Volumes Ratio Optimization in a Cascade Anaerobic Digestion System Producing Hydrogen and Methane

E. Chorukova, I. Simeonov, L. Kabaivanova
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引用次数: 5

Abstract

Abstract As focus of humans has turned to renewable energy, the role of anaerobic digestion has started to become economically viable. Reducing the volume of agro-wastes for the generation of gaseous and liquid fractions with energy carriers and valuable products is an enormous challenge. A two-stage anaerobic digestion process consisting of hydrogenic stage followed by methanogenic stage was studied in a laboratory scale. Five simple nonlinear models of this continuous cascade process were studied in order to determine the optimal ratio of working volumes of bioreactors, in view of maximising energy production. This ratio was reported for all adopted models. The optimal ratio (maximal energy production criterion) depends of the adopted mathematical model. Static characteristics of both bioreactors were obtained using Symbolyc toolbox of Matlab. Numerical experiments concerning dynamics of the main variables of both bioreactors for these models using Simulink of Matlab are performed for different step changes of the dilution rate of the first bioreactor, together with the influence of the substrate (acetate) inhibition for one of the models. The value of the constant of inhibition plays an important role on the admissible interval of the dilution rate. The developed idea could serve for optimally designed experiments of anaerobic digestion for production of hydrogen and methane from lignocelluloses wastes (wheat straw) in two phase process.
产氢和甲烷的级联厌氧消化系统的体积比优化
随着人类对可再生能源的关注,厌氧消化的作用开始在经济上可行。减少农业废弃物的体积以产生具有能量载体和有价值产品的气态和液态馏分是一项巨大的挑战。在实验室规模上研究了由产氢阶段和产甲烷阶段组成的两阶段厌氧消化过程。研究了该连续级联过程的五个简单非线性模型,以确定生物反应器的最佳工作体积比,以最大限度地提高能源产量。所有采用的模型都报告了这一比率。最优比值(最大产能准则)取决于所采用的数学模型。利用Matlab的symbolc工具箱获得了两种生物反应器的静态特性。利用Matlab的Simulink对两种模型的两个生物反应器主要变量的动力学进行了数值实验,并对第一反应器稀释率的不同阶跃变化以及底物(醋酸盐)抑制对其中一种模型的影响进行了数值实验。抑制常数的取值对稀释率的容许区间有重要影响。该思路可用于优化设计木质纤维素废弃物(麦草)两相厌氧消化制氢和甲烷的实验。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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