Machine learning insights in predicting heavy metals interaction with biochar

被引:0
作者
Xin Wei
Yang Liu
Lin Shen
Zhanhui Lu
Yuejie Ai
Xiangke Wang
机构
[1] North China Electric Power University,School of Control and Computer Engineering
[2] North China Electric Power University,School of Mathematics and Physics
[3] North China Electric Power University,MOE Key Laboratory of Resources and Environmental Systems Optimization, College of Environment and Chemical Engineering
[4] Beijing Normal University,Key Laboratory of Theoretical and Computational Photochemistry of Ministry of Education, College of Chemistry
来源
Biochar | / 6卷
关键词
Biochar; Heavy metals; Interaction mechanism; Machine learning;
D O I
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中图分类号
学科分类号
摘要
A high growth rate of studies on the application of machine learning (ML) in biochar in recent years.ML interpretability of heavy metals (HMs) interaction mechanisms with biochar is explicated emphatically.Challenges and perspectives of ML application in the removal of HMs by biochar.Combining an advanced machine learning technique to achieve better predicted performance.
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  • [1] Al-Yaari M(2022)Prediction of arsenic removal from contaminated water using artificial neural network model Appl Sci 12 999-164
  • [2] Aldhyani THH(2022)Modeling of Remora optimization with Deep Learning enabled Heavy Metal Sorption Efficiency Prediction onto Biochar Chemosphere 303 135065-231
  • [3] Rushd S(2023)Development of predictive model for biochar surface properties based on biomass attributes and pyrolysis conditions using rough set machine learning Biomass Bioenergy 174 106820-73
  • [4] Almalawi A(2016)Prediction of biochar yield from cattle manure pyrolysis via least squares support vector machine intelligent approach Bioresour Technol 202 158-130
  • [5] Khan AI(2022)Fast characterization of biomass pyrolysis oil via combination of ATR-FTIR and machine learning models Renew Energy 194 220-4198
  • [6] Alqurashi F(2023)Characteristics prediction of hydrothermal biochar using data enhanced interpretable machine learning Bioresour Technol 377 128893-299
  • [7] Abushark YB(2022)Prediction of uranium adsorption capacity on biochar by machine learning methods J Environ Chem Eng 10 108449-4059
  • [8] Alam MM(2023)Biochar performance evaluation for heavy metals removal from industrial wastewater based on machine learning: application for environmental protection Sep Purif Technol 312 123399-undefined
  • [9] Qaiyum S(2023)Biochar-based materials in environmental pollutant elimination, H Biochar 5 42-undefined
  • [10] Ang JC(2022) production and CO Rev Environ Contam Toxicol 260 23-undefined
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