Erti Praputri, Elmi Sundari, F. Firdaus, S. Sofyan
{"title":"Penggunaan katalis homogen dan heterogen pada proses hidrolisis pati umbi singkong karet menjadi glukosa","authors":"Erti Praputri, Elmi Sundari, F. Firdaus, S. Sofyan","doi":"10.24960/jli.v8i2.4189.105-110","DOIUrl":null,"url":null,"abstract":"Singkong karet ( Manihot glaziovii Muell ) adalah salah satu sumber bahan baku bioetanol yang mempunyai kandungan pati yang cukup tinggi (98,5%). Penelitian ini bertujuan mempelajari kinerja katalis H 2 SO 4 , HCl, dan zeolit pada proses hidrolisis pati umbi singkong karet untuk menghasilkan glukosa. Proses hidrolisis untuk katalis homogen dilakukan pada temperatur 120 o C dan volume asam 250 ml, sedangkan untuk katalis heterogen dengan rasio massa pati dan aquades (1:25), waktu 60 menit, dan temperatur 120 o C. Perolehan glukosa untuk katalis homogen diamati melalui variasi konsentrasi HCl dan H 2 SO 4 masing-masing (0,1; 0,15; 0,2; 0,25; dan 0,3 N) dan waktu hidrolisis (45; 60; dan 75 menit). Untuk katalis heterogen, perolehan glukosa diamati melalui variasi massa zeolit (1; 3; dan 6 g), jenis asam pengaktif HCl dan H 2 SO 4 dengan konsentrasi0,15 N, dengan metode perendaman dan pemanasan pada temperature 50 o C. Hasil penelitian memperlihatkan konsentrasi dan waktu hidrolisis pati singkong karet berpengaruh terhadap perolehan glukosa pada penggunaan jenis katalis homogen (H 2 SO 4 dan HCl). Glukosa tertinggi (27,25%) diperoleh pada katalis homogen dengan konsentrasi H 2 SO 4 0,15 N dan waktu 60 menit. Zeolit yang diaktivasi dengan HCl dengan metode perendaman menghasilkan kadar glukosa lebih tinggi (14,13%) daripada zeolit yang diaktifkan dengan H 2 SO 4 (12,58%). Abstract Rubber cassava (Manihot glaziovii Muell) is one source of bioethanol raw material which has high starch content (98.5%). The manufacture of bioethanol is carried out through the process of hydrolysis and fermentation. This research was aimed to study the performance of the homogeneous and heterogeneous catalysts in the hydrolysis process of starch from rubber cassava tubers to produce glucose. The hydrolysis process for homogeneous catalyst was carried out at a temperature 120 o C and 250 ml acid volume, while for heterogeneous catalyst was the ratio of starch mass and distilled water (1:25), 60 minutes time, and 120 o C temperature. The glucose obtained for heterogeneous catalyst was observed through variations of HCl and H 2 SO 4 concentrations (0.1; 0.15; 0.2; 0.25; and 0.3 N) and hydrolysis time (45; 60; and 75 minutes). For heterogeneous catalyst, the glucose obtained was observed through zeolite mass variations (1; 3; and 6 g), type of activating acid HCl and H 2 SO 4 with 0.15 N concentration by immersion and heating method at 50 o C. The results showed that the concentration and hydrolysis time of rubber cassava starch affected the glucose obtained in the use of homogeneous catalyst types (H 2 SO 4 and HCl). The highest glucose was obtained at 0.15 N acid concentrations and 60 minutes time. Zeolite which was activated with HCl with soaking method resulted in higher glucose levels (14.13%) than activated with H 2 SO 4 (12.58%).","PeriodicalId":31936,"journal":{"name":"JLI Jurnal Litbang Industri","volume":"18 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2018-12-28","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"JLI Jurnal Litbang Industri","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.24960/jli.v8i2.4189.105-110","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 1
Abstract
Singkong karet ( Manihot glaziovii Muell ) adalah salah satu sumber bahan baku bioetanol yang mempunyai kandungan pati yang cukup tinggi (98,5%). Penelitian ini bertujuan mempelajari kinerja katalis H 2 SO 4 , HCl, dan zeolit pada proses hidrolisis pati umbi singkong karet untuk menghasilkan glukosa. Proses hidrolisis untuk katalis homogen dilakukan pada temperatur 120 o C dan volume asam 250 ml, sedangkan untuk katalis heterogen dengan rasio massa pati dan aquades (1:25), waktu 60 menit, dan temperatur 120 o C. Perolehan glukosa untuk katalis homogen diamati melalui variasi konsentrasi HCl dan H 2 SO 4 masing-masing (0,1; 0,15; 0,2; 0,25; dan 0,3 N) dan waktu hidrolisis (45; 60; dan 75 menit). Untuk katalis heterogen, perolehan glukosa diamati melalui variasi massa zeolit (1; 3; dan 6 g), jenis asam pengaktif HCl dan H 2 SO 4 dengan konsentrasi0,15 N, dengan metode perendaman dan pemanasan pada temperature 50 o C. Hasil penelitian memperlihatkan konsentrasi dan waktu hidrolisis pati singkong karet berpengaruh terhadap perolehan glukosa pada penggunaan jenis katalis homogen (H 2 SO 4 dan HCl). Glukosa tertinggi (27,25%) diperoleh pada katalis homogen dengan konsentrasi H 2 SO 4 0,15 N dan waktu 60 menit. Zeolit yang diaktivasi dengan HCl dengan metode perendaman menghasilkan kadar glukosa lebih tinggi (14,13%) daripada zeolit yang diaktifkan dengan H 2 SO 4 (12,58%). Abstract Rubber cassava (Manihot glaziovii Muell) is one source of bioethanol raw material which has high starch content (98.5%). The manufacture of bioethanol is carried out through the process of hydrolysis and fermentation. This research was aimed to study the performance of the homogeneous and heterogeneous catalysts in the hydrolysis process of starch from rubber cassava tubers to produce glucose. The hydrolysis process for homogeneous catalyst was carried out at a temperature 120 o C and 250 ml acid volume, while for heterogeneous catalyst was the ratio of starch mass and distilled water (1:25), 60 minutes time, and 120 o C temperature. The glucose obtained for heterogeneous catalyst was observed through variations of HCl and H 2 SO 4 concentrations (0.1; 0.15; 0.2; 0.25; and 0.3 N) and hydrolysis time (45; 60; and 75 minutes). For heterogeneous catalyst, the glucose obtained was observed through zeolite mass variations (1; 3; and 6 g), type of activating acid HCl and H 2 SO 4 with 0.15 N concentration by immersion and heating method at 50 o C. The results showed that the concentration and hydrolysis time of rubber cassava starch affected the glucose obtained in the use of homogeneous catalyst types (H 2 SO 4 and HCl). The highest glucose was obtained at 0.15 N acid concentrations and 60 minutes time. Zeolite which was activated with HCl with soaking method resulted in higher glucose levels (14.13%) than activated with H 2 SO 4 (12.58%).
橡胶木薯(Manihot glaziovii Muell)是生物乙醇淀粉含量很高的原料来源之一。该研究的目的是研究橡胶木薯淀粉水解过程中H - 2 - 4、HCl和zeolit的催化作用。hidrolisis过程的催化剂的同质化120 o C温度和体积进行250 ml,至于酸催化剂异质的淀粉质量比例和aquades(1:25), 60分钟的时间,温度控制在120 o C .获得葡萄糖通过HCl)浓度的变化来观察催化剂的同质化和H 2所以每人4 (0.1;0,15;0.2;0;和0.3 N)和液压时间(45;60;75分钟。为了合成异质,葡萄糖的获取是通过zeolit的质量变化来观察的(1;3;6 g),酸牵引HCl)和H 2所以4 konsentrasi0,15 N, o和浸泡的方法以及变暖的温度50 C .研究结果显示橡胶木薯淀粉浓度和时间hidrolisis影响葡萄糖的习得使用类型的催化剂的同质化(H 2所以4和HCl))。葡萄糖的最高浓度(27.25%)是在一个浓度为H 2 SO 4。Zeolit的活性成分是HCl和浸泡方法,比h2 SO 4(12.58%)的Zeolit产生更多的葡萄糖水平(14.13%)。含碳量橡胶砂锅是目前高浓度的生物测定材料的一个来源。生物乙醇的制造和活性过程中留下了痕迹。这项研究允许研究从橡胶壳壳到葡萄糖生产的水生成过程中所产生的异质和异质加异化加异化过程。均质异化加水处理量为120 o C和250毫升乙酸,而异质加酸量为密度介质和稀释水的程度(1:25)、60分钟时间和120 C温度。对HCl和H 2 SO 4 concentrations (0.1;0。15;0。2;0。25;氢时间(45;60;(75分钟)对于异型catalyst,葡萄糖的结果是通过zeolite质量差观察(1;3;和6克),启动酸的HCl)和H型2所以4 0。15 N双臀:immersion和加热方法50点o C .《双臀和hydrolysis results那里那个时代的“橡胶木薯淀粉受到影响之境glucose获得用homogeneous加泰罗尼亚types (H 2所以4和HCl))。最重要的葡萄糖浓度是0。15酸浓度和60分钟时间。Zeolite哪种是激活with HCl) with soaking方法resulted in高glucose水平(13%)比14激活与12 H 2所以4(58%)。
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