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Donglin Wang Jie Zhou Hui Lin Junwen Chen Jing Qi Yaohui Bai Jiuhui Qu 《Frontiers of Environmental Science & Engineering》2023,17(3):34
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用DWZ接触氧化处理工艺处理屠宰废水 总被引:7,自引:0,他引:7
实行畜禽定点屠宰后,含有大量有机污染物的畜禽屠宰废水的处理问题急需解决,经浙江省海宁市某畜禽屠宰厂运行证实,采用DWZ接触氧化处理工艺,具有投资少,占地面积小,处理效果好,抗冲击能力强,操作简便,运行费用低等特点,废水经处理后可达到GB8978-1996 Ⅰ级排放标准,得到了社会各界的广泛好评,本文主要介绍了该处理设施的处理工艺,运行特点及优越性,提供一条治理畜禽宰废水的有效途径。 相似文献
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To solve the problem of shortened backwashing intervals in groundwater plants, several disinfectants including ozone (O3), hydrogen peroxide (H2O2) and chlorine dioxide (ClO2) were examined to peel off the film from the quartz sand surface in four pilot-scale columns. An optimized oxidant dosage and oxidation time were determined by batch tests. Subsequently, the optimized conditions were tested in the four pilot-scale columns. The results demonstrated that the backwashing intervals increased from 35.17 to 54.33 (H2O2) and to 53.67 hr (ClO2) after the oxidation treatments, and the increase of backwashing interval after treatment by O3 was much less than for the other two treatments. Interestingly, the treatment efficiency of filters was not affected by O3 or H2O2 oxidation; but after oxidation by ClO2, the treatment efficiency was deteriorated, especially the ammonia removal (from 96.96% to 24.95%). The filter sands before and after the oxidation were characterized by scanning electron microscopy and X-ray photoelectron spectroscopy. Compared with the oxidation by O3 and H2O2, the structures on the surface of filter sands were seriously damaged after oxidation by ClO2. The chemical states of manganese on the surfaces of those treated sands were only changed by ClO2. The damage of the structures and the change of the chemical states of manganese might have a negative effect on the ammonia removal. In summary, H2O2 is a suitable agent for film peeling. 相似文献
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