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ʵÑ黹¿¼²ìÁËÎü¸½×÷ÓöԴ߻¯Ð§¹ûµÄÓ°Ï죬½á¹û±íÃ÷CODµÄÈ¥³ýÖ÷ҪΪ´ß»¯³ôÑõÑõ»¯µÄ×÷Ó᣿¼²ìÁËpH¶Ô´ß»¯Ð§¹ûµÄÓ°Ï죬Óëµ¥¶À³ôÑõ»¯Ïà±È£¬¸Ã´ß»¯Ìåϵ¸ü¼ÓÊʺÏÔÚËáÐÔÌõ¼þÏÂÓ¦Óá£Fe3O4-CoO/Al2O3¶ÔË®ÖгôÑõ¾ßÓÐÃ÷ÏԵĴ߻¯·Ö½â»îÐÔ£¬Æä³ôÑõ·Ö½âµÄËÙÂʳ£Êý´ïµ½3.370¡Á10-3s-1£¬Ã÷ÏÔ¸ßÓÚ¶þ´ÎÕôÁóË®Öе¥¶À³ôÑõµÄ·Ö½âËÙÂʳ£Êý1.380¡Á10-3s-1¡£ »úÆ÷·ÒëµÄ¼á¾ö²»ÊÕ |
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clearsky7228
½ð³æ (ÕýʽдÊÖ)
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lovelva3000(½ð±Ò+8,VIP+0): 5-19 23:57
lovelva3000(½ð±Ò+8,VIP+0): 5-19 23:57
| Experiment also investigated the influence of adsorption to catalytic effect,the result showed that COD removal is mainly the role of catalytic ozonation. Seeing about the effect of pH on the catalytic impact , compared with ozonation alone, the catalytic system more suitable for application in acidic conditions. To the ozone in water,Fe3O4-CoO/Al2O3 has obvious catalytic decomposition activity, the rate constant of ozone decomposition reach to 3.370 ¡Á 10-3s-1, significantly higher than that of separate ozone in secondary distilled water , 1.380 ¡Á 10-3s-1 . |
2Â¥2009-05-18 21:12:04
TellNoOne
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lovelva3000(½ð±Ò+7,VIP+0): 5-19 23:57
lovelva3000(½ð±Ò+7,VIP+0): 5-19 23:57
|
the experimental study on the influence of adsorption shows that the COD removal is mainly due to its catalytic effect on ozonization process. The influence of pH value on the catalysis was also investigated, showing that in comparison with a pure ozonization process the catalytic system works better at acidic conditions. Fe3O4-CoO/Al2O3 obviously has a catatlytic activity on the decomposition of ozone in water. Its rate constant for ozone decomposition reaches 3.370 ¡Á 10-3s-1, significantly higher than that of pure ozone in double distilled water , 1.380 ¡Á 10-3s-1 . [ Last edited by TellNoOne on 2009-5-19 at 09:21 ] |
3Â¥2009-05-19 09:10:57
laslaibonita
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4Â¥2009-05-19 11:21:08
liguoyizi
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¡ï
qingfeng877680(½ð±Ò+1,VIP+0):ÐÁ¿àÀ²£¡ 6-2 21:03
qingfeng877680(½ð±Ò+1,VIP+0):ÐÁ¿àÀ²£¡ 6-2 21:03
| Experiment also investigated the influence of adsorption to catalytic effect, the result showed that COD removal is mainly the role of catalytic ozonation. The effect of pH on the catalytic impact was also been studied, compared with ozonation alone, the catalytic system are more suitable for application in acidic conditions.,Fe3O4-CoO/Al2O3 system has obvious catalytic decomposition activity to the ozone in water, the constant rate of ozone decomposition reached to 3.370 ¡Á 10-3s-1, significantly higher than that of separate ozone in secondary distilled water , 1.380 ¡Á 10-3s-1 . |
5Â¥2009-05-20 10:09:45
liguoyizi
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6Â¥2009-05-20 10:10:34
