Uso de vinazas de mezcal para producir metano por co-digestión con estiércol de bovino

IF 0.5 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Biotecnia Pub Date : 2022-05-31 DOI:10.18633/biotecnia.v24i2.1501

Edwin Alfonso Zelaya-Benavidez, G. A. Martínez-Gutiérrez, Celerino Robles Pérez, Isidro Morales García

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Abstract

The best co-digestion ratio between mezcal vinasses and bovine manure was investigated to produce methane.Five vinasses and bovine manure mixtures in different proportionswere compared (v/v): 25-75, 50-50, 75-25, 100-0, and 0-100, with six replications. As reactors, 496 mL glasscontainers with hermetic seal were used, with 300 mL of active volume under mesophilic conditions (36 ± 1 oC) for 10 days. The pH, total solids, and volatile solids of vinasses,bovine manure, and their mixtures were determined in triplicate.The methane accumulated volume was greater with the 0-100 and 75-25, followed by the 100-0, with 286.23, 286.40, and 225.48 NmL CH4, respectively. Methane yield was higher with 100-0 and 75-25 with 28.27 and 22.77 NmL CH4 g-1volatile solids, respectively. The Gompertz bacterial growthmodel showed that the micro-organisms adaptation periodin vinasses was longer than in bovine manure. Co-digestionof vinasses and bovine manure in proportion 75-25 % improvedthe methane production by 26.7 % with respect to the digestion of vinasses alone, and reduced the adaptation timeof bacteria to vinasses by 4.12 days.

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利用梅斯卡尔酒糟与牛粪共消化产生甲烷

研究了梅斯卡尔葡萄与牛粪共消化产甲烷的最佳配比。比较了5种不同比例(v/v)的葡萄和牛粪混合物:25-75、50-50、75-25、100-0和0-100，共6个重复。反应器采用密封的496 mL玻璃容器，活性体积为300 mL，在中温条件下(36±1℃)持续10天。测定了葡萄、牛粪及其混合物的pH值、总固形物和挥发性固形物。0-100和75-25阶段甲烷累积体积最大，100-0阶段次之，分别为286.23、286.40和225.48 NmL CH4。CH4 g-1挥发性固体浓度为28.27和22.77 NmL时，100-0和75-25的甲烷产率较高。Gompertz细菌生长模型表明，葡萄中的微生物适应周期比牛粪中的长。与单独消化葡萄酸相比，以75 ~ 25%的比例共消化葡萄酸和牛粪可使甲烷产量提高26.7%，使细菌对葡萄酸的适应时间缩短4.12 d。

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来源期刊

Biotecnia BIOTECHNOLOGY & APPLIED MICROBIOLOGY-

自引率

33.30%

发文量