{"title":"小球藻异养培养中生物量和脂质产量最大化:技术经济评价。","authors":"Mohammad H Morowvat, Younes Ghasemi","doi":"10.2174/2212798410666180911100034","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>Nowadays, chlorophycean microalgae have attained a broad-spectrum attention as a potential candidate for biomass and bioenergy production. Despite their appreciated benefits, one of major problems is their low biomass and lipid productivity. Here we investigated the heterotrophic culture in shake flasks and stirred tank bioreactor to improve the lipid and biomass production in a naturally isolated strain of Chlorella vulgaris.</p><p><strong>Methods: </strong>A naturally isolated C. vulgaris strain was cultivated in BG-11 medium in shake flask and bioreactor. Its biochemical composition and growth kinetic parameters were investigated.</p><p><strong>Results: </strong>The biomass productivity was improved (3.68 fold) under heterotrophic culture compared to basal autotrophic culture condition in shake flask experiment. The total lipid content increased to 44% of total Dry Cell Weight (DCW) during heterotrophic growth after 21 days. Moreover, a great Fatty Acid Methyl Esters (FAME) yield was observed under heterotrophic cultivation. Total biomass and lipid content of microalgae in bioreactor experiment increased to 4.95 and 2.18 g L-1 respectively, during 5 days of the experiment compared to its basic autotrophic culture.</p><p><strong>Conclusion: </strong>The techno-economic aspects of exploiting C. vulgaris as a biodiesel feedstock werealso evaluated. The results imply that heterotrophic cultivation could compensate the low biomass productivity in microalgae for green energy production. Ever growing rates of established patents on application of various genetic and bioengineering-based methods have made it possible to achieve higher lipid contents with reduced total costs for microalgal biodiesel production as well.</p>","PeriodicalId":21061,"journal":{"name":"Recent patents on food, nutrition & agriculture","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2019-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.2174/2212798410666180911100034","citationCount":"9","resultStr":"{\"title\":\"Maximizing Biomass and Lipid Production in Heterotrophic Culture of Chlorella vulgaris: Techno-Economic Assessment.\",\"authors\":\"Mohammad H Morowvat, Younes Ghasemi\",\"doi\":\"10.2174/2212798410666180911100034\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>Nowadays, chlorophycean microalgae have attained a broad-spectrum attention as a potential candidate for biomass and bioenergy production. 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Total biomass and lipid content of microalgae in bioreactor experiment increased to 4.95 and 2.18 g L-1 respectively, during 5 days of the experiment compared to its basic autotrophic culture.</p><p><strong>Conclusion: </strong>The techno-economic aspects of exploiting C. vulgaris as a biodiesel feedstock werealso evaluated. The results imply that heterotrophic cultivation could compensate the low biomass productivity in microalgae for green energy production. 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引用次数: 9
摘要
背景:目前,绿藻微藻作为一种潜在的生物质和生物能源生产的候选者受到了广泛的关注。尽管它们有很大的好处,但主要问题之一是它们的生物量和脂质产量低。本文研究了一株天然分离的小球藻在摇瓶和搅拌槽生物反应器中的异养培养,以提高其脂质和生物量的产量。方法:在摇瓶和生物反应器中培养一株天然分离的普通葡萄球菌。对其生化组成和生长动力学参数进行了研究。结果:在摇瓶试验中,异养培养比自养培养提高了3.68倍。异养生长21天后,总脂含量增加到总干细胞重(DCW)的44%。此外,在异养培养下,脂肪酸甲酯(FAME)的产量也很高。在生物反应器实验中,微藻的总生物量和脂质含量在5 d内分别比其基本自养培养增加到4.95和2.18 g L-1。结论:从技术经济角度评价了利用淫羊藿作为生物柴油原料的可行性。结果表明,异养培养可以弥补微藻生物量生产力低的问题,以生产绿色能源。各种基于遗传和生物工程的方法的应用专利不断增长,使得微藻生物柴油生产在降低总成本的同时获得更高的脂质含量成为可能。
Maximizing Biomass and Lipid Production in Heterotrophic Culture of Chlorella vulgaris: Techno-Economic Assessment.
Background: Nowadays, chlorophycean microalgae have attained a broad-spectrum attention as a potential candidate for biomass and bioenergy production. Despite their appreciated benefits, one of major problems is their low biomass and lipid productivity. Here we investigated the heterotrophic culture in shake flasks and stirred tank bioreactor to improve the lipid and biomass production in a naturally isolated strain of Chlorella vulgaris.
Methods: A naturally isolated C. vulgaris strain was cultivated in BG-11 medium in shake flask and bioreactor. Its biochemical composition and growth kinetic parameters were investigated.
Results: The biomass productivity was improved (3.68 fold) under heterotrophic culture compared to basal autotrophic culture condition in shake flask experiment. The total lipid content increased to 44% of total Dry Cell Weight (DCW) during heterotrophic growth after 21 days. Moreover, a great Fatty Acid Methyl Esters (FAME) yield was observed under heterotrophic cultivation. Total biomass and lipid content of microalgae in bioreactor experiment increased to 4.95 and 2.18 g L-1 respectively, during 5 days of the experiment compared to its basic autotrophic culture.
Conclusion: The techno-economic aspects of exploiting C. vulgaris as a biodiesel feedstock werealso evaluated. The results imply that heterotrophic cultivation could compensate the low biomass productivity in microalgae for green energy production. Ever growing rates of established patents on application of various genetic and bioengineering-based methods have made it possible to achieve higher lipid contents with reduced total costs for microalgal biodiesel production as well.