Prediction of Ammonium Removal by Biochar Produced From Agricultural Wastes Using Artificial Neural Networks: Prospects and Bottlenecks
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Elsevier
Reference66 articles.
1. Evaluation of multivariate linear regression and artificial neural networks in prediction of water quality parameters;Abyaneh;Journal of Environmental Health Science and Engineering,2014
2. Artificial neural network and optimization;Akbari,2014
3. An analytical model and ANN simulation for carbon nanotube based ammonium gas sensors;Akbari;RSC Advances,2014
4. Ammonia;Albrecht,2014
5. Adsorption of ammonium by different natural clay minerals: Characterization, kinetics and adsorption isotherms;Alshameri;Applied Clay Science,2018
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