Abstract
Abstract
In the process of preparing Mo-Co bimetallic catalysts, the parameters involved in the experimental process all affect the experimental performance to varying degrees. Since the laws of the influence of these parameter variables on the experimental performance interact with each other, it is difficult to theoretically find a suitable functional relationship to describe them, and thus the optimization strategy of the experimental performance varies from person to person, which is a difficult problem that needs to be solved urgently. Therefore, by taking the hydrogen production rate as the optimization objective, obtaining the relationship between each experimental parameter factor and the experimental performance index, and finding out the law and trend of the influence of each factor on the experimental index, the optimal combination of each factor level can be obtained. In this paper, during the preparation of Mo-Co bimetallic catalysts, several sets of orthogonal experiments were carried out to determine the hydrogen production rate under a variety of reaction parameters, and the correlation between each experimental parameter and the hydrogen production rate was investigated by various methods. Finally, the experimental parameters affecting the hydrogen production rate and their significant influence degree were obtained, and the optimal hydrogen production rate was further found.