氮浓度对棉铃虫生物量、脂质和生物柴油生产潜力的影响

A. Salisu, B. Umar, J. Appah, V. Aina, Yahuza Tanimu, U. Yahaya
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摘要

国际上对包括化石燃料在内的不可再生能源供应的依赖导致了该行业的电力不安全。这使得全世界都有必要减少对化石燃料的依赖,并扩大经济上可行和可扩展的替代燃料供应,这样它将额外减少周围环境中大量二氧化碳的排放,从而减少环境污染。生物燃料有可能为化石燃料提供一个可行的机会,并且可以减少二氧化碳的总排放量。藻类似乎是生物柴油中不断增加的生物质供应,完全有能力取代化石燃料。与普通柴油相比,生物柴油因其绿色、无毒、可生物降解和减少净碳循环等特点,近年来引起了人们的广泛关注。在这项研究中,从卡杜纳河的一条支流图布河收集了Spirogyra sp.,作为生物柴油生产的生物质原料来源。在25-28°C环境温度下,在Bold基础培养基(BBM)中培养不同浓度的氮(2.94 × 103(100%)、2.20 × 103(75%)、1.47 × 103(50%)、0.73 × 104(25%)和0.000(0%)),培养21天。以正己烷为溶剂,在索氏萃取器中提取螺旋体油,通过酯交换反应转化为生物柴油。75% (2.20 × 103)浓度处理下,螺旋体生物量增长、油脂含量和生物柴油产量最高。
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Effects Of Nitrogen Concentrations On The Biomass, Lipid And Biodiesel Production Potentials Of Spirogyra Specie
The international dependence on non-renewable power supply including fossil fuels has led the sector toward power insecurity. This has necessitated the worldwide attempt to reduce the dependence on  fossil fuels and broaden an economically feasible and scalable alternative  fuel supply so that it will  additionally lessen huge emissions of CO2 within side the  surroundings which in flip will result in  discount environmental pollution. Biofuels have the  potentials to offer a feasible opportunity to fossil  fuels and can lessen overall CO2 emissions.  Algae appear like a rising supply of biomass for biodiesel  that has the capacity to absolutely  displace fossil fuel. Biodiesel has gain sufficient interest in latest years  because of its green  nature, non-poisonous characteristics, biodegradability and decrease net  carbon cycle as  compared to standard diesel fuel. In this research, Spirogyra sp. was collected from Tubu  river, a tributary of River Kaduna, as a source of biomass feedstock for biodiesel production.  Spirogyra  sp. turned into cultured in various nitrogen (2.94 x 103 (100%), 2.20 x 103 (75%),  1.47 x 103 (50%), 0.73 x  104 (25%), and 0.000 (0%)) concentrations in Bold’s Basal Media (BBM) in a laboratory test for 21 days at  25-28°C ambient temperature. Oil from Spirogyra  sp. become extracted in soxhlet extractor using  n-hexane as solvent and transformed into  biodiesel through transesterification reaction. The highest biomass growth, oil, lipid content and biodiesel production were observed in treatment with 75% (2.20 x 103) Spirogyra sp. has a big capability for biodiesel production.
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