cumulative volume of biogas in control digester was 0.927 liters with methane gas estimated 591.885 mg/L and did not light when burned. The cumulative volume of biogas in test 1 digester was 13.715 liters with methane gas estimated was 15502.61 mg/L with the reddish color of blue flame. The cumulative volume of biogas in test 2 digester was 10.18 liters with concentration of methane gas was estimated 23297.59 mg/L and with blue color flame.ABSTRAKBahan baku potensial pembentukan biogas melalui pengolahan anaerobik yang tersedia di Kampus Universitas Andalas (Unand) Padang yakni sampah makanan kantin dan feses sapi. Studi ini bertujuan untuk melihat pengaruh penambahan feses sapi dalam pembentukan biogas dari sampah makanan menggunakan floating drum digester yang dikondisikan duplo. Waktu retensi 20 hari dan pH bahan isian dikondisikan dengan menambahkan batu kapur. Variasi rasio komposisi bahan isian berupa sampah makanan dan feses sapi yakni 100:0 (digester kontrol), 75:25 (digester uji 1 dengan rasio C/N 30) dan 50:50 (digester uji 2 dengan rasio C/N 25). Hasil penelitian menunjukkan volume kumulatif biogas digester kontrol yakni 0,927 liter dengan estimasi gas metana 591,885 mg/L serta tidak menyala saat dibakar. Volume kumulatif biogas digester uji 1 yakni 13,715  liter dengan estimasi konsentrasi gas metana 15502,61 mg/L serta warna nyala biru kemerahan. Volume kumulatif biogas digester uji 2 yakni 10,18 liter dengan estimasi konsentrasi gas metana 23297,59 mg/L serta warna nyala biru.
Pengembangan Mesin Pengurai Serat Tandan Kosong Kelapa Sawit (TKKS) untuk Menghasilkan Serat Mekanis Junaidi, Junaidi; Kasim, Anwar; Ardinal, Ardinal
Jurnal Litbang Industri Vol 6, No 1 (2016)
Publisher : Institution for Industrial Research and Standardization of Industry - Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1785.521 KB) | DOI: 10.24960/jli.v6i1.955.39-49

Abstract

The purpose of this research was to design shredded oil palm empty fruit bunch (EFB) fiber extractor machine, to conduct technical evaluation on the machine performance, and to conduct fiber chemical analysis. This prototype is expected to increase added value on EFB waste as it is not maximally utilized. The machine must be both technically and economically feasible to be applied in particle board industry to produce oil palm empty fruit bunch fiber. Based on its design, the machine has ± 200 kg/hours capacity and 5 HP motor. The evaluation of machine performance on 600 RPM and 900 RPM rotations resulted on similar numbers of fiber and mixed fiber percentage. From 10 shredded EFB extracted, 7.6 kg (76%) clean fiber, 2.05 kg (20%) mixed fiber, and 1.35 kg ash were obtained. Three times extracting process on 600 RPM rotation resulted on fiber percentage based on its length as follows: 4.6% long fiber (>10 cm), 32.3% medium fiber (5-10 cm), and 61.4% short fiber (2-4 cm). Meanwhile, the percentages on 900 RPM rotation were 0% of long fiber, 22.37% of medium fiber, and short fiber of 77.3%. There were five types of composition of extracted fiber level; 1) clean fiber on 600 RPM, 2) clean fiber on 900 RPM, 3) mixed fiber (medium fiber 2-3 cm + petal), 4) mixed fiber (short fiber <2 cm + petal), 5) mixed fiber (soft fiber + pollens). The result of chemical analysis showed that those five types of fibers contained 9.3% water, 5.6% extractive, 1.4% fat, 33.1% lignin, 58.33% holocellulose, and 39.2% cellulose contents. Finally the analysis showed that it had a similar chemical composition compared to the fibers of softwood and Red Meranti wood.ABSTRAKPengembangan mesin pengurai serat tandan kosong kelapa sawit dilakukan untuk menghasilkan serat mekanis sebagai penguat papan partikel. Didalam penelitian ini dilakukan perancangan mesin, pembuatan mesin dan evaluasi teknis kinerja mesin. Evaluasi teknis dilakukan pada putaran 600 rpm dan 900 rpm dengan masing-masing putaran 2 kali penguraian, dan masing-masing penguraian 3 ulangan. Dari hasil rancangan mesin didapatkan kapasitas mesin ± 200 kg/jam dan daya penggerak  5 HP. Hasil evaluasi teknis kinerja mesin didapatkan persentase serat dan serat campuran pada putaran 900 rpm pada pengujian 1 dan 2 tidak berbeda jauh dengan pengujian pada putaran 600 rpm. Dari 10 kg TKKS cacahan masing-masing putaran, didapatkan rata-rata serat bersih  82%, serat campuran 14%, dan 4% menjadi debu. Dari hasil penguraian pada putaran 600 rpm dan 900 rpm didapatkan 5 macam komposisi tingkatan serat yaitu, a) serat bersih 600 rpm, b) serat bersih 900 rpm, c) serat campuran (2-3 cm+kelopak), d) serat campuran (<2 cm + kelopak), e) serat campuran (serat halus + serbuk). Hasil analisis kimia ke lima serat tersebut yaitu,  rata-rata kadar air serat 9,3%, kadar ekstraktif 5,6%, kadar lemak 1,4%, kadar lignin 33,1%, kadar holoselulosa 58,33%, dan selulosa 39,2%. Dibandingkan dengan serat kayu daun jarum dan kayu meranti merah, kandungan kimia serat tersebut hampir sama atau tidak berbeda jauh.
Co-Authors Anwar Kasim Gewe, Rima Senditya Iskandar R, Iskandar R Laksono Trisnantoro Slamet Raharjo