denitrification

1. Have good denitrification and phosphorus effect.
具有良好的脱氮除磷效果。

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2. Denitrification is always the focus in wastewater treatment industry.
脱氮一直是污水处理界的研究热点。

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3. Develop the system of selective catalytic reduction fume denitrification.
选择性催化还原烟气脱硝系统开发。

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4. The denitrification is an important channel to attenuate nitrate in lakeshore buffer zones.
反硝化作用是湖岸缓冲带去除硝酸盐的重要途径。

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5. Future application prospect and further study trend of aerobic denitrification are presented.
并对好氧反硝化的应用前景作了展望,提出了好氧反硝化今后的研究方向。

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6. Nitrate nitrogen removal from ground water by autotrophic denitrification in a packed bed reactor.
固定床自养反硝化去除地下水中的硝酸盐氮。

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7. Nitrate nitrogen removal from ground water by autotroph IC denitrification in a packed bed reactor.
固定床自养反硝化去除地下水中的硝酸盐氮。

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8. Biologic denitrification is one of the most popular methods to remove nitrite and nitrate from water.
生物反硝化法是解决水体中硝氮污染问题的主要方法之一。

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9. Bacteria denitrification and the main characteristics of enzymes that catalyze the process were clear.
细菌反硝化作用以及催化反硝化的各类酶的基本特性已被阐明。

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10. Under anaerobic conditions nitrates and nitrites are both reduced by a process called denitrification.
在厌氧条件下,硝酸盐和亚硝酸盐通过脱硝作用被还原。

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11. The denitrification in the batch reactor has higher efficiency than that in the continuous flow reactor.
间歇流反应器的脱氮效果好于连续流反应器,特别当碳氮比较低时。

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12. The primary factor influencing the denitrification rate was dissolve oxygen, and followed by temperature.
影响其反硝化速率的主要因素为溶解氧,其次是温度。

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13. Biological denitrification was the major method, and some new processes of nitrate treatment were reviewed.
生物脱氮是硝酸盐治理的主要方法,本文综述了硝酸盐治理的一些新工艺。

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14. The performance of denitrification in the up-flow biological aerated filter (UBAF) is studied experimentally.
文章对单级上流式曝气生物滤池的脱氮性能进行了初步研究。

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15. The technology of biological denitrification for wastewater is always the focus in wastewater treatment field.
生物法脱氮技术一直是水处理领域所关注的热点和难点。

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16. Study was made on the efficiency and mechanism of shortcut nitrification-denitrification in aerated biofilter.
通过小试研究了曝气生物滤池实现短程硝化反硝化的效能和机理。

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17. Conventional bioremoval of nitrogen involves two processes: aerobic nitrification, and anaerobic denitrification.
传统生物脱氮包括好氧硝化和缺氧反硝化两个过程。

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18. A complete aerobic denitrification function can take place when there are enough degradable organic carbon sources.
当存在足够的易降解有机碳源时,能发生完全的好氧反硝化作用。

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19. SBR process was used in studying the phenomenon of aerobic denitrification during the denitrification of wastewater.
采用SBR工艺,对废水脱氮中的好氧反硝化现象进行了研究。

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20. It has been conducted an experimental study on the effect of sulfate reduction on denitrification under anoxic condition.
对缺氧环境下硫酸盐还原对反硝化脱氮过程影响进行了试验研究。

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21. Objective To discussion of electrolysis disinfection and denitrification techniques and their applications in water treatment.
目的探讨电解杀菌和反硝化脱氮技术在水处理中的应用。

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22. The structure and shape of magnesia base catalyst-sorbent before and after denitrification were characterized by XRD and FT-IR.
利用红外光谱、X射线衍射对脱硝处理前后的氧化镁基催化吸附剂进行了分析,探讨其脱硝的机制。

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23. The application of simultaneous nitrification and denitrification is predicted and the future studying direction is put forward.
对同时硝化反硝化的应用前景进行了展望,提出了今后的研究方向。

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24. Because conventional denitrification process has many problems, more and more people begin to study the denitrification process.
由于传统的脱氮工艺存在很多问题,促使人们对脱氮工艺进行进一步深入的研究。

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25. The new biological denitrification techniques have gradually attracted the attention of people because of their obvious advantages.
生物脱氮新工艺由于其独特的优点日益引起人们的关注。

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26. Under the optimal experimental conditions, the desulfurization and denitrification efficiencies reach 100% and 96.84%, respectively.
在最佳实验条件下,脱硫效率和脱硝效率分别达到了100%和96.84%。

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27. Laboratory experiment used 15n isotope identification technology to study the process of microbial nitrification and denitrification.
本试验采用15n同位素标识技术对生物硝化及反硝化过程进行了研究。

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28. Addition of organic carbon in anaerobic environment can enhance the denitrification process and improve the nitrogen removal efficiency.
在厌氧状态下补充碳源会大大增强反硝化作用,提高对氮的去除效果。

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29. Addition of organic carbon in anaerobic environment can enhance the denitrification process and improve the nitrogen removal efficiency.
在厌氧状态下补充碳源会大大增强反硝化作用,提高对氮的去除效果。

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