PENGARUH PRETREATMENT MAKROALGA ULVA RETICULATA MENGGUNAKAN MICROWAVE IRRADIATION UNTUK PRODUKSI BIOETANOL

S. M. Kolo, N. Obenu, M. Y. C. Tuas
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引用次数: 3

Abstract

The production of fossil fuels every year until now has decreased significantly. This is in line with the significant increase in energy consumption as a result of increasing population, economic growth, industrial and transportation activities. Alternative energy that can be used as a substitute for fossil fuels is the use of macroalgae Ulva reticulata into bioethanol. The lignocellulosic content of Ulva reticulata can be converted into ethanol through a pretreatment process and dilute acid hydrolysis using microwave irradiation, which is then followed by a fermentation and distillation process. Surface morphology of Ulva reticulata macroalgae samples were analyzed using Scanning Electron Microscopy (SEM). Reducing sugars were analyzed using the Dinitrosalicylate (DNS) method. Ethanol content was analyzed using Gas Chromatography-Flame Ionization Detector (GC-FID). The results showed that the pretreatment and hydrolysis of dilute acid using microwave irradiation reached the optimum hydraulic time and temperature of 50 minutes and 150, with a reducing sugar concentration of 27.97 g/L and a hydrolysis efficiency of 69.93%. The results of the analysis of the ethanol content of Ulva reticulata fermentation using GC was 7.76%. Bioethanol production from the macroalga Ulva reticulata is expected to be a potential new source of renewable energy because it is not used as food. The results of this study serve as a new source of information for the industry to increase the economic value of the macroalga Ulva reticulata. Keywords: bioethanol, fermentation, microwave irradiation, pretreatment, ulva reticulata.
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到目前为止,化石燃料的产量每年都在显著下降。这与人口增加、经济增长、工业和运输活动所造成的能源消耗的显著增加是一致的。可作为化石燃料替代品的替代能源是利用大型藻类Ulva reticulata制成生物乙醇。网状Ulva的木质纤维素含量可以通过预处理和微波辐照稀酸水解转化为乙醇,然后进行发酵和蒸馏。利用扫描电子显微镜(SEM)对网Ulva reticulata巨藻样品的表面形貌进行了分析。用二硝基水杨酸(DNS)法分析还原糖。采用气相色谱-火焰离子化检测器(GC-FID)分析乙醇含量。结果表明,微波辐照预处理和水解稀酸的最佳水力时间和温度分别为50 min和150 min,还原糖浓度为27.97 g/L,水解效率为69.93%。气相色谱法测定了网状木耳发酵过程中乙醇含量为7.76%。从大型藻类Ulva reticulata生产生物乙醇有望成为一种潜在的新可再生能源,因为它不被用作食物。本研究结果为提高网状巨藻的经济价值提供了新的信息来源。关键词:生物乙醇;发酵;微波辐照;
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