Fenton氧化联合活性炭吸附法处理餐厨垃圾水热炭化废水

Tianchi Shen, Mi Yan, Yuhao Xia, Ruixiong Hu, Yayong Yang, Cheng Chen, Feng Chen, Dwi Hantoko
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引用次数: 4

摘要

食物垃圾的水热碳化(HTC)可以产生碳氢化合物作为优质燃料或碳材料进一步利用,但液体排出物的副产品,称为HTC废水,具有较高的化学需氧量(COD)含量和其他有机污染物。研究了Fenton氧化联合活性炭(AC)降低HTC废水中COD的可行性。考察了pH、双氧水用量、Fe2+/H2O2摩尔比、反应时间等参数对反应的影响。最终,通过优化的Fenton氧化(pH = 3, H2O2投加量= 1.5 mol/L, Fe2+/H2O2 = 1:15,反应时间= 60 min)结合优化的AC吸附工艺(AC投加量= 30 g/L), COD值从4.2万mg/L降至3075 mg/L, COD去除率为92.7%,去色率为91.9%。不同处理方法的液渣GC/MS(气相色谱质谱)和FTIR(傅里叶变换红外光谱仪)对比也表明,通过Fenton氧化和AC吸附,HTC废水中有机物的种类明显减少。
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Treatment of wastewater from food waste hydrothermal carbonization via Fenton oxidization combined activated carbon adsorption

Hydrothermal carbonization (HTC) of food waste can produce hydrochar for further utilization as high-quality fuel or carbon materials, but the by-product of liquid effluent, named HTC wastewater, has a high chemical oxygen demand (COD) content and other organic pollutants. This study focused on the feasibility of Fenton oxidation combined with activated carbon (AC) to reduce COD in HTC wastewater. The effects of different parameters including pH, dosage of hydrogen peroxide, molar ratio of Fe2+/H2O2, and reaction time were tested and discussed. Eventually, through the optimized Fenton oxidation (pH = 3, H2O2 dosage = 1.5 mol/L, Fe2+/H2O2 = 1:15, reaction time = 60 min) combined optimized AC adsorption process (AC dosage = 30 g/L), the COD value reduced from 42,000 mg/L to 3075 mg/L, indicating a COD removal efficiency of 92.7% and a color removal ratio of 91.9%, respectively. The comparison of GC/MS (gas chromatography mass spectrometer) and FTIR (Fourier transform infrared spectrometer) of liquid residual from different treatment methods also indicated that the types of organic substances in HTC wastewater were significantly reduced through Fenton oxidation and AC adsorption.

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