盐度对好氧颗粒污泥硝化过程中N2O产生量的影响

采用好氧SBR反应器,考察盐度在0、5、10 g·L-1条件下好氧颗粒污泥全程硝化过程中N2O产生量的变化情况以及对系统脱氮效果的影响.结果显示,随着污水中盐度增加,N2O产生量呈递增趋势.在3个盐度下(0、5、10 g·L-1),溶解态N2O产生量分别为1.21、8.99、24.81 mg·m-3,释放态N2O产生量分别为0.95、3.46、16.45 mg·m-3.在盐度为5 g·L-1和10g·L-1条件下,N2O释放速率分别为0 g·L-1时的3.6倍和17.4倍.在3种盐度条件下无论是溶解态N2O还是释放态N2O产生量在硝化过程的变化趋势均是先上升后下降,且溶解态N2O产生量大于释放态产量.另外当盐度浓度较低时(低于5 g·L-1),对NH+4-N去除效果影响较小,NH+4-N的去除率与盐度为0 g·L-1时基本相同,均在98%以上;但当盐度升至10 g·L-1后,NH+4-N的去除率降到了70%.因此,污水中盐度增加不仅影响NH+4-N的去除效率,而且增加N2O产生量.     

Sources of nitrous and nitric oxides in paddy soils：Nitrification and denitrification

Rice-paddies are regarded as one of the main agricultural sources of N 2O and NO emissions. To date, however, specific N2O and NO production pathways are poorly understood in paddy soils. ^15N-tracing experiments were carded out to investigate the processes responsible for N2O and NO production in two paddy soils with substantially different soil properties. Laboratory incubation experiments were carried out under aerobic conditions at moisture contents corresponding to 60% of water holding capacity. The relative importance of nitrification and denitrification to the flux of NaO was quantified by periodically measuring and comparing the enrichments of the N2O, NH~-N and NO3-N pools. The results showed that both N2O and NO emission rates in an alkaline paddy soil with clayey texture were substantially higher than those in a neutral paddy soil with silty loamy texture. In accordance with most published results, the ammonium N pool was the main source of N2O emission across the soil profiles of the two paddy soils, being responsible for 59.7% to 97.7% of total N2O emissions. The NO3-N pool of N2O emission was relatively less important under the given aerobic conditions. The rates of N2O emission from nitrification （N2On） among different soil layers were significantly different, which could be attributed to both the differences in gross N nitrification rates and to the ratios of nitrified N emitted as NzO among soil layers. Furthermore, NO fluxes were positively correlated with the changes in gross nitrification rates and the ratios of NO/N2O in the two paddy soils were always greater than one （from 1.26 to 6.47）. We therefore deduce that, similar to N2O, nitrification was also the dominant source of NO in the tested paddy soils at water contents below 60% water holding capacity.     

人工湿地氮转化与氧关系研究

应用N转化迁移模型分析廊道式人工湿地氮转化与氧供应的关系,验证目前湿地全程硝化反硝化脱氮机制的有效性.对各个廊道进出水NH₄⁺-N、NO₃^--N、TN、B₅、DO进行了测定和分析.在水力负荷5cm/d条件下,各廊道湿地有机氮矿化率为0.01～0.28g·(m²·d)^-1、氨氮硝化率0.50～1.54 g·(m²·d)^-1,反硝化率0.41～1.13 g·(m²·d)^-1(占总氮损失的3.4%～35.4%)、植物净吸收氮0.07～0.26 g·(m²·d)^-1(占总氮损失的7%～33%).硝化反硝化与有机质降解同时进行,在进水端最明显,这与传统认识相悖.按照全程硝化化学计量学得到的硝化需氧量(NOD)高于实际的表面复氧和植物根系放氧.最后对在高浓度有机质存在条件下,能减少对氧需求的2种新型脱氮机制进行了讨论.     

水力停留时间对活性污泥系统的硝化性能及其生物结构的影响

利用微生物呼吸醌指纹谱图结合传统分析方法研究了水力停留时间(HRT从30 h逐步缩短至5 h)对活性污泥硝化性能及种群结构的影响.结果表明,对于NH₄⁺-N浓度为500 mg·L^-1的废水,在HRT≥20 h时,氨氮去除率可达98%以上.若继续缩短HRT,污泥流失严重,尽管进水NH₄⁺-N浓度降低,出水NH₄⁺-N和NO₂     

The effect of afforestation on mineralization of soil organic matter

The effect of afforestation on the activity of microbiological mineralization of soil organic matter has been studied in Siberia. The results show that this effect concerns mainly net nitrogen mineralization and net nitrification, while carbon mineralization (CO₂ formation) does not depend on the type of ecosystem. It is proposed to use the rates of net nitrogen mineralization and nitrification as the most sensitive indicators of changes in an ecosystem.     

Prenatal diagnosis and management of twin pregnancies complicated by a co-existing molar pregnancy

Recent advances in ultrasound and molecular genetics have increased our understanding and hence enhanced the perinatal management of complete and partial hydatidiform mole. By contrast, the management of a twin pregnancy combining a normal pregnancy with a normal fetus and a complete hydatidiform mole (CHM) remains complex and controversial due to conflicting data from different parts of the world. The aim of this review is to analyse the international literature on twin pregnancies that include a mole, present the complications and outcome of pregnancy and to discuss the perinatal management. Management is complicated and women should be counselled about the maternal and fetal complications, and the pregnancy monitored carefully by a perinatal team with experience in high-risk obstetrics and access to neonatal care. The data reviewed here suggest that a woman who decides to continue with the pregnancy including a CHM must be aware that, overall, she only has a one in four chance of live birth and in around 35% of cases she will develop persistent trophoblastic disease (PTD) after delivery. In ongoing pregnancies, there will be, in at least 20% of the cases, an early onset of pre-eclampsia (PET) and a 29% risk of fetal loss due to late miscarriage, intrauterine death and neonatal death. Maternal serum human chorionic gonadotrophin (MShCG) could be useful in predicting outcome in twin pregnancy combining normal pregnancy and CHM, but this needs to be investigated prospectively. Copyright © 2005 John Wiley & Sons, Ltd.     

Operational and Design Considerations of a Trickling Filter for Ammonia Removal from Potable Water

We studied the steady-state behavior of a mathematical model of a nitrifying trickling filter. In particular, we studied the effect of the operating conditions of the filter on the complete and safe nitrification. We presented the results with the help of the operating diagram of the system and we determined the range of operating conditions resulting in optimal operation. We also computed biofilm thickness along the filter depth and concentration profiles inside the biofilm, and compared them with experimental results found in the literature. The comparison shows very good qualitative agreement between model predictions and experimental data.     

Effects of lignin on nitrification in soil

The effects of two lignins isolated from black liquor from pulping process on nitrification in soils after addition of urea,(NH4)2SO4 and (NH4)2HPO4 were investigated by incubation at 20 or 30℃ for 7 or 14d.The effects of lignin on nitrous oxide emissions from soil were also detenmined.Results showed that both lignins were more effective for inhibiting nitrification of NH4^ -N as(NH4)2SO4 of(NH4)2HPO4 as compared to urea-N.The effectiveness of lignin on nitrification was markedly affected by different soil type and temperature.Nitrous oxide emissions from soil declined when lignin was used.Urea plus 20 and 50 g/kg lignin reduced N2O emissions by about 83% and 96%,respectively,while(NH4)2HPO4 plus 20 and 50g/kg lignin respectively reduced emissions by 83% and 93%.Because of its low cost and nonhazardous characteristics,lignin has potential value as a fertilizer amendment to improve N fertilizer efficiency.     

同步硝化与反硝化(SND)好氧颗粒污泥脱氮过程初步研究

研究好氧颗粒污泥的同步硝化反硝化脱氮,寻找消除氮素对水体污染的途径。在反应器中培养了好氧条件下具有同步硝化反硝化功能的颗粒污泥,进行脱氮过程研究。好氧颗粒污泥为无载体结构,直径2～3 mm,其构成松隙,具有厌(兼)氧与好氧微生物生长代谢的环境;反应液中氨氮浓度为201 mg·L-1时,6 h反应周期内氨完全被氧化,出水中检测不到NO2--N,仅残留2 mg·L-1的N03一N,硝化与反硝化两个过程完成了脱氮反应,颗粒污泥中存在硝化细菌和反硝化细菌;改变反应器中进水有机物浓度,发现COD浓度越大,氮去除率越低,硝化细菌在高有机物浓度下反应活性受抑制,自养硝化细菌竞争氧及其他营养物质的能力弱于异养细菌;在好氧条件下(4 mgO2·L-1),进水中不加有机碳源,反应6 h后NH4+-N去除率达75％,反应过程中pH值下降,说明颗粒污泥中硝化细菌为自养型,硝化反应产酸降低反应器中pH值;在厌氧条件下,进水COD和NO3--N浓度分别为227.25 mg·L-1和103.63 mg·L-1,反应结束后,NO3--N去除率为74％,反应过程中pH值呈上升趋势,证明了好氧颗粒污泥中存在厌氧反硝化细菌,且反硝化细菌生长于颗粒污泥内部的厌氧区域,反硝化产碱使反应液pH值上升。     

琥珀山庄污水处理厂污泥上浮的成因与控制

污水处理厂的污泥上浮会影响污水处理系统的操作、运行和出水水质.活性污泥上浮以后,如不及时处理会造成污泥大量流失、氧化沟内MLSS值降低、微生物量锐减,导致运行彻底失败.本文以合肥市琥珀山庄污水处理厂的工艺运行为实例,寻求活性污泥上浮的原因及其控制对策.通过多年的观察与实践,认为污泥上浮的主要原因有污泥老化与腐化、污泥反硝化、冲击负荷、曝气过度、污泥携油上浮等.实践表明,气温、气压和水温的变化也是污泥上浮的重要原因.常用的控制污泥上浮的方法有增加污泥回流量、及时排除剩余污泥、降低混合液浓度、缩短污泥龄、降低溶解氧、消除沉淀池的死角区、加大池底坡度以及改进池底刮泥设备等.