硫酸铋(III)复合物作用下牛粪产生甲烷

Q3 Engineering

Journal of Chemical Technology and Metallurgy Pub Date : 2024-05-07 DOI:10.59957/jctm.v59.i3.2024.17

Anelia I. Tzanova, Nikolay Kaloyanov, Kamelia Ruskova, A. Zahariev

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引用次数: 0

摘要

本研究探讨了在厌氧环境中，在少量氨基磺酸铋（III）络合物的存在下，牛粪的生物甲烷化过程。由于该络合物具有良好的抗菌活性，添加该络合物的目的是确定其对沼气和甲烷产生的影响。参考样品（仅牛粪）以及牛粪 + 10 毫克和牛粪 + 20 毫克铋复合物（成分为 [Bi6O4(OH)4](NH2SO3)6）的混合物在以下条件下进行生物降解：持续时间 33 天，氮气环境，温度 34.5 ± 1°C。在此过程中，每 2 - 3 天还要测量沼气的体积和沼气中甲烷的百分比含量。分析结果表明，直到第 10 天，沼气产生量一直在增加，对照样本和混合物的沼气产生量相当。此外，直到实验结束，与对照样本相比，混合物产生的沼气量都有显著的持续增长。从第 8 天到第 33 天，混合物释放的甲烷百分比明显高于参照样本。

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METHANE PRODUCTION FROM COW MANURE IN THE PRESENCE OF Bi(III) COMPLEX OF SULFAMIC ACID

The present study examines the process of biomethanization of cow manure in an anaerobic environment, in the presence of small amounts of Bi(III) complex of sulfamic acid. Since this complex has good antimicrobial activity, the purpose of adding the complex is to determine its effect on biogas and methane production. The reference samples (cow manure only) and mixtures of cow manure + 10 mg and cow manure + 20 mg of bismuth complex with a composition [Bi6O4(OH)4](NH2SO3)6 are subjected to biodegradation under the following conditions – duration of 33 days, nitrogen atmosphere and temperature of 34.5 ± 1°C. During the process, the volume of biogas and the percentage content of methane in biogas are measured in 2 - 3 days as well. The analyses performed reveal that until the 10th day, the amount of biogas produced increases constantly and is comparable both for the control samples and for the mixtures. Further, until the end of the experiment, a significant and constant increase in the volume of biogas produced by the mixtures is observed compared to the control samples.Regarding the percentage of methane produced by the reference samples and the mixtures, comparable relative amounts are found by the 7th day. From the 8th day to the 33rd day, the percentage of methane released by the mixtures is visibly greater than that by the reference samples.

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来源期刊

Journal of Chemical Technology and Metallurgy Engineering-Industrial and Manufacturing Engineering

CiteScore

1.40

自引率

0.00%

发文量