通过综合利用印度大麻生物质和水牛粪便生产沼气,揭示可持续能源机会

Macdonald Tatenda Muronda, Obey Gotore
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摘要

成熟的印度蔗(Canna indica L.)含有大量半纤维素(21.6±0.22%)和木质素(20.14±0.13%),显示出其作为沼气源的巨大潜力。本研究探讨了利用从积水粘土地区采集的籼稻生物质生产沼气的潜力。研究重点是在为期 45 天的实验中,通过不同浓度的氧化钙(CaO)预处理,优化与猪粪的厌氧共消化过程。氧化钙预处理大大提高了沼气产量,其中 2% 氧化钙的沼气产量最高,达到 8024.10 mL。甲烷浓度分析表明,CaO 浓度越高(尤其是 2% 和 3%),甲烷产量越高,这表明最佳 CaO 浓度约为 2%,甲烷产量最高。这项研究在厌氧协同消化方面优于其他研究,甲烷浓度达到了 64.93%。以不同浓度的氧化钙为基质的籼稻数据强调了精确调节氧化钙浓度以获得最佳甲烷产量的必要性。这些发现为可持续废物管理和可再生能源生产开辟了道路,暗示了通过使用籼米藻和水牛粪便优化厌氧共同消化过程来解决能源问题的发展前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Revealing sustainable energy opportunities through the integrated use of Canna indica biomass and buffalo manure for biogas generation
Mature Canna indica L., contains significant percentages of hemicellulose (21.6±0.22%) and lignin (20.14±0.13%), showing its high potential as a biogas source. This study explores the potential of using C. indica biomass harvested from waterlogged clay areas for biogas production. The research focuses on optimizing the anaerobic co-digestion process with swine dung through varying calcium oxide (CaO) pretreatment concentrations during a 45-day experiment. CaO pretreatment significantly enhances biogas yield, with 2% CaO yielding the highest biogas production at 8024.10 mL. Methane concentration analysis reveals that higher CaO concentrations, notably 2% and 3%, accelerate methane production, indicating an optimal CaO concentration of around 2% for maximizing methane yield. This study outperforms others in anaerobic co-digestion, achieving a methane concentration of 64.93%. Data on C. indica at different CaO concentrations as a substrate underscores the need for precise CaO tuning for optimal methane production. The findings open avenues for sustainable waste management and renewable energy production, hinting at promising developments in energy solutions through optimized anaerobic co-digestion processes using C. indica and buffalo dung.
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