植物基沼气生产基质的组成评价

U. Nicholas, Nwachukwu, Augusta Añuli, Ogbulie Tochukwu Ekwutosi, Anyalogbu Ernest Anayochukwu
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引用次数: 2

摘要

作为农业废弃物,每年产生大量的植物生物量。木质纤维素是植物的主要结构成分,是地球上可再生有机物的主要来源。本研究旨在评估一些植物基沼气生产基质的木质纤维素组成、近似和选定的物理化学特性。底物为:玉米芯、稻草和水葫芦。收集,切割,在32℃下干燥72小时,研磨,并使用标准的Sox萃取法进行半纤维素,木质素和纤维素成分分析。采用标准方法进行近似分析和理化分析。结果表明,玉米秸秆纤维素含量最高(42.0%),浸出物含量最低(2.18%)。秸秆碳水化合物(24.22%)和灰分(24.40%)含量最高,玉米芯脂肪含量最低,为0.65%。理化分析结果表明,水稻秸秆的TS(94.55%)和磷(928.57mg/kg)含量最高,玉米芯的TVS含量最高;Jabb, 24(3): 1-6, 2021;文章no.JABB。67948 2(85.53%)和有机碳(50.46%),水葫芦氮含量最高(2.33%)。它们是良好的能源生产基质,木质纤维素生物质具有巨大的潜力,可以满足现代世界当前的能源需求。了解生物质的木质纤维素成分将有助于选择适当的预处理措施,以实现更好的水解,从而转化为更高的沼气产量。
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Compositional Assessment of Selected Plant-based Substrates for Biogas Production
Enormous quantities of plant biomass are generated annually, as agricultural wastes. Lignocellulose is the main structural constituent of plants and represents the primary source of renewable organic matter on earth. This study was carried out to evaluate the lignocellulose composition, proximate and selected physicochemical characteristics of some selected plant-based substrates for biogas production. The substrates were: Corn cobs, Rice straw and Water hyacinth (Eichhorniacrassipes). They were collected, cut, dried for 72 hours at 32C, milled and subjected to hemicellulose, lignin and cellulose compositional analyses, using the standard Sox let extraction method. Standard methods were employed for proximate and physicochemical analyses. Results of the compositional evaluation showed that corn cob has the highest percentages of cellulose (42.0%), while extractives content was least (2.18%) in Rice straw. For the proximate analysis, the percentage carbohydrates (24.22) and ash (24.40) were highest in rice straw, while fat content had the least values of 0.65% recorded in corn cobs. The results of the physicochemical analysis showed that Rice straw had the highest values of TS (94.55%) and phosphorus (928.57mg/kg), Corn cob had the highest TVS Original Research Article Ugwu et al.; JABB, 24(3): 1-6, 2021; Article no.JABB.67948 2 (85.53%) and organic carbon (50.46%) while Water hyacinth recorded the highest Nitrogen content (2.33%). They are good substrates for energy generation, and lignocellulosic biomass holds a huge potential to meet the current energy demand of the modern world. The knowledge of the lignocellulosic composition of the biomass would help in choosing appropriate pretreatment measures to achieve better hydrolysis which would translate to higher biogas yield.
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