不同曝气参数下间歇增氧垂直流人工湿地脱氮的分层效应

以新型间歇增氧垂直流人工湿地(IA-VFCW)为研究对象,揭示了不同工况对人工湿地污染物去除的分层效应及去除效果的影响。结果表明∶不同曝气参数对细砾石层、煤渣层污染物去除的影响较小;对曝气区、湿地植物区污染物去除的影响较大。当进水${\rm{NH}}_4^ + $-N质量浓度为25 mg·L−1、COD为200 mg·L−1时,细砾石层、煤渣层对${\rm{NH}}_4^ + $-N和TN平均去除率分别为10.8%、9.3%和13.3%、11.6%,两区域中均无${\rm{NO}}_2^ - $-N、${\rm{NO}}_3^ -$-N的积累;细砾石层对COD去除的贡献较大,COD平均去除率为67.2%。曝气区对${\rm{NH}}_4^ + $-N、TN去除贡献较大,${\rm{NH}}_4^ + $-N、TN的最大去除率分别达到69.3%、40.9%,COD平均去除率为25.4%。在低曝停比下,曝气量的增加将提高IA-VFCW对TN的去除性能;在高曝停比下,曝气量的增加会降低IA-VFCW对TN的去除效果,且会造成${\rm{NO}}_３^ - $-N积累。在曝气量2 m3·h−1、曝停比1/3、曝停周期6 h工况下IA-VFCW具有较好的污染物去除效果,${\rm{NH}}_4^ + $-N去除率为94.9%、TN去除率为77.0%、COD去除率为90.0%。IA-VFCW脱氮性能明显优于传统垂直流人工湿地。     

Assessing biological and chemical signatures related to nutrient removal by floating islands in stormwater mesocosms

Aquatic floating plants on BioHaven mats were tested for their potential use as a Best Management Practice to be incorporated within existing stormwater detention ponds. Plants were analyzed for their capability to remove nutrient-pollution in parallel with the study of ecological dynamics. Experiments were carried out in cylindrical mesocosms of 5 m diameter and 1.2 m height, above-ground pools with a water volume of 14 m³. The design parameters tested were for 5% and 10% vegetated floating island coverage of the mesocosm, both with and without shoreline plants called littoral zone. This littoral shelf was 0.5 m thick, graded at a downward slope of 1:5 toward the center using loamy soil with low organic matter content, excavated from below turf grass. Endemic plant species were chosen for the experimental location in central Florida based on a wetland identification manual by the Florida Department of Environmental Protection to ensure the study was not compromised by unique climate requirements of the plants. Nutrient and aquatic chemical conditions such as pH, dissolved oxygen, temperature, turbidity, and chlorophyll a were monitored to understand their relationships to the general wetland ecosystem. Real-time polymerase chain reaction analysis identified the microbial activity near the rhizospheric zone. Logistical placement considerations were made using spatial sampling across the horizontal plane of the mesocosms, beneath and around the root zone, to determine if nutrients tend to aggregate around the floating island. This study concluded that the application of floating islands as a stormwater technology can remove nutrients through plant uptake and biological activity. The most cost-effective size in the outdoor mesocosms was 5% surface area coverage of the mat.     

Pathways regulating nitrogen removal in constructed ditch wetlands: effects of different inflow ratios and artificial aeration

Environmental Science and Pollution Research - Constructed ditch wetland (CDW) is a combination of idle ditch and constructed wetland, which is typically used in rural areas to remove pollutants...     

曝气对无植物波形潜流人工湿地除氮的影响

实验构建了一种波形潜流人工湿地(wavy subsurface flow constructed wetland,WSFCW)模型,并采用人工曝气手段增强其脱氮效果。选择2种曝气强度分别为100～180 mL/min和300～350 mL/min 2种曝气方式分别为第1个波形区间(1#)和第2个波形区间(2#)同时曝气...     

3种植物人工浮岛对生活污水水质动态净化特性的比较

在同等条件下开展了3种植物人工浮岛对生活污水水质处理比较研究,并对它们动态净化处理结果进行比较。结果表明,水体交换时间为7 d时,灯心草、菖蒲、美人蕉3种人工浮岛对总氮的平均去除率分别为48.4%、53.7%和59.3%;对总磷的平均去除率分别为59.3%、65%和69.3%;对COD的平均去除率分别为41.5%、40.5%和40.9%。显然美人蕉对总氮和总磷的去除效果最好,实验证明了美人蕉人工浮岛在对于生活污水处理中有广阔的应用前景。     

间歇曝气潜流人工湿地的污水脱氮效果

采用间歇曝气运行方式,提升潜流人工湿地生活污水处理系统中的溶解氧浓度,强化脱氮效果。结果表明,间歇曝气运行方式有效提高了湿地内部溶解氧水平,曝气时溶解氧浓度可达6~9 mg/L,停止曝气后,溶解氧浓度迅速下降至0.5 mg/L以下,在湿地内部营造了一种交替的好氧和缺氧环境,分别促进好氧硝化和缺氧反硝化作用。在水力停留时间为3 d的情况下,间歇曝气潜流人工湿地系统对氨氮、总氮和COD的去除率分别可达到98.0%、87.6%和96.3%,较常规潜流人工湿地系统分别提高了74.1%、56.4%和18.1%,实现了氨氮、总氮和COD的同步高效去除。     

曝气对电解除磷的影响研究

针对高浓度含磷废水,重点分析了电解除磷工艺中曝气对磷去除率、pH、电导率、电极钝化的影响.结果表明:(1)在电流密度为20 mA/cm2、磷初始质量浓度为200 mg/L,初始pH为5.5～6.5的条件下,当曝气量为1.0、1.5、2.0 L/min时,60 min内磷去除率均接近100%,而且出水中未检测出磷,符合<污水综合排放标准>(GB 8978-1996)中一级标准,30～40 min内,磷去除率达到了95%以上,磷残余质量浓度小于10 mg/L,相比未曝气的情况,磷去除率有了显著提高;(2)在电流密度为20 mA/cm2、磷初始质量浓度为200 mg/L、初始pH约为3的条件下,曝气溶液的pH在前30 min呈上升趋势.30 rain后趋于平缓,最终停留在8左右;(3)在电流密度为20 mA/cm2、磷初始质量浓度为200 mg/L、初始pH约为3的条件下,曝气溶液的电导率在整个电解除磷过程中先逐步下降,30～40 min后逐步趋于稳定;(4)曝气对于抑制电极钝化、提高磷去除率有着显著效果.     

低温条件下不同面积浮岛对N、P的净化效果

人工浮岛作为有效净化富营养化水体的生态技术之一,现已得到广泛应用.然而浮岛面积的优化配置及其引发的二次污染问题仍需进一步深入探讨.研究以重庆彩云湖水库为例,探究在低温条件下不同面积旱伞草浮岛对于水库中NH3-N、P的吸收、净化效用及二次污染效果,同时,针对彩云湖水库实际情况对人工浮岛的最适面积进行了初步探讨.结果表明,随着浮岛面积的增大,对于总体而言,旱伞草浮岛对N、P的吸收量分别由531和92 g增加至3 965 g和727 g; 旱伞草腐解所造成的N、P释放量由不足100 mg/d增加至600 mg/d以上,而浮岛对于水体NH3-N、P的总体净化效率分别由50.52%和15.88%明显下降直至负值;对于单位面积浮岛而言,其对于水体中N、P的吸收量及其对于NH3-N、P的净化效率与总体净化效率变化趋势一致;对于彩云湖水库而言,其最适浮岛面积为50~70 m2.     

曝气对黑臭河道污染物释放的影响

利用黑臭河道模拟装置,对比研究了在静置和人工曝气2种方式下底泥污染释放特征及对上覆水水质的影响。结果表明,与静置释放相比,人工曝气促使实验前期底泥污染物快速释放,使得上覆水体中的各项污染物指标上升;随着水体中DO浓度的增加,硝化细菌、嗜磷菌等好氧细菌的活性增强,水体中的COD、氨氮、TN和TP得到降解或转化,浓度快速下降。实验期内,人工曝气底泥中TN、TP的平均释放速率分别为:-0.11 g/(m2·d)和-0.02 g/(m2·d),并且TP由最初的0.96 mg/L降到最终的0.48 mg/L,去除率达到50.00%。人工曝气在前期对水体中各污染指标有升高的影响,但增加了水体中的DO浓度,可以有效地抑制底泥中氮和磷的释放,对水体有机污染物、TN及TP有一定的削减作用,因此,该技术适合黑臭河道的水体修复。     

Influence of temperature and time on phosphorus removal in swine manure during batch aeration

This study was conducted to investigate the effects of temperature and time on the mechanisms of phosphorus removal in swine manure during aeration. Removal of soluble orthophosphates significantly increased with aeration time and temperature. Successive significant ortho-P removals were observed between days one and nine but no significant additional removals were recorded thereafter. Removals were significantly higher at temperatures of 20 and 25 degrees C than at temperatures of 5, 10, and 15 degrees C and ranged between 22.9 to 31.0%. Insoluble inorganic phosphorus also changed significantly with aeration time and temperature and with a similar trend as soluble orthophosphates. The pH of the manure explained 92 and 87% of the content of insoluble inorganic phosphorus at lower temperatures (5, 10, 15 degrees C) and at higher temperatures (20, and 25 degrees C), respectively. Organic phosphorus and aerobes growth patterns were similar to that of soluble orthophosphates removal. The rapid growth of aerobes was most probably the principal factor behind a rapid soluble ortho-P removal above 15 degrees C. The contribution of inorganic phosphates to the removal of soluble orthophosphates was approximately 61% while that due to organic P was approximately 35%. Precipitation was found to be the principal mechanism governing removal of soluble ortho-P in swine manure during aeration treatments.     

曝气对水平潜流人工湿地水力特性的影响

通过构建曝气及未曝气潜流人工湿地小试实验系统,以NaCl为示踪剂开展示踪实验,研究曝气对人工湿地水力特性的影响。实验结果表明,两对比系统均存在不同程度的短流及死区现象,短流主要发生在床体表层,而死区则存在于床体底层。其中未曝气人工湿地系统的流场分布不均匀现象较为严重,示踪剂滞留在床体底层难以回收,系统水力效率较低(0.56)。比较而言,由于气流对水体的扰动作用,曝气对人工湿地系统水力效率有明显改善作用,减缓了床体表层水流速度,提高了示踪剂回收率,缩小了死区的范围,曝气人工湿地系统的水力效率为0.75。     

曝气量对悬浮系统单级自养脱氮性能的影响

通过连续实验和间歇实验研究了不同曝气量对SBR系统自养脱氮性能的影响。连续实验表明,在进水氨氮浓度为155～185 mg/L时,曝气量分别为20、28、36和44 L/h时,TN去除率分别为80%、82%、80%和77%;增大和减小曝气量均会降低系统的脱氮效率。间歇实验表明,随着曝气量的增加,氨氮的降解速率有所升高,20、28、36和44 L/h曝气条件下氨氮的降解速率分别为7.23、7.25、7.86和7.95 mg/(g MLVSS.h);在降解的过程中DO浓度一直维持在较低的水平(<0.5 mg/L),pH值则呈先升高后降低的趋势;氨氮降解结束时,pH值和DO浓度同时升高。结果表明,改变曝气量会影响单级自养脱氮反应的进程,但对降解过程DO浓度值变化不大;DO浓度和pH值变化对氨降解结束具有指示作用。     

Effect of first-stage aeration on treatment of domestic sewage in different hybrid constructed wetlands

Environmental Science and Pollution Research - Two sets of hybrid constructed wetlands (HCWs) with the first-stage aeration were used to treat actual domestic sewage in this paper, where the...     

曝气对潜流人工湿地污染物沿程降解规律的影响

通过构建曝气及未曝气潜流人工湿地小试实验系统,研究曝气对人工湿地床体中污染物沿程变化规律的影响。实验结果表明,曝气对污染物沿程降解规律的影响与污染物种类有关,在净化COD和氨氮时,曝气人工湿地污染物主要以水平推流式降解为主,未曝气系统床体中则出现分层现象,深度为40 cm以上的床体区域中污染物以水平推流式降解为主,40 cm以下区域则以垂直梯度降解方式为主。对于磷来说,两对比系统均以水平推流降解方式为主,但不同深度上的降解速率有所差异,曝气系统30~50 cm的床体中间层降解速率较快,而未曝气系统50 cm以下的床体底层降解速率较快。将对比系统总体净化效果进一步比较发现,对于COD的去除来说,温度的影响大些,而对于氨氮和TP的去除来说,曝气的影响则更为显著。     

曝气时长对中试曝气塘-浮萍塘联合系统中污染物去除的影响

浮萍塘污水处理技术具有管理简便、运行成本低、可资源化回收氮磷污染物等优势。然而,因水体溶解氧(DO)不足造成的污染物去除率低的问题限制了该技术的推广应用。为此,本研究在浮萍塘前端引入曝气塘,构建中试曝气塘-浮萍塘联合系统,借此增加浮萍塘DO含量,并进一步考察了曝气时长(0、0.5、1、2和4 h)对污染物去除效果及浮萍生长的影响,以此探寻低耗高效的最佳曝气时长。结果表明,曝气塘可有效降低水体的浊度,但对氮磷去除的贡献较小,氮磷的去除以浮萍塘为主。曝气处理可显著提高曝气塘及浮萍塘水体DO含量和氧化还原电位(Eh),且DO和Eh随曝气时长的增加而上升。此外,曝气处理还能显著促进浮萍生长及其污染物的去除,但促进效果并未简单地随曝气时长的增加而提高。其中,TN、氨氮和浊度的去除率在曝气时长1 h时已基本达到峰值(去除率分别为58.42%、61.89%和89.90%),TP去除率虽在曝气时长4 h时最大(81.44%),但与曝气时长0.5 h(73.05%)相比并无显著差异;浮萍虽在曝气时长2 h时干基生长速率最高(8.00 g·(m²·d)⁻¹),但与曝气时长0.5 h和1 h(7.35 g·(m²·d)⁻¹左右)相比也无显著差异,而曝气成本却成倍增加。因此,综合考虑污染物去除、浮萍生长及曝气成本,建议曝气时长不宜高于1 h,推荐0.5~1 h为佳。以上结果可为曝气塘-浮萍塘联合系统的应用及曝气时长的选择提供参考。     

植物碳源调控对人工湿地脱氮效果的影响

针对人工湿地中有机碳源不足造成的脱氮效率不高的问题,向人工湿地中投加植物碳源用以改善人工湿地内部碳氮比低的状况。通过比较芦苇秸秆、梧桐树皮、梧桐树叶、玉米芯4种植物碳源分解时有机物、氮元素的释放规律,从而确定玉米芯为最佳植物碳源,并采用水平潜流人工湿地系统模型研究了投加玉米芯对人工湿地系统脱氮效果的影响。试验发现,空白湿地系统COD的平均去除率为38.71%,总氮的平均去除率为34.24%,玉米芯湿地系统则在保证COD平均去除率38.52%的同时,提高总氮平均去除率到70.55%,证明了植物碳源调控提高人工湿地脱氮效果的可行性与高效性。     

Nitrogen and phosphorus removal comparison between periphyton on artificial substrates and plant-periphyton complex in floating treatment wetlands

Environmental Science and Pollution Research - Artificial substrates (ASs) and floating treatment wetlands (FTWs) have been widely used in the treatment of polluted surface water. In fact,...     

Enhanced nitrogen removal in filled-and-drained vertical flow constructed wetlands: microbial responses to aeration mode and carbon source

Environmental Science and Pollution Research - For the purpose of enhancing the removal rate of nitrogen (N) and organic matters, intermittent aeration and carbon source were used in...     

组合人工湿地工艺微生物群落结构及脱氮效果研究

将复合垂直流、表面流、潜流3种不同类型的人工湿地串联起来,研究每种人工湿地的脱氮微生物及其脱氮效果.结果表明,各种人工湿地池填料表面微生物数量丰富,组合人工湿地系统形成两个串联的A/O单元,脱氮效果良好,其中总氮去除率达82.61%.     

Enhanced organics and nitrogen removal in batch-operated vertical flow constructed wetlands by combination of intermittent aeration and step feeding strategy

Oxygen and carbon source supply are usually insufficient in subsurface flow constructed wetlands. Simultaneous removal of organic pollutants and nitrogen in five batch-operated vertical flow constructed wetlands under different operating conditions was investigated. Alternate aerobic and anaerobic regions were created well with intermittent aeration. Four-month experiments showed that the wetland-applied intermittent aeration combined with step feeding strategy (reactor E) greatly improved the removal of organics, ammonium nitrogen (NH₄–N), and total nitrogen (TN) simultaneously, which were 97, 96, and 82 %, respectively. It was much better than non-aerated reactors A and B and outperformed intermittently aerated reactor D without step feeding. Continuous aeration (reactor C) significantly enhanced the organics removal and nitrification, but it limited the TN removal (29 %) seriously as a result of low denitrification level, and the high operation cost remained a question. The effect of plants was confirmed in this study, and the monitoring data showed that the plants could grow normally. Intermittent aeration as well as step feeding had no obvious influence on the growth of wetland plants in this study.