研究了不同参数对小球藻微藻细胞密度、生物量、脂质和生物柴油产量的影响

Pub Date : 2022-11-29 DOI:10.18054/pb.v124i1-2.20661
Abolfazl Niazkhani, A. Mohammadi, H. Mashhadi, Fahimeh Mahmoudnia
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引用次数: 1

摘要

背景和目的:微藻目前被认为是自然界中生产生物柴油的第三代技术。小球藻是商业用途最广泛的微藻之一。它是从藻类中生产生物柴油的最佳选择之一,因为它的丰富性和种植灵活性。用于藻类生产的系统面临着高昂的费用。降低成本的一种方法是获得培养基的各种参数的最佳值,以实现藻类的最大生长。材料和方法:因此,本研究考察了盐度、温度、光照强度、光照时间和酸度等参数对细胞密度、生物量、脂质和生物柴油生产的影响。结果:在26°C、光照强度为3500lux、光照时间为17h、盐度为5ppm、pH为7.5的条件下,小球藻的细胞密度最高。生物量的最高产量是在3000勒克斯的光照强度、14小时的光照时间、5ppm的盐度和9的pH下。在26°C、光照强度为4200勒克斯、光照时间为18小时、盐度为11ppm和pH为8时观察到最高的脂质生成。在26°C、光照强度为4200勒克斯、光照时间为18小时、盐度为11ppm和pH为8的条件下,生物柴油产量最高。结论:这些类型的藻类能够抵御环境和非生物胁迫,表现出较高的标本能力和对重组形状的抗性。
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An investigation amount of cell density, biomass, lipid and biodiesel production in Chlorella vulgaris microalgae under effect of different parameters
Background and purpose: Nowadays, microalgae are considered as the third-generation technology for the production of biodiesels in nature. Chlorella vulgaris is one of the most widely used microalgae for commercial purposes. It is one of the best options for producing biodiesel from algae because of its abundance and flexibility in cultivation. The systems applied for the production of algae are facing high expenses. One way to decrease the cost is to obtain the optimal values for the various parameters of the culture medium for maximum growth in algae.Materials and methods: Therefore, in this study, the effect of parameters such as salinity, temperature, light intensity, light exposure time and acidity on cell density, biomass, lipid and biodiesel production was investigated.Results: As a result, the highest cell density of Chlorella vulgaris was observed at 26 °C, light intensity of 3500 lux, light exposure of 17 hours, salinity of 5 ppm and pH of 7.5. The highest production of biomass was at light intensity of 3000 lux, light exposure time of 14 hours, salinity of 5 ppm and pH of 9. The highest lipid production was observed at 26 °C, lightintensity of 4200 lux, light exposure time of 18 hours, salinity of 11 ppm and pH of 8. The highest biodiesel production was observed at 26 °C, light intensity of 4200 lux, light exposure time of 18 hours, salinity of 11 ppm and pH of 8.Conclusions: These types of algae, which maintain themselves against environmental and non-biological stresses, show high specimen ability and resistance to recombinant shapes.
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