Harnessing the Energy Potential and Value-Added Products from the Treatment of Sugarcane Vinasse: Maximizing Methane Production Through Co-Digestion with Sugarcane Molasses and Enhanced Organic Loading.

IF 3.1 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Applied Biochemistry and Biotechnology Pub Date : 2024-09-28 DOI:10.1007/s12010-024-05078-z
Alexandre Rodrigues Ribeiro, Kauanna Uyara Devens, Franciele Pereira Camargo, Isabel Kimiko Sakamoto, Maria Bernadete Amâncio Varesche, Edson Luiz Silva
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Abstract

This study assessed the impact of organic loading rate (OLR) on methane (CH4) production in the anaerobic co-digestion (AcoD) of sugarcane vinasse and molasses (SVM) (1:1 ratio) within a thermophilic fluidized bed reactor (AFBR). The OLR ranged from 5 to 27.5 kg COD.m-3.d-1, with a fixed hydraulic retention time (HRT) of 24 h. Organic matter removal varied from 56 to 84%, peaking at an OLR of 5 kg COD.m-3.d-1. Maximum CH4 yield (MY) (272.6 mL CH4.g-1CODrem) occurred at an OLR of 7.5 kg COD.m-3.d-1, while the highest CH4 production rate (MPR) (4.0 L CH4.L-1.d-1) and energy potential (E.P.) (250.5 kJ.d-1) were observed at an OLR of 20 kg COD.m-3.d-1. The AFBR exhibited stability across all OLR. At 22.5 kg COD.m-3.d-1, a decrease in MY indicated methanogenesis imbalance and inhibitory organic compound accumulation. OLR influenced microbial populations, with Firmicutes and Thermotogota constituting 43.9% at 7.5 kg COD.m-3.d-1, and Firmicutes dominating (52.7%) at 27.5 kg COD.m-3.d-1. Methanosarcina (38.9%) and hydrogenotrophic Methanothermobacter (37.6%) were the prevalent archaea at 7.5 kg COD.m-3.d-1 and 27.5 kg COD.m-3.d-1, respectively. Therefore, this study demonstrates that the organic loading rate significantly influences the efficiency of methane production and the stability of microbial communities during the anaerobic co-digestion of sugarcane vinasse and molasses, indicating that optimized conditions can maximize energy yield and maintain methanogenic balance.

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利用甘蔗渣处理的能源潜力和增值产品:通过与甘蔗渣共同消化和增强有机负荷,最大限度地提高甲烷产量。
本研究评估了在嗜热流化床反应器(AFBR)中厌氧协同消化(AcoD)甘蔗渣和糖蜜(SVM)(1:1 比例)过程中有机负荷率(OLR)对甲烷(CH4)产量的影响。有机物去除率从 56% 到 84% 不等,在 OLR 为 5 kg COD.m-3.d-1 时达到峰值。最大甲烷产量(MY)(272.6 mL CH4.g-1CODrem)出现在 7.5 kg COD.m-3.d-1 的 OLR 时,而最高甲烷生产率(MPR)(4.0 L CH4.L-1.d-1)和能势(E.P.)(250.5 kJ.d-1)出现在 20 kg COD.m-3.d-1 的 OLR 时。在所有 OLR 条件下,AFBR 都表现出稳定性。当 OLR 为 22.5 kg COD.m-3.d-1 时,MY 下降,表明甲烷生成失衡,有机化合物积累受到抑制。OLR 会影响微生物种群,在 7.5 kg COD.m-3.d-1 时,固相菌和热菌占 43.9%;在 27.5 kg COD.m-3.d-1 时,固相菌占主导地位(52.7%)。在 7.5 千克 COD.m-3.d-1 和 27.5 千克 COD.m-3.d-1 条件下,甲烷杆菌(38.9%)和富氢甲烷杆菌(37.6%)是最常见的古细菌。因此,本研究表明,有机物负荷率会显著影响甘蔗渣和糖蜜厌氧协同消化过程中甲烷的生产效率和微生物群落的稳定性,表明优化条件可最大限度地提高能量产量并保持产甲烷平衡。
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来源期刊
Applied Biochemistry and Biotechnology
Applied Biochemistry and Biotechnology 工程技术-生化与分子生物学
CiteScore
5.70
自引率
6.70%
发文量
460
审稿时长
5.3 months
期刊介绍: This journal is devoted to publishing the highest quality innovative papers in the fields of biochemistry and biotechnology. The typical focus of the journal is to report applications of novel scientific and technological breakthroughs, as well as technological subjects that are still in the proof-of-concept stage. Applied Biochemistry and Biotechnology provides a forum for case studies and practical concepts of biotechnology, utilization, including controls, statistical data analysis, problem descriptions unique to a particular application, and bioprocess economic analyses. The journal publishes reviews deemed of interest to readers, as well as book reviews, meeting and symposia notices, and news items relating to biotechnology in both the industrial and academic communities. In addition, Applied Biochemistry and Biotechnology often publishes lists of patents and publications of special interest to readers.
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