Formation of metal agglomerates during carbonisation of chromated copper arsenate (CCA) treated wood waste: Comparison between a lab scale and an industrial plant
Author:
Publisher
Elsevier BV
Subject
Health, Toxicology and Mutagenesis,Pollution,Waste Management and Disposal,Environmental Chemistry,Environmental Engineering
Reference9 articles.
1. Review of disposal technologies for chromated copper arsenate (CCA) treated wood waste, with detailed analyses of thermochemical conversion processes;Helsen;Environ. Pollut.,2005
2. Total recycling of CCA treated wood waste by low-temperature pyrolysis;Helsen;Waste Manage.,1998
3. The microdistribution of copper, chromium and arsenic in CCA treated wood and its pyrolysis residue using energy dispersive X-ray analysis in scanning electron microscopy;Helsen;Holzforschung,1998
4. Low-temperature pyrolysis of CCA treated wood waste: chemical determination and statistical analysis of metal in- and output; mass balances;Helsen;Waste Manage.,1997
5. L. Helsen, Low-temperature pyrolysis of chromated copper arsenate (CCA) treated wood waste, PhD Thesis, Katholieke Universiteit Leuven, Belgium, 2000.
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1. Pyrolysis of Chromated Copper Arsenate-Treated Wood: Investigation of Temperature, Granulometry, Biochar Yield, and Metal Pathways;Energies;2022-07-12
2. Ecotoxic, genotoxic, and cytotoxic potential of leachate obtained from chromated copper arsenate-treated wood ashes;Environmental Science and Pollution Research;2022-01-28
3. Influence of morphological and chemical features of biochar on hydrogen peroxide activation: implications on sulfamethazine degradation;RSC Advances;2016
4. Rules of Thumb (Empirical Rules) for the Biomass Utilization by Thermochemical Conversion;Journal of the Japan Institute of Energy;2014
5. Slow pyrolysis of CCB-treated wood for energy recovery: Influence of chromium, copper and boron on pyrolysis process and optimization;Journal of Analytical and Applied Pyrolysis;2013-11
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