13 research outputs found
Optimasi Proses Hidrolisis Kimiawi dan Enzimatis Tandan Kosong Kelapa Sawit Menjadi Glukosa untuk Produksi Etanol
Recently, energy especially from petroleum fuel become a serious problem for the whole countries in the world, including Indonesia. Decreasing world’s petroleum stock make its price is very high. So, it is urgent to search other alternative energy sources, such as bioethanol. Oil Palm Empty Bunches (OPEB) are found abundantly as waste of CPO production. It is rich in lignocellulose content. After delignification by white rot fungi Omphalina sp, cellulose from OPEB can be degraded to glucose as the raw material for etanol production by hydrolysis process. In this research, hydrolysis were done chemically using H2SO4 and HCl and enzymatically using cellulolytic bacteria and Trichoderma isolates. Chemical hydrolysis was carried out in autoclave at temperature of 121oC and varation in acid concentration (0.1N; 0.5N; 1N; and 2N) and hydrolysis time (20; 40; 60; 120; and 240 min). The condition was then reoptimalized by increasing the temperature to 200 0C and variation hydrolisis time (5;7,5;10;12,5; dan 15 min). Enzymatic hydrolysis were done by two methods, namely simultaneuos and separated bacth methods using Trichoderma or cellulolytic bacteria and Saccharomyces cereviceae. Delignification process increased cellulose content from 47.18% to 49.09%. The optimum condition by chemical hydrolisis with H2SO4 2N was resulted in sugar content (30,86%) with ethanol production 1.82%. By enzymatic methods, higher sugar content was obtained by Trichoderma isolate with incubation time 72 hours. The sugar content was 1.46 g/L and ethanol production was 0.33%. Ethanol production from simultaneuos process by cellulolytic bacteria was the same as ethanol production from Trichoderma by separated batch process i.e as much as 0.27
Pengaruh Anti Kempal Terhadap Daya Simpan dan Kinetika Umur Simpan Serbuk Ekstrak Sirsak
Soursop is a potential tropical fruit as raw material for food industry. To increase its value added, soursop need to be processed to extend its shelf life, by co-crystallization technique. The research aim was to define kinetics formula and establishing shelf life of soursop extract product. Shelf life testing is conducted for the product that processed using variety of variable of treatments anti-caking types: magnesium oxide (MO), magnesium carbonate (MC), magnesium silicate (MS), and temperature storage: 27°C, 30°C, 35°C, 40°C and 45°C . The results showed that kinetics formula for the soursop powder MO, MC and MS were ln K = 3,963 - 2259 (1/T), ln K = 2,219 - 1651 (1/T) and ln K = 8,597 - 3636 (1/T). Based on the kinetics, the shelf life of product which is store in 27°C, were: 9.49, 7.44 and 6.91 months respectively. The variation of anti-caking type was significantly affect the product shelf life. Using anti-caking of MS and temperature storage 27°C will resulted in a longer shelf life 9.49 months. The effect of storage temperature on the product shelf life is more significant for the product using anti-caking MS compared to product using anti-caking MO or MC.ABSTRAKBuah sirsak merupakan buah tropis yang potensial dijadikan sebagai bahan baku industri pangan. Untuk meningkatkan nilai tambahnya, buah sirsak dapat diproses dengan teknik kokristalisasi, untuk memperpanjang umur simpan. Penelitian ini bertujuan menentukan persamaan kinetika dan menetapkan umur simpan produk serbuk ekstrak sirsak. Pengukuran umur simpan dilakukan terhadap produk yang di proses dengan variasi perlakuan jenis anti kempal: magnesium oksida (MO), magnesium karbonat (MC) dan magnesium silikat (MS), serta suhu penyimpanan: 27°C, 30°C, 35°C, 40°C dan 45°C. Hasil penelitian menunjukkan persamaan kinetika umur simpan serbuk sirsak MO, MC dan MS berturut-turut: ln K = 3,963 - 2259 (1/T), ln K = 2,219 - 1651 (1/T) dan ln K = 8,597 - 3636 (1/T). Berdasarkan persamaan kinetika tersebut dapat ditetapkan umur simpan produk pada suhu 27°C, berturut turut adalah: 9,49, 7,44 dan 6,91 bulan. Variasi perlakuan jenis anti kempal sangat berpengaruh terhadap masa simpan produk. Penggunaan anti kempal MS dan suhu penyimpanan 27°C memberikan masa simpan yang lebih lama yaitu 9,49 bulan. Pengaruh suhu penyimpanan terhadap umur simpan produk lebih nyata untuk produk dengan anti kempal MS dibandingkan dengan produk dengan anti kempal MO atau MCKata kunci : umur simpan, serbuk ekstrak sirsak, ko-kristalisasi, anti-kempa
Design and Technical Testing for Crude Biodiesel Reactor Using Dry Methods: Comparison of Energy Analysis
AbstractThe objectives of this study were to design biodiesel dry washing reactor and to analyze energy consumption between this method and water washing method. The reactor was disigned continously. The reactor exhibited washing capacity of 0.56kg/minute, energy consumption of 315kJ/kg, while energy consumption of water washing was1361kJ/kg. Biodiesel quality produced from the reactor meets the biodiesel standards: methyl ester was 98.65%, total glycerol was 0.24%, acid value was 0.41mg NaOH/g oil, moisture content was 0.41%, density was 0.86kg/m3, and viscosity was 6.00 cSt. The energy ratio between dry and water washing methods was 0.23
Pengaruh Anti Kempal Terhadap Daya Simpan dan Kinetika Umur Simpan Serbuk Ekstrak Sirsak
Soursop is a potential tropical fruit as raw material for food industry. To increase its value added, soursop need to be processed to extend its shelf life, by co-crystallization technique. The research aim was to define kinetics formula and establishing shelf life of soursop extract product. Shelf life testing is conducted for the product that processed using variety of variable of treatments anti-caking types: magnesium oxide (MO), magnesium carbonate (MC), magnesium silicate (MS), and temperature storage: 27°C, 30°C, 35°C, 40°C and 45°C . The results showed that kinetics formula for the soursop powder MO, MC and MS were ln K = 3,963 - 2259 (1/T), ln K = 2,219 - 1651 (1/T) and ln K = 8,597 - 3636 (1/T). Based on the kinetics, the shelf life of product which is store in 27°C, were: 9.49, 7.44 and 6.91 months respectively. The variation of anti-caking type was significantly affect the product shelf life. Using anti-caking of MS and temperature storage 27°C will resulted in a longer shelf life 9.49 months. The effect of storage temperature on the product shelf life is more significant for the product using anti-caking MS compared to product using anti-caking MO or MC.ABSTRAKBuah sirsak merupakan buah tropis yang potensial dijadikan sebagai bahan baku industri pangan. Untuk meningkatkan nilai tambahnya, buah sirsak dapat diproses dengan teknik kokristalisasi, untuk memperpanjang umur simpan. Penelitian ini bertujuan menentukan persamaan kinetika dan menetapkan umur simpan produk serbuk ekstrak sirsak. Pengukuran umur simpan dilakukan terhadap produk yang di proses dengan variasi perlakuan jenis anti kempal: magnesium oksida (MO), magnesium karbonat (MC) dan magnesium silikat (MS), serta suhu penyimpanan: 27°C, 30°C, 35°C, 40°C dan 45°C. Hasil penelitian menunjukkan persamaan kinetika umur simpan serbuk sirsak MO, MC dan MS berturut-turut: ln K = 3,963 - 2259 (1/T), ln K = 2,219 - 1651 (1/T) dan ln K = 8,597 - 3636 (1/T). Berdasarkan persamaan kinetika tersebut dapat ditetapkan umur simpan produk pada suhu 27°C, berturut turut adalah: 9,49, 7,44 dan 6,91 bulan. Variasi perlakuan jenis anti kempal sangat berpengaruh terhadap masa simpan produk. Penggunaan anti kempal MS dan suhu penyimpanan 27°C memberikan masa simpan yang lebih lama yaitu 9,49 bulan. Pengaruh suhu penyimpanan terhadap umur simpan produk lebih nyata untuk produk dengan anti kempal MS dibandingkan dengan produk dengan anti kempal MO atau MCKata kunci : umur simpan, serbuk ekstrak sirsak, ko-kristalisasi, anti-kempal</jats:p
Pemanfaatan Teknik Ko-Kristalisasi Untuk Produksi Serbuk Ekstrak Sirsak
Research on application of co-crystallization technique on production of soursop extract powder conducted to diversify soursop product that could be used as industrial commodity. Treatment on this research was influence of: (1) anti-caking magnesium oxide (MO), magnesium carbonate (MC), and magnesium silicate (MS), and (2) storage period (0, 1, 2, and 3 months), on the characteristics of soursop powder quality. The results showed co-crystallization could be applied to produce soursop powder that met the requirements of SNI 01-4320-1996. Based on its quality characteristics, soursop powder oursop powder MC resulted a better quality compared to s MO and s MS. MC had a quality characteristics: oursop powder Soursop powder water content 1.89%, pH 4.17, sugar content 83.75%, vitamin C 42.7 total soluble solids 98.1%, TPC mg/100g, 55 colonies/g, soursop powder until coliform < 3 MPN, and contain no mold and yeast. Storage of 3 months increased water content, pH, and TPC, and contrarily decreased sugar content, vitamin C total soluble solids. Based on the quality characteristics, soursop powder that , and was stored for 3 months still met the SNI 01-4320-1996 requirements.ABSTRAK Penelitian pemanfaatan teknik ko-kristalisasi untuk produksi serbuk ekstrak sirsak dilakukan untuk diversifikasi produk olahan buah sirsak yang dapat dijadikan komoditas industri. Perlakuan yang diamati meliputi pengaruh: (1) penggunaan jenis anti-kempal magnesium oksida (MO), magnesium karbonat (MC), dan magnesium silikat (MS) dan (2) masa simpan (0, 1, 2, dan 3 bulan) terhadap karakteristik mutu serbuk sirsak. Hasil penelitian menunjuk-kan bahwa teknik ko-kristalisasi dapat dimanfaatkan untuk menghasilkan serbuk sirsak yang memenuhi persyaratan mutu SNI 01-4320-1996. Berdasarkan karakteristik mutunya, serbuk sirsak MC memberikan hasil yang lebih baik dibandingkan dengan serbuk sirsak MS dan serbuk sirsak MO. Serbuk sirsak MC memiliki karakteristik mutu: kadar air 1,89%, pH 4,17, kadar gula 83,75%, Vitamin C 42,7 mg/100g, total padatan terlarut 98,1%, ALT 55 koloni/g, koliform < 3 APM, dan tidak mengandung kapang dan khamir. Penyimpanan serbuk sirsak sampai dengan 3 bulan mengakibatkan terjadinya peningkatan kadar air, pH, dan ALT, dan sebaliknya mengakibatkan penurunan kadar gula, vitamin C dan total padatan terlarut. Berdasarkan karakteristik mutunya, serbuk sirsak yang disimpan selama 3 bulan tetap memenuhi persyaratan mutu SNI 01-4320-1996.</p
Pemanfaatan Teknik Ko-Kristalisasi Untuk Produksi Serbuk Ekstrak Sirsak
Research on application of co-crystallization technique on production of soursop extract powder conducted to diversify soursop product that could be used as industrial commodity. Treatment on this research was influence of: (1) anti-caking magnesium oxide (MO), magnesium carbonate (MC), and magnesium silicate (MS), and (2) storage period (0, 1, 2, and 3 months), on the characteristics of soursop powder quality. The results showed co-crystallization could be applied to produce soursop powder that met the requirements of SNI 01-4320-1996. Based on its quality characteristics, soursop powder oursop powder MC resulted a better quality compared to s MO and s MS. MC had a quality characteristics: oursop powder Soursop powder water content 1.89%, pH 4.17, sugar content 83.75%, vitamin C 42.7 total soluble solids 98.1%, TPC mg/100g, 55 colonies/g, soursop powder until coliform < 3 MPN, and contain no mold and yeast. Storage of 3 months increased water content, pH, and TPC, and contrarily decreased sugar content, vitamin C total soluble solids. Based on the quality characteristics, soursop powder that , and was stored for 3 months still met the SNI 01-4320-1996 requirements.ABSTRAK Penelitian pemanfaatan teknik ko-kristalisasi untuk produksi serbuk ekstrak sirsak dilakukan untuk diversifikasi produk olahan buah sirsak yang dapat dijadikan komoditas industri. Perlakuan yang diamati meliputi pengaruh: (1) penggunaan jenis anti-kempal magnesium oksida (MO), magnesium karbonat (MC), dan magnesium silikat (MS) dan (2) masa simpan (0, 1, 2, dan 3 bulan) terhadap karakteristik mutu serbuk sirsak. Hasil penelitian menunjuk-kan bahwa teknik ko-kristalisasi dapat dimanfaatkan untuk menghasilkan serbuk sirsak yang memenuhi persyaratan mutu SNI 01-4320-1996. Berdasarkan karakteristik mutunya, serbuk sirsak MC memberikan hasil yang lebih baik dibandingkan dengan serbuk sirsak MS dan serbuk sirsak MO. Serbuk sirsak MC memiliki karakteristik mutu: kadar air 1,89%, pH 4,17, kadar gula 83,75%, Vitamin C 42,7 mg/100g, total padatan terlarut 98,1%, ALT 55 koloni/g, koliform < 3 APM, dan tidak mengandung kapang dan khamir. Penyimpanan serbuk sirsak sampai dengan 3 bulan mengakibatkan terjadinya peningkatan kadar air, pH, dan ALT, dan sebaliknya mengakibatkan penurunan kadar gula, vitamin C dan total padatan terlarut. Berdasarkan karakteristik mutunya, serbuk sirsak yang disimpan selama 3 bulan tetap memenuhi persyaratan mutu SNI 01-4320-1996
An Experimental Study on Synthetic Gas (Syngas) Production through Gasification of Indonesian Biomass Pellet
AbstractThe research was purposed to produce environmentally friendly biomass pellets as syngas fuel. The produced pellets dimension is 18mm to 25mm (length) and 4.5mm (diameter). The best pellets made from single material is palm shell pellets with gasification time of 85min · kg–1 biomass. The best pellets made from material mix is sugarcane bagasse and palm shell pellets, with similar gasification time. The palm shell pellets met the standard except for ash content. Pellets made from mixed material have less caloric value. Emissions test on gasification process has passed the emissions quality standard
Karakterisasi Mutu dan Nilai Gizi Nasi Mocaf dari Beras Analog - (Characterization of Quality and Nutrition Value of Cooked Rice Mocaf from Rice Analog)
Dependence on rice consumption needs to be reduced to overcome the problems of rice supply and health problems. Alternative proposed is producing mocaf-based rice analog. This research aims to study the quality characterization and nutritional value of mocaf-based rice analog. Rice mocaf was made based on mixture of mocaf, rice flour, water and palm oil using variable: 50, 60 and 70% mocaf. Mocaf rice then cooked by using rice cooker, steamer or microwave. The results showed mocaf rice 60% yield highest calorific value. The best cooking method was steaming that resulted nutrient content and calorific value consisting of 49.15% water; 2.05% fat; 2.09% protein; 46.45% carbohydrate; 35.8 mg/kg of iron; 403.4 mg/kg of potassium; 193.8 mg/kg of calcium, 2.0 mg/kg of vitamin B1 and 212.53 ca/100 g calorific value.Keywords: mocaf, nutritional value, quality characterisation, rice ABSTRAKKetergantungan pada konsumsi beras perlu dikurangi untuk mengatasi permasalahan pasokan beras dan masalah kesehatan. Alternatif yang dapat diusulkan adalah dengan pembuatan beras analog berbasis mocaf. Penelitian ini bertujuan mempelajari karakterisasi mutu dan nilai gizi nasi mocaf dari beras analog. Beras mocaf dibuat berdasarkan campuran mocaf, tepung beras, air dan minyak goreng sawit, dengan komposisi mocaf 50, 60 dan 70%. Beras mocaf kemudian dimasak dengan cara menggunakan rice cooker, pengukusan atau microwave. Hasil penelitian menunjukkan beras mocaf 60% menghasilkan nasi mocaf dengan nilai kalori tertinggi. Pemasakan terbaik adalah dengan cara pengukusan dengan kandungan gizi dan nilai kalori yang dihasilkan terdiri dari 49,15% air; 2,05% lemak; 2,09% protein; 46,45% karbohidrat; 35,8 mg/kg besi; 403,4 mg/kg kalium; 193,8 mg/kg kalsium, 2,0 mg/kg vitamin B1 dan 212,53 kal/100 g nilai kalori.Kata kunci: beras, karakterisasi mutu, mocaf, nilai giz
Accelerated Shelf Life Testing of Jackfruit Extract Powder
Jackfruit is a potential tropical fruit as raw material for food industry. Jackfruit could be processed by co-crystallization technique to extend its shelf life and increase its value. This research was conducted to study and to determine the shelf life of jackfruit powder extract. Shelf life test is conducted using variety of treatments such as: anti-caking types and temperature storage. The results showed that the shelf life of the jackfruit extract powder using anti-caking of magnesium oxide (MO), magnesium carbonate (MC), dan magnesium silicate (MS), which is store in the temperature of 27°C, were: 8.06, 5.42, and 5.5 months respectively. The variation of anti-caking type was significantly affect the product shelf life. The effect of storage temperature on the product shelf life is more significant for the product using anti-caking MO compared with product using anti-caking MC and MS
