含能材料
含能材料
함능재료
ENERGETIC MATERIALS
2013年
4期
455-459
,共5页
张淑娟%陈啸剑%吴婉娥%王煊军
張淑娟%陳嘯劍%吳婉娥%王煊軍
장숙연%진소검%오완아%왕훤군
环境工程%微波%Fenton%偏二甲肼%COD 去除率
環境工程%微波%Fenton%偏二甲肼%COD 去除率
배경공정%미파%Fenton%편이갑정%COD 거제솔
environmental engineering%microwave%fenton%unsymmetric dimethyl hydrazine ( UDMH )%chemical oxygen demand( COD)removal rate
采用微波强化 Fenton工艺处理了偏二甲肼废水,考察了微波功率、H2 O2投加量、pH 值、Fe2+与 H2 O2摩尔比等因素对废水处理效果的影响,通过正交实验确定了该工艺的最佳条件。结果表明,在微波功率280 W,H2O2(68.5 g·L -1)投加量4.0 mL、水样 pH =4.0、Fe2+与 H2 O2摩尔比116、反应时间8.0 min的条件下,偏二甲肼废水 COD 去除率可达98.4%。
採用微波彊化 Fenton工藝處理瞭偏二甲肼廢水,攷察瞭微波功率、H2 O2投加量、pH 值、Fe2+與 H2 O2摩爾比等因素對廢水處理效果的影響,通過正交實驗確定瞭該工藝的最佳條件。結果錶明,在微波功率280 W,H2O2(68.5 g·L -1)投加量4.0 mL、水樣 pH =4.0、Fe2+與 H2 O2摩爾比116、反應時間8.0 min的條件下,偏二甲肼廢水 COD 去除率可達98.4%。
채용미파강화 Fenton공예처리료편이갑정폐수,고찰료미파공솔、H2 O2투가량、pH 치、Fe2+여 H2 O2마이비등인소대폐수처리효과적영향,통과정교실험학정료해공예적최가조건。결과표명,재미파공솔280 W,H2O2(68.5 g·L -1)투가량4.0 mL、수양 pH =4.0、Fe2+여 H2 O2마이비116、반응시간8.0 min적조건하,편이갑정폐수 COD 거제솔가체98.4%。
The unsymmetric dimethyl hydrazine(UDMH)wastewater was degraded by the microwave(MW)enhanced Fenton, and the effect factors,such as MW power,dosage of H2 O2 ,pH,Fe2 +H2 O2 molar ratio on wastewater treatment were studied. The best degradation conditions were determined by the orthogonal experiment. Results show that,the chemical oxygen demand (COD)removal rate could be 98.4% on condition that MW power is 280 W,H2O2(68.5 g·L -1)dosage 4.0 mL,pH 4.0, Fe2 +H2 O2 molar ratio 116 and reaction time 8. 0 min.
