Research of the Influence of the Combined Electromagnetic Field on Biogas Output

IF 0.3 Q4 ENERGY & FUELS Problemele Energeticii Regionale Pub Date : 2023-05-01 DOI:10.52254/1857-0070.2023.2-58-08
M. Zablodskiy, P. Klendiy, O. Dudar, I. Radko
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Abstract

The purpose of research is determining the conditions of stimulating effect of the combined influence of constant and variable electromagnetic fields on the substrate and microorganisms in the bioreactor. This goal is achieved by solving the following tasks: development of mathematical model, conducting numerical simulation to determine the distribution of magnetic field in active zones of the stator-bioreactor system; conducting experimental researches during the fermentation of pig’s manure with litter from wheat straw in the mesophilic mode of fermentation. One category of bioreactors (control samples) was not exposed to influence of magnetic field, for the other, periodically were made treatment simultaneously with a low-frequency electromagnetic field and constant magnetic field synchronously with the process of mixing the substrate. The most significant results are: an experimental proof of effectiveness of the proposed method of intensification of the biogas output and increasing its quality, high accuracy of mathematical model of distribution the magnetic field in active zones of the stator-bioreactor system; assessment of the levels of consumption of nutrients by microorganisms from the substrate under the influence of the combined magnetic field and without influence of the magnetic field. The significance of obtained results lies in the fact that the proposed approach to intensification of the biogas output provides increase of the level production, the quality of biogas, and cumulative rate of methane output per unit of organic mass in the reactor.
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联合电磁场对沼气产量影响的研究
研究的目的是确定恒定和可变电磁场对生物反应器中的底物和微生物的联合影响的刺激作用条件。这一目标是通过解决以下任务来实现的:建立数学模型,进行数值模拟以确定定子生物反应器系统活性区的磁场分布;以小麦秸秆为原料,采用中温发酵法对猪粪进行发酵试验研究。一类生物反应器(对照样品)不受磁场的影响,另一类则在混合基质的过程中,周期性地同时用低频电磁场和恒定磁场进行处理。最重要的结果是:实验证明了所提出的提高沼气产量和质量的方法的有效性,定子生物反应器系统活性区磁场分布的数学模型的准确性高;在组合磁场的影响下和不受磁场影响的情况下,微生物从基质中消耗营养物质的水平的评估。所获得的结果的意义在于,所提出的提高沼气产量的方法提高了生产水平、沼气质量和反应器中每单位有机质甲烷产量的累积速率。
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CiteScore
0.70
自引率
33.30%
发文量
38
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