牛粪厌氧消化高效产甲烷的优化方法

Challenges Pub Date : 2022-10-22 DOI:10.3390/challe13020053
Kechrist Obileke, G. Makaka, N. Nwokolo
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引用次数: 1

摘要

为了解决基于预测模型的甲烷产量决策过程的全球挑战,本研究旨在评估沼气池在不同运行条件下的性能,以达到优化目的。其中一种方法就是应用约束线性最小二乘优化。这已被用来优化输入参数与相应的测量期望响应。利用所有预测因子的430个实测数据集点,在18天的监测周期(间隔30 min)中建立了优化模型。结果表明,优化模型与一般模型的沼气池产甲烷产量差异小于4%。因此,模型之间的决定系数(R2)表明,模型的性能具有较强的有效性,沼气池产甲烷量的优化产量为0.968。所建立的优化模型的确定系数表明,模型值与甲烷实测值拟合良好,可用于验证。因此,从测试数据集来看,优化和模拟的甲烷体积为28%。在该场景下,在各种运行参数下,优化工艺的最大甲烷产生量与实际沼气池最大甲烷产生量(54.5%)相比,甲烷产生量增加了26.5%。有趣的是,沼气池产生的最大甲烷产量为0.24 m3,甲烷成分为60%。显然,模型中甲烷产量受到温度和其他气象因素的影响,因此,为了实现可持续的沼气生产,应广泛考虑这些因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficient Methane Production from Anaerobic Digestion of Cow Dung: An Optimization Approach
In the context of addressing the global challenge of facilitating a decision-making process based on methane production using a predictive model, the study seeks to evaluate the performance of a biogas digester in varying operating conditions for optimization purposes. One of the techniques for doing this is the application of constrained linear least-square optimization. This has been employed to optimize the input parameter with the corresponding measured desired response. The developed model was built from 430 measured data set points of all the predictors over an 18-day monitoring period with an interval of 30 min. The result showed that the difference between the optimized model and the general model output for methane production in the biogas digester was less than 4%. Hence, the performance of the model demonstrated a strong validity as the determination coefficient (R2) between the modeled, and optimized output was 0.968 for the volume of methane produced in the biogas digester. The obtained determination coefficient of the developed and optimized model suggests that the modeled value of the methane fits well with the measured value of methane for validation. Thus, from the test dataset, the optimized and modeled methane volume was reported as 28%. In this scenario, under the various operational parameters, an increase of 26.5% in methane was obtained when comparing the maximum volume of methane from the optimization process with the maximum methane volume (54.5%) produced in the real biogas digester. Interestingly, the biogas digester produced a maximum methane yield of 0.24 m3 and a methane composition of 60%. Evidently, methane yield was influenced by temperature as well as other meteorological factors in the developed model hence, these factors should be widely considered for sustainable biogas production.
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