摘要
研究了利用二氧化氯直接氧化和催化氧化处理铬黑T模拟废水,单纯用二氧化氯化学氧化处理COD为2928mg/L的铬黑T废水时,最佳pH值为1.8,二氧化氯投加量为1200mg/L,反应60min,COD去除率为24.1%,BOD5去除率为21.8%,脱色率为70.0%.在最佳pH值为1.8,经过1200mg/L二氧化氯和0.25gTiO2催化氧化60min后,COD去除率为33.6%,BOD5去除率为53.2%,脱色率为75.2%.结果表明,铬黑T经化学氧化和催化氧化后,分子中苯环和萘环被氧化分解为羧酸和苯醌,并进一步分解为无机物,为难降解废水的后续处理创造了条件.
The direct oxidation and catalytic oxidation of simulated wastewater containing eriochrome black T with chlorine dioxide as an oxidant was studied. The COD, BOD removal efficiency, and decolor efficiency are 24.1%, 21.8%, and 70.0%, respectively, under the condition of wastewater COD 2928 rag/L, an optimum pH value of 1.8, a dosage of chlorine dioxide 1200 mg/L by reacting for 60 min. The COD, BOD removal efficiency and decolor efficiency are 33.6%, 53.2%, and 75.2%, respectively, under the condition of wastewater COD 2928 rag/L, the optimum pH value of 1.8, the dosage of chlorine dioxide 1200 mg/L, and a dosage of TiO2 0.25 g by reacting for 60 rnin. The result indicates that the benzene ring and naphthalin ring in the eriochrome black T molecule is degraded to organic acid and benzoquinone, and further becomes inorganic substances by chlorine dioxide direct oxidation and catalytic oxidation, which is good for the further treatment of the refractory bio-degradation wastewater.
出处
《山东大学学报(工学版)》
CAS
2007年第5期113-117,共5页
Journal of Shandong University(Engineering Science)
关键词
二氧化氯
催化氧化
难降解废水
铬黑T
chlorine dioxide
catalytic oxidation
refractory bio-degradation wastewater
eriochrome black T
