Prediction and validation of parameters of multi-axis soil remediation equipment based on machine learning algorithms  

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作  者:Zhipeng Wang Yuhang Jiang Yaonan Zhu Feng Ma Youzhao Wang Chaoyue Zhao Xu Li Tong Zhu 

机构地区:[1]Institute of Process Equipment and Environmental Engineering,School of Mechanical Engineering and Automation,Northeastern University,Shenyang,110819,China [2]The School of Engineering,The University of Tokyo,Tokyo,113-8656,Japan [3]School of Environment and Resources,Taiyuan University of Science and Technology,Taiyuan,030024,China

出  处:《Particuology》2025年第3期41-55,共15页颗粒学报(英文版)

基  金:the National Key Research and Development Plan of China(grant No.2020YFC1806402).

摘  要:To facilitate the recycling of polluted soils,the development of innovative multi-axial soil remediation machinery is essential for achieving a uniform blend of soil with remediation chemicals.The mean level of the steepest climb test was set using the mean level derived from the orthogonal test,and then the range of optimum values was determined based on the results of the steepest climb test,and the upper and lower bound intervals of the response surface test were set accordingly.The most optimal model is identified by applying machine learning algorithms to the response surface data.The results show that the Decision Tree model outperforms Random Forest,SVR,KNN and XG Boost in terms of accuracy and stability in predicting dual indicators.Analysis of the decision tree model yields the following optimal parameter settings:homogenisation time of 1.7 s,homogenisation spacing of 181 mm,crusher spacing of 156 mm,and speed of 113 rpm.In the final test prototype,the error rates of the machine learning prediction models were 3.01% and 3.88% respectively.The experimental data confirms that the prediction accuracy reaches a satisfactory level after applying machine learning to optimise the parameters.This study will provide a reference for the design and optimisation of new in situ multi-axial soil remediation devices.

关 键 词:Contaminated soil Mixing homogeneity Machine learning Steepest climb test Nine-axis 

分 类 号:X53[环境科学与工程—环境工程]

 

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