Penapisan, isolasi, dan karakterisasi mikroalga yang berpotensi sebagai sumber biodiesel dari perairan Danau Kerinci, Jambi

JLI Jurnal Litbang Industri Pub Date : 2019-06-28 DOI:10.24960/JLI.V9I1.4326.41-49

Riska Hernandi, Abdi Dharma, Armaini Armaini

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引用次数: 3

Abstract

Mikroalga menjadi sumber minyak nabati yang berpotensi sebagai bahan baku pembuatan biodiesel dengan kandungan lipid 30-70% dari berat biomassa kering dan komposisi asam lemak yang lengkap. Penelitian ini bertujuan untuk mempelajari keragaman spesies mikroalga dari perairan Danau Kerinci di Jambi, menganalisis kandungan lipid dan asam lemak isolat mikroalga. Mikroalga diisolasi dengan kombinasi teknik goresan, pengenceran berseri, dan mikropipet. Penentuan tingkat pertumbuhan dengan spektrofotometer UV-Vis. Penentuan berat biomassa kering secara gravimetri. Analisis kualitatif lipid dengan uji nile red menggunakan mikroskop flourescence . Analisis kuantitatif lipid dengan ekstraksi menggunakan n-heksana. Analisis kandungan asam lemak dengan alat GC-MS. Terdapat 19 spesies mikroalga yang diidentifikasi dan 2 spesies berhasil ditapis dengan stres salinitas, yaitu MA1 ( Scenedesmus rubescens ) dan MA2 ( Galdieria sulphuraria ). MAI dan MA2 memiliki kandungan lipid yang lebih tinggi pada pupuk Growmore dibandingkan pada medium Bold’s Basal . MA1 memiliki kandungan lipid 31,95% pada medium Bold’s Basal dan 32,4% pada pupuk Growmore . MA2 memiliki kandungan lipid 28,72% pada medium Bold’s Basal dan 28,93% pada pupuk Growmore . Mikroalga MA1 dan MA2 dapat dijadikan sumber biodiesel dengan kandungan lipid dan asam lemak jenuh (C16:0, C18:0) yang tinggi. ABSTRACT Microalgae has been considered recently as a promising biomass feedstock with great potential for biodiesel production with 30-70% lipid content of the dry biomass weight and produces high fatty acid. This research investigated the diversity of microalgae species from waters of Lake Kerinci in Jambi and analysis of the lipid content and fatty acid of microalgae. The isolation was done by agar plate, serial dilution, and micropipette method. The growth rate of the isolated microalgae was determined by UV-Vis spectrophotometer. Dry biomass weight was determined gravimetrically. Nile red staining performed on the isolates to observe the potential of lipid content. Lipids were extracted using n-hexane. Fatty acid analysis by GC-MS. From the results of identification, there were 19 species of microalgae and 2 species were screened with salinity stress. Based on identification of the both isolates, it is known that MA1 isolate is Scenedesmus rubescens and MA2 is Galdieria sulphuraria. MAI and MA2 had higher lipid content in Growmore agrolyzer than Bold’s Basal medium. MA1 had lipid content 31.95% in Bold’s Basal medium and 32.4% in Growmore agrolyzer, MA2 had lipid content 28.72% in Bold’s Basal medium and 28.93 % in Growmore agrolyzer. MA1 and MA2 was a potential as a biodiesel source with high lipid content and saturated fatty acids (C16:0, C18:0).

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皮尔逊、隔离和潜在的微藻特性是Kerinci lake Jambi的生物柴油来源

微藻是一种潜在的生物柴油燃料来源，其脂含量为干生物量的30%和完整脂肪酸成分。该研究的目标是研究Jambi Kerinci lake water的微藻种类多样性，分析微藻类的脂质和分离酸。微藻是由划痕、系列放松和微管技术混合而成的。用UV-Vis光谱仪确定增长率。重力测定干生物质量。用flourescence显微镜对红外试验中的脂质分析。定量脂分析采用n-heksana提取。GC-MS设备对脂肪酸进行分析。已鉴定出19种微藻，其中2种已被盐碱化，即MA1 (Scenedesmus rubescens)和MA2 (sulphuraria画廊)。麦和马二兄弟在Growmore化肥中所含的脂质比Bold玄武岩中所含的脂质还要高。MA1的腰椎中有395%的脂肪，Growmore肥料中有32.4%的脂肪。MA2的脂肪含量是2872%，Bold玄武岩中283%，Growmore肥料中283%。微藻MA2和MA2可作为高脂和饱和脂肪酸的生物柴油来源(C16:0, C18:0)。微藻被认为是一种潜在的生物燃料生产，对生物柴油生产有30%到70%的粘性。这项研究研究的微algae特种物来自Jambi的Kerinci Lake的分支，并分析了纳米algae的上皮和脂肪酸。孤立是通过车牌、舷窗和微皮质方法完成的。自隔离微生物的增长速度是由UV-Vis光谱仪决定的。干洗重量是重力确定的。尼尔红不锈钢在孤立中表现出来，观察了潜在的粘性。Lipids正在使用n-hexane。GC-MS的Fatty acid分析。从鉴定结果来看，有19个微生物被发现，2个物种被盐碱化。根据对两种异体的识别，我们知道一种分离体是scenecrisis rubescens和MA2是sulphuraria的露天看台。MAI和MA2拥有高强度的脂肪酶，比Bold的玄武岩中更强。MA1有粘性脂肪酸31. Bold玄武岩中95%的介质和32.4%的介质在Growmore agrolyzer中，MA2有粘性脂肪酸28.72%在Bold玄武岩中，28.93 %在Growmore agrolyzer中。MA1和MA2是一种潜在的美国生物柴油资源，上皮和均匀的脂肪acids (C16:0, C18:0)。

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JLI Jurnal Litbang Industri

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16 weeks