Health & Environmental Research Online (HERO)


Print Feedback Export to File
1018093 
Journal Article 
Effects of liquefaction time and temperature on heavy metal removal and distribution in liquefied CCA-treated wood sludge 
Pan, H 
2010 
Yes 
Chemosphere
ISSN: 0045-6535
EISSN: 1879-1298 
80 
438-444 
English 
20462629 
WOS:000279447400013 
Wood liquefaction was studied as a recycling method for chromated copper arsenate (CCA)-treated wood waste. The effects of liquefaction temperature and time on the removal of the heavy metals and their distribution in liquefied CCA-treated wood sludge were investigated. The residue content decreased as the temperature increased from 120 to 180 degrees C regardless of the reaction time. It decreased gradually with the increase of reaction time under liquefaction temperatures 120 and 150 degrees C. But it decreased as the reaction time increased from 30 to 60min then increased when the reaction time increased to 90min under liquefaction temperature 180 degrees C due to the re-condensation of decomposed wood components. The total concentrations of arsenic, chromium, and copper in the sludge samples increased, while the percentage of the removed metals decreased, with increasing liquefaction temperature, which could be related to the changes of wood residue content and the fate of the heavy metals under different liquefaction conditions. The exchangeable/acid extractable fraction of all three heavy metals decreased as the liquefaction temperature increased. At the same time, Cr and As increased in both oxidizable and reducible fractions. The amount of Cr in the oxidizable fraction increased 40% as the liquefaction temperature increased from 120 to 180 degrees C. The major change of Cu distribution was the increase in reducible fraction with the increase of liquefaction time. The results of this study suggested that high liquefaction temperature tends to inhibit the heavy metal recovery when liquefaction is used as a recycling method for CCA-treated wood waste. 
CCA-treated wood recycling; Wood liquefaction; Heavy metal fractionation; Sequential extraction; Metal recovery 
IRIS
• Arsenic (Inorganic)
     1. Literature
          PubMed
          Web of Science
• Inorganic Arsenic (7440-38-2) [Final 2025]
     1. Initial Lit Search
          PubMed
          WOS
     4. Considered through Oct 2015
     6. Cluster Filter through Oct 2015