Kabupaten Kuantan Singingi merupakan daerah produsen komoditi karet alam terbesar di Provinsi Riau. Sejumlah besar gabungan kelompok tani (GAPOKTAN) karet di beberapa desa dan didukung oleh pemerintah daerah sudah membentuk Asosiasi Petani Karet Kuantan Singingi (APKARKUSI), untuk melakukan pengendalian kualitas dan pelelangan bahan olah karet (bokar). Asosiasi ini juga berencana akan mengembangkan industri hilir berbahan baku utama bokar. Tujuan kegiatan ini adalah untuk melakukan persiapan awal terkait dengan rencana pengembangan produk hilir karet tersebut. Kegiatan tahap awal ini meliputi penentuan kualitas bokar dari petani yang berafiliasi dengan APKARKUSI, jenis produk hilir karet tahap awal dan perencanaan tata letak mesin dan sarana produksinya, dan spesifikasi yang diinginkan pasar dari produk sandal karet sebagai salah satu jenis produk hilir karet yang akan dikembangkan. Kualitas bokar yang dikelola oleh APKARKUSI relatif sangat baik (yaitu dengan kadar karet kering berkisar 60-65 %). Jenis produk hilir karet yang siap diproduksi adalah brown crepe rubber, dimana kinerja proses produksinya masih perlu dioptimalkan. Spesifikasi produk sandal karet yang akan diproduksi bersifat dinamis, yaitu dengan mempertimbangkan faktor model, kualitas, kenyamanan dan harga. Untuk proses produksinya, perlu merujuk kepada tata letak mesin dan sarana produksi yang dapat menhasilkan kinerja yang efektif dan efisien.
This study carried out the catalyst synthesis of calcium oxide (CaO) from chicken eggshells supported on activated carbon (C) and activated by KOH solution (CaO/C/KOH). The effects of variation of KOH concentration and the CaO:C mass ratio to catalyst performance were also investigated. The catalyst was used in the biodiesel production from off-grade palm oil. The catalyst with the highest catalytic activity was obtained at the CaO:C mass ratio of 12:6 and the KOH concentration of 25%. The transesterification that was performed under the conditions of the oil: methanol molar ratio of 1:10, the catalyst concentration of 1% -b oil, the reaction temperature of 65 °C, and reaction time of 3 hours produced a biodiesel yield of 85.74%. The catalyst characterization by using XRD, Hammet indicator, and Brunauer-Emmet-Teller (BET) showed the product was in the crystalline phase of CaO, K2CO3, K2O Ca(OH)2, and CaCO3, the base strength of H_> 12.2, and the specific surface area of 17.890 m2/g, respectively. The results showed that the KOH concentration in the catalyst activation process was directly proportional to the biodiesel yield. Several methyl esters such as methyl palmitate and methyl oleate were found in biodiesel through Gas Chromatography-Mass Spectrometry (GC-MS) analysis.
Biosurfactants are surfactants that are synthesized by microorganisms using organic materials and have biodegradable properties, making them environmentally friendly. One of the applications of biosurfactants in the recovery of petroleum. This study aims to determine the type of biosurfactant produced by Pseudomonas aeruginosa bacteria using crude palm oil as the main carbon source, to determine the effect of variations in pH and CPO concentration on surface tension reduction and emulsification, and compare the best biosurfactant with surfactant synthesis. The production of biosurfactants has 3 stages, namely the bacterial preparation, the biosurfactant production, and the analysis in the form of surface tension, emulsification, crude oil removal, and FTIR. The best biosurfactant was obtained at pH 7 and a carbon source concentration of 3% v/v with surface tension and emulsification values of 42.49 mN/m and 58%, respectively. The pH value and CPO concentration can affect the growth in the biosurfactant production process, thus also affecting the surface tension and emulsification values. The biosurfactants obtained were rhamnolipid biosurfactants. The biosurfactants produced in this study have lower crude oil recovery capabilities than synthetic surfactants with crude oil removal values of 57.78% and 79.34%, respectively.
Performance of anaerobic hybrid bunch-frond palm mediated bioreactor in COD elimination The high contents of Chemical Oxygen Demand (COD) in palm oil mill wastewater is able to cause the obstructed connection between air and a receiver of water body so that can make the lessening oxygen solubility in the receiver of water body. Hence, it is important to do innovation to get a good technology process of wastewater in order that the contents of COD become low. One of the wastewater processes can be done by using hybrid anaerobic bioreactor in eliminating COD that exists in palm oil mill wastewater. This research uses two units of hybrid anaerobic bioreactor i.e. hybrid anaerobic bioreactor mediated immobilization cell of empty stem palm and hybrid anaerobic bioreactor mediated immobilization cell of in 2.5 m3 of work volume. The process is done by using variation of imposition organic rate i.e. 10, 12.5, 14.28, 16.6, 20, 25, 33.3, and 50 kg COD/m3-day. The result of research showed that the highest eliminating COD is 82.67% in 14.28 kg COD/m3-day in bioreactor filled with empty palm fruit bunch and 84% for imposition organic rate 16.6 kg COD/m3-day in bioreactor filled with palm midrib. Therefore, both hybrid anaerobic bioreactors can be used for processing oil palm mill wastewater in high load of COD. Keywords: hybrid bioreactor, COD, wastewater, palm midrib, empty stem palmAbstrakKandungan Chemical Oxygen Demand (COD) yang tinggi dalam limbah cair pabrik minyak sawit dapat menyebabkan terhambatnya kontak antara udara dengan badan air penerima sehingga mengakibatkan berkurangnya kelarutan oksigen dalam badan air penerima tersebut. Oleh karena itu, penting dilakukan terobosan baru untuk mendapatkan teknologi pengolahan limbah cair yang handal agar kandungan COD menjadi rendah. Salah satu teknologi pengolahan limbah cair tersebut adalah bioreaktor hibrid anaerob. Penelitian ini bertujuan mengkaji kinerja beberapa jenis bioreaktor hibrid anaerob dalam penyisihan COD dalam limbah cair pabrik minyak sawit. Pada penelitian ini digunakan dua unit bioreaktor yakni bioreaktor hibrid anaerob dengan media imobilisasi sel tandan kosong sawit dan bioreaktor hibrid anaerob dengan media imobilisasi sel pelepah sawit dengan volume kerja 2,5 m3. Proses pengolahan dilakukan dengan variasi laju pembebanan zat organik, yaitu10; 12,5; 14,28; 16,6; 20; 25; 33,3; 50 kg COD/m3hari. Hasil penelitian menunjukkan bahwa penyisihan COD yang tertinggi dicapai sebesar 82,67% dengan laju pembebanan organik 14,28 kg COD/m3hari pada bioreaktor bermedia tandan kosong sawit dan 84% untuk laju pembebanan organik 16,6 kg COD/ m3hari pada bioreaktor bermedia pelepah sawit. Dengan demikian, kedua bioreaktor hibrid anaerob ini dapat digunakan untuk mengolah limbah cair industri minyak sawit dengan beban COD tinggi.Kata kunci: bioreaktor hibrid, COD, limbah cair, pelepah sawit, tandan kosong sawit
Vast applications of cellulases and xylanases in many fields over the last few decades and high production cost demand extensive research in improving its quality and finding low cost substrates. These includes pulp and paper, food and feed, brewing, agriculture and biofuel industries. The main objective of this study was to investigate the use of pineapple crown leaves waste as the substrate to produce cellulases and xylanases in solid-state cultures (SSF) of Eupenicillium javanicum InaCC F154. Three SSF temperatures (25°C, 30°C and 35°C) and pH (4.0, 6.0 and 8.0) were tested for 96 h in solid media containing defatted soybean, (NH4)2SO4, NaNO3, CaCl2, and small amount of H2O. Then, its comparison with submerged fermentation (SmF) was also carried out. The SSF results showed that increasing temperature from 25°C to 35°C, increased the production of these enzymes. The pH also affected its activities, except at pH 4.0. The optimum pH and temperature for cellulase and xylanase production were found to be 6.0 and 35°C, respectively. The maximum cellulase obtained was 0.261 U/mL while much higher was obtained for xylanase with activity of 1.683 U/mL. SSF was better than SmF for xylanases (0.501 U/mL vs. 1.683 U/mL). The outcome of this study exhibits the potential of pineapple crown leaves as the substrate for xylanase production from E. javanicum by solid-state fermentation.
Bioethanol is new renewable energy using the fermentation process from a substrate containing glucose. One of the materials which can convert to bioethanol is empty fruit bunch, which is in large amount in Indonesia. The plantation of palm oil has empty fruit bunch waste as much 23.988.293 tons in a year. The conversion from an empty fruit bunch to bioethanol also helps to reuse the waste which is not useful. There are a few steps to get bioethanol from an empty fruit bunch that is delignification of empty fruit bunch pollen using KOH solution which makes from empty fruit bunch ash getting from an incinerator. And then purification of pollen using H2O2 3% solution, hydrolysis cellulose becomes glucose solution using H2SO4 1% in process condition 100 °C and 60 minutes. Fermentation using temperature condition 30 °C, and stirring in 250 rpm. The variation of yeast Saccharomyces cerevisiae concentration which is 4 g/L, 6 g/L, and 8 g/L. And time variation in 0, 24, 48, 72, 96, and 120 hours. The research result is shown that maximum glucose from hydrolysis is 112,44 g/L. And the highest bioethanol concentration from the process is 5,5% (v/v) or 41,411 g/L in yeast concentration 6 g/L and 96 hours.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.