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Volume 38 Issue 9
Nov.  2020
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WU Rui-ping. EFFECT OF PYROLYSIS TEMPERATURE ON BIOCHAR ENHANCED TREATMENT OF CADMIUM CONTAMINATED SOIL[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(9): 241-246. doi: 10.13205/j.hjgc.202009039
Citation: WU Rui-ping. EFFECT OF PYROLYSIS TEMPERATURE ON BIOCHAR ENHANCED TREATMENT OF CADMIUM CONTAMINATED SOIL[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(9): 241-246. doi: 10.13205/j.hjgc.202009039

EFFECT OF PYROLYSIS TEMPERATURE ON BIOCHAR ENHANCED TREATMENT OF CADMIUM CONTAMINATED SOIL

doi: 10.13205/j.hjgc.202009039
  • Received Date: 2019-07-09
  • In order to explore the effect of sludge biochar on passivation and remediation of Cd-contaminated soil, pot experiments were conducted to simulate the Cd-contaminated soil, and the effect of biochar on pH, organic carbon, Cd content and its valence state, plant height, enrichment coefficient and biotransformation coefficient of Cd-contaminated soil were investigated. The experimental results showed that the biochar prepared at 800℃ had better repair effect than that prepared at 300℃, and the optimum dosage of biochar was 9.0 g/kg. The content of Cd in soil also increased to 7.9 mg/kg at 800℃, which was about 1.0 mg/kg higher than that under 300℃ pyrolysis. Sludge biochar significantly reduced the content of acid extractable and reduced Cd in soil, but increased the content of oxidized and residual Cd. When the pyrolysis temperature was 800℃, the Cd content of acid extractable and reduced state was reduced to 0.68 mg/kg and 0.45 mg/kg, respectively, and the Cd content of oxidation state and residue state was increased to 0.76 mg/kg and 1.72 mg/kg, respectively, thus reduced the content of bioavailable Cd in soil. In addition, biochar could reduce the bioconcentration and transformation coefficients of Cd.
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