1)Nitrification-denitrification硝化-反硝化
1.Effect of Different N Application on Rice Morphological Characteristics and the Nitrification-denitrification Physiological Characteristics;施氮水平对水稻植株形态及硝化-反硝化生理特性的影响
2.The nitrogen fertilizer losses in paddy field involve nitrification-denitrification, ammonia volatilization,nitrate leaching and runoff.稻田中氮素损失途径主要有氨挥发、硝化-反硝化、淋洗和径流,其中氨挥发是氮素损失的主要途径。
英文短句/例句
1.Shortcut Nitrification-denitrification Biological Nitrogen Removal Technique;短程硝化-反硝化生物脱氮技术研究
2.Nitrite and Nitrate Denitrification Comparative Study亚硝酸盐反硝化与硝酸盐反硝化对比研究
3.Research on coupling process of short-cut nitrification and simultaneous nitrification and denitrification短程硝化与同时硝化反硝化耦合工艺的研究
4.Denitrification Characteristics of an Aerobic Denitrifying Bacterium Pseudomonas putida Strain A1一株好氧反硝化菌的反硝化性能研究
5.The Study on Simultaneous Nitrification and Denitrification via Nitrite;亚硝酸盐型同步硝化反硝化生物脱氮研究
6.Effect of Temperature on Simultaneous Nitrification and Denitrification via Nitrite in Sequencing Batch Biofilm Reactor温度对SBBR亚硝酸型同步硝化反硝化的影响
7.Relationships between DO、ORP and nitrification、denitrification in SBR processesDO和ORP与SBR法硝化反硝化的相关关系
8.Process Control of Simultaneous Shortcut Nitrification and Denitrification in a Sequencing Batch Moving Bed Biofilm Reactor;SBMBBR内同步短程硝化反硝化的控制研究
9.Studies on a Heterotrophic Nitrification-Aerobic Denitrification Bacteria;一株异养硝化—好氧反硝化菌的研究
10.Denitrifying Phosphorus Removal in Anaerobic-Anoxic-Nitrification Double Sludge System;厌氧/缺氧/硝化双污泥反硝化除磷
11.Study on Nitrogen Removal from Wastewater by Simultaneous Nitrification and Denitrification;同步硝化反硝化处理氨氮废水的研究
12.Research on Simultaneous Nitrification and Denitrification in Combined SBR Process复合式SBR工艺同步硝化反硝化的研究
13.Advances on Ecological Factors of Simultaneous Nitrification and Denitrification同时硝化反硝化的生态因子研究进展
14.Effect of DO on Simultaneous Nitrification-denitrification with Phosphorus RemovalDO对同步硝化反硝化协同除磷的影响
15.Impact analysis of nitrate on denitrifying dephosphatation硝酸盐对反硝化除磷过程的影响分析
16.Research on the Affecting Factors of Denitrifying Phosphorus Removal with Nitrite亚硝酸盐反硝化除磷工艺的影响因素
17.Fundamental Study of Short-cut Nitrification-denitrification Biological Nitrogen Removal and Denitrifying Phosphorus Removal;短程硝化—反硝化生物脱氮与反硝化聚磷基础研究
18.Study on Denitrifying Phosphorus-Uptake and Simultaneous Nitrification Denitrification in SUFR System;SUFR系统对反硝化吸磷和同时硝化反硝化脱氮的试验研究
相关短句/例句
nitrification-de-nitrification硝化-反硝化
1.The factors influencing the nitrification-de-nitrification, nitration-denitration, phosphorous removal and simultaneous nitrogen and phosphorus removal in bio-filter reactor are reviewed.主要介绍了近年来国内外在生物滤池脱氮除磷方面的研究进展,具体阐述了生物滤池硝化-反硝化工艺的影响因素、短程脱氮、除磷以及同步脱氮除磷方面的最新研究进展。
2.This paper introduces some new techniques for sewage's bio-de-nit ri fication, which is based on new nitrogen transformation microbes and new nitroge n transformation ways, such as shortcut nitrification-de-nitrification, simult aneous nitrification-de-nitrification, anaerobic ammonium oxidation, aerobic d e-ammonification, etc.这些新型生物脱氮工艺是基于新的氮素转化微生物及新的氮素转化途径,如短程硝化-反硝化、同时硝化-反硝化、厌氧氨氧化、好氧反氨化生物脱氮等。
3)nitrification-denitrification硝化反硝化
1.73% of ammonium was converted by the conventional nitrification-denitrification process.73%的氨氮是通过传统的硝化反硝化途径去除的,53。
4)nitrification and denitrification硝化反硝化
1.The two-stage SBR process of anaerobic hydrolysis/nitrification and denitrification was used to treat wastewater from gelatin production.采用厌氧水解—硝化反硝化二级SBR工艺处理明胶生产废水。
2.Research suggests that biological nitrification and denitrification of wastewater is one of the important sources of N_2O.N2O是大气中重要的温室气体之一,大量研究表明,污水生物处理的硝化反硝化过程是N2O的重要强源之一。
3.A review of aerobic and anaerobic biological treatment of wastewater with high salinity in China and abroad is reported, including organism removal, nitrification and denitrification and sludge physical properties.概述了国内外高盐度条件下废水好氧、厌氧生物处理的研究进展,包括有机物去除、硝化反硝化和污泥物理性能,并分析了高盐度有机废水生物处理的可行性,提出了高效处理高盐度废水的措施,传统的生物处理系统通过适当的驯化后能够处理较高盐度的废水,对于更高盐度(≥5%)废水可采取接种嗜盐微生物,添加拮抗剂等措施来处理。
5)nitrification/denitrification硝化反硝化
6)nitrification/denitrification硝化/反硝化
1.In this study,nitrogen adsorption and nitrification/denitrification were investigated in the ditches with/without plant during the drying and wetting period.结果表明,由于沉积物O2含量、有机质含量等因素的变化,吸附、硝化/反硝化强度在干涸期及输水期均呈现有规律的变化。
延伸阅读
反硝化作用 硝酸盐在某些微生物的作用下还原为气态氮的过程。多发生于沼泽、湖泊和渍水土壤等缺氧环境中。其反应过程可简示为:2HNO3─→2HNO2─→2HNO─→N2。参与作用过程的微生物主要是反硝化细菌。作用的强度主要取决于土壤中的氧浓度和土壤pH。所有的反硝化细菌都是兼气性细菌,反硝化作用只有在土壤中的氧浓度较低时才能进行。当氧浓度减至5%以下时,反硝化作用明显增强。在过湿的环境中或在通气土壤的局部嫌气区(如根际),都能测得较明显的反硝化作用。反硝化作用的最适pH为7.0~8.2。当pH低至5.2~5.8或高达8.2~9.0时,反硝化作用的强度都会显著减弱。 在自然界,除上述通常由反硝化细菌引起的反硝化作用外,还常由以下途径使介质中的硝酸盐还原为气态氮:①某些微生物通过对硫的氧化或某些含硫化合物,而使硝酸盐还原:2S+6KNO3+2CaCO3─→2K2SO4+2CaSO4+2CO2+3N2。 ②通过纯化学过程使硝酸盐还原为气态氮。但这一过程与真正的反硝化作用不同。 由于反硝化作用导致土壤氮或施入土壤中的氮肥中氮的损失,因而对植物生长不利。农业生产上常需采取措施改善土壤通气状况和调节土壤酸度,防止和减缓反硝化作用的发生。
