曝气生物滤池不同填料处理河道污水的效果

曝气生物滤池处理河道污水,具有容积负荷大、处理效率高,占地面积小的特点,但除磷效果差.为了提高曝气生物滤池除磷效果和去除COD、NH3-N和Ss的能力,本文利用贝壳、珊瑚和经过盐酸处理的铝硅酸盐作为曝气生物滤池的填料来处理河道污水.试验结果表明:在pH为中性的条件下,贝壳和珊瑚填料不能去除河道污水的磷酸盐,但经过盐酸处理后的铝硅酸盐填料对河道污水磷酸盐的去除率可达到52.19%,与传统处理方法相比,去除率提高了30%以上;贝壳填料对COD、NH3-N和SS的去除率分别为52.73%、36.75%、53.04%,珊瑚填料去除率分别为57.29%、33.44%、51.03%,经过盐酸处理的铝硅酸盐填料去除率分别为49.29%、33.20%、64.94%;珊瑚填料处理COD效果最好,去除率达到57.29%,这与该填料具有较大的比表面有关;贝壳填料去除NH3-N效果最好,达到36.75%,但与珊瑚填料和铝硅酸盐填料相比,差异不大,最大极差仅3.55%;铝硅酸盐填料去除Ss的效果最好,达到64.94%,这可能与其颗粒小,比较致密有关.综合比较各种填料处理PO4-3-、COD、NH3-N和SS的能力,采用经过盐酸处理铝硅酸盐填料作为曝气生物滤池处理河道污水的填料是适宜的,其最佳水力停留时间为4 h.     

球形陶粒滤池对城市尾水净化效果研究

为明确以陶粒为填料生物滤池对尾水中主要营养物处理效果,选择球形陶粒滤池对城市尾水进行净化效果研究。试验在室温条件下采用水力停留时间约2 h,曝气量为0.4 L.min-1的陶粒曝气生物滤池装置对洛阳市某污水处理厂的尾水进行深度处理。研究结果表明：球形陶粒生物滤池对尾水中NH3-N去除效果良好,去除率达76%以上;同时该装置对TN,TP和COD具有同时去除作用。进一步研究陶粒对NH3-N吸附去除特征表明,其等温线吸附符合Freundlich Model,表明陶粒对NH3-N的吸附为多层吸附,且对NH3-N的吸附在5 h基本达到饱和吸附。     

水稻不同时期吸收的氮素的行为

为研究水稻不同时期吸收的氮素在其体内的行为，作者利用^15NH^4＋和^15NO3^-双标记，对Indica水稻亚种（品种Hinohikari）进行水培，在分蘖期、幼穗分化期、开花期施用，将培养液卢州）20mg／L的NH4NO3换成相同质量浓度的^15TH4NO3或NH4^15NO3；部分水稻在一周后收获，其他分别在分蘖期、幼穗分化期、开花期、成熟期收获。植株分成根系、地上部的底部、地上部的顶部、旗叶和穗部，对各自的全氮、^15N进行测定，计算植物的总吸收量。从施用量、植株总吸收量以及三部分总和的植株氮残存量的比较来研究氮素在两种水稻亚种中的行为。研究结果表明，各个时期的^15NH4NO3或NH4^15NO3处理下水稻的N吸收总量上没有差别，但1周后收获的^15NH4-N处理的水稻中^15N的含量比^15NO3-N要高得多，直到成熟期收获的水稻都有同样的结果，这意味着各个时期吸收的NH4-N和NO3-N有着不同的损失量，吸收的NO3-N比NH4-N要损失得多。水稻叶片的氮素损失可能以N2O和NH3的形式。不同氮肥形态的处理下转移到穗部的氮素的量和来源也不相同，在NH4^15NO3的处理中穗部的^15N主要来自地上部的底部，而在^15NH4NO3的处理中穗部的^15N主要来自分蘖期吸收的^15N，少量来自成熟期并且^15N主要来自植株的各个部分。     

生物膜法处理养殖废水的研究

室内模拟研究生物膜法处理养殖废水的效果及其影响因素。实验结果表明，连续曝气或者不曝气，生物膜法对养殖废水中的硝酸盐氮去除效果都很差。曝气条件下生物膜法对CODCrNH4^ -N、NO2^--N均有较好的净化效果，CODCrNH4^ -N、NO2^--N的去除率可分别达到79％、99％、99％；不曝气条件下生物膜法对CODCrH4^ -N、NO2^--N净化效果稍差，CODCrNH4^ -N、NO2^--N的去除率可分别达到78％、35％、76％。曝气会增加养殖废水中PO4^3 -P的质量浓度，增幅可达82％；不曝气时PO4^3 -P的去除率可达63％。投加复合菌株有利于生物膜的形成和处理效果的提高。     

雷州半岛旱地砖红壤非点源氮、磷淋溶损失模拟研究

大量施用化学肥料所引起的养分淋失和环境污染正逐渐受到人们的重视。通过土柱模拟氮、磷素养分淋溶试验．研究了不同施肥处理下砖红壤氮、磷素淋溶损失特点。试验结果表明，随着尿素用量的增加，渗漏水中NH4^＋-N质量浓度和TN淋失量也相应增加，而NO3^--N的质量浓度变化幅度较大，渗漏水中氮素淋失形态主要是以NO3^--N为主。由于土壤磷素很难移动，所以TP累积淋失量非常少，氮、磷肥混施对非点源氮、磷素的淋失都有影响，其中过量磷肥配合尿素施用可以增加土壤中NH4^＋-N、NO3^- -N、TN的淋失程度。     

多级蚯蚓生态滤池处理生活污水研究

采用多级蚯蚓生态滤池对生活污水进行处理研究,考察多级蚯蚓生态滤池对污水中各类污染物的去除效果.试验结果表明,多级蚯蚓生态滤池连续运行80d,滤池对CODCr、NH4+-N和TP的去除效果良好,去除率分别为80.4%—98.6%、95.5%—99.5%和93.7%—99.7%,出水水质符合要求.但是滤池对TN去除效果不稳定,不加碳源TN去除率降低,最低为26.0%左右,添加碳源后TN去除率维持在60%左右.其中进水中C/N比为3.07,出水中一级滤池、二级滤池和三级滤池的C/N比分别为1.56、0.88和0.72,沿程水样C/N比呈逐级下降的趋势.运行22d后,在二级滤池出水中添加葡萄糖调节C/N比为3—6,总氮去除率上升.对TN去除研究分析,推断出碳源不足是TN去除率降低的重要原因.相比单级的蚯蚓生态滤池,多级蚯蚓生态滤池生活污水处理的更加彻底,应用前景更加广泛。     

固定化藻膜去除水中氮磷的模拟研究

针对富营养化水体生物修复和污水深度处理氮磷的去除,将细颤藻、水绵、水网藻、栅裂藻固定在纤维填料上,形成固定化藻膜。用固定化藻膜处理模拟富营养化湖水、实际富营养化湖水、城市污水二级出水、低质量浓度生活污水,考察固定化藻膜去除氮磷的效果。实验结果表明,固定化藻膜具有良好的去除磷、氨氮能力,对水中有机物去除也有一定的促进作用。对TP质量浓度小于5.0mg·L-1,NH4 -N质量浓度小于34.0mg·L-1的污染水体,四种藻膜都有良好的去除氮磷能力,其中栅裂藻去除TP、NH4 -N的能力最强。综合除污能力和藻细胞的可固定性,水绵应是最佳的备选藻种。研究结果显示,固定化藻膜具有良好的除污性能,预示了悬浮载体将在水体生物修复、氧化塘污水处理方面具有重要的潜在应用价值。     

处理污水后陶粒作为栽培基质的试验

以秸秆-粉煤灰陶粒（比表面积为7．925m2·g-1）作为曝气生物滤池（BAF）载体填料,处理城市污水和餐饮废水,其COD、NH3-N和TP去除率分别为90．33％、77．44％、82．41％和86．50％、68．98％、80．30％。对处理污水后陶粒的农用资源化可行性进行评估,考察陶粒不同施用量对小白菜（Brassicachinensis）种子萌发、生长状况和产量的影响。结果表明,处理污水后陶粒的性能指标达到GB8172—87《城镇垃圾农用标准》;陶粒质量分数为20％时小白菜种子发芽率最高,且萌发较快,在5d时达到100％;随陶粒施用量增加,小白菜长势更好,产量大致呈增加趋势,陶粒质量分数为80％时增产率最高,为352．51％。但陶粒施用量越高,栽培基质抗干旱能力越差,陶粒质量分数为20％和40％处理具有较好的土壤保湿效果。     

垃圾渗滤液组合工艺处理技术

针对垃圾渗滤液氨氮浓度高、COD浓度高、难降解物质含量高的特点,研究了MAP脱氮-生物处理-混凝组合工艺,考察了不同单元的作用及影响处理效果的因素。试验结果表明,高浓度的垃圾渗滤液经该优化组合工艺处理,污染物的去除率为COD97.5%、BOD599.2%、NH4-N87.2%、E26075.3%。除NH4-N外,其余指标均达到了生活垃圾填埋污染控制标准中规定的二级排放标准值。     

天然沸石对农田退水中氨氮的去除

利用静态吸附实验研究了沸石颗粒大小、氨氮初始浓度、接触时间及Na+离子浓度等因素对天然白银沸石去除模拟黄灌区农田退水中氨氮(NH4+-N)效果的影响,同时研究了吸附等温线特征,并考察了其吸附机理.研究结果表明,沸石颗粒大小、接触时间及NH4+和Na+初始浓度对NH4+-N交换容量都会产生一定影响;根据复相关系数(R2),NH4+-N的吸附等温线更符合三参数等温线模型;而对于两参数等温线模型,Langmuir模型比Freundlich模型能更好地描述NH4+-N在天然沸石上的离子交换过程;NH4+-N吸附实验数据与Elovich模型拟合最好(R2≥0.9766).研究结果表明了天然白银沸石是一种适合NH4+-N去除的离子交换剂,可用于黄灌区农田退水中NH4+-N的去除.     

固氮菌与氮配施对生菜及油菜产量和品质的影响

采用盆栽试验研究了固氮菌(M)与氮(N)配施对生菜、油菜产量和品质的影响.结果表明:施加固氮菌(M2)后,生菜、油菜的鲜重和干重较之不加固氮菌(M1)有显著增加趋势,生菜、油菜的Vc含量分别提高4.2%~18.6%、17.6%~35.0%,还原糖含量分别提高17.6%~35.0%、6.7%~41.3%,硝酸盐含量分别降低40.5%~57.2%、22.8%~40.8%.在所有处理中,处理M2N3的两种蔬菜产量最高,品质最好.研究可为固氮菌肥的合理有效施用、氮肥的优化配比及叶菜类蔬菜高产优质的生物调控提供理论依据.图1表3参13     

灰泥土中不同氮肥品种反硝化损失与N2O排放量的差异

在实验室培养条件下，采用土壤培养-乙炔抑制法测定尿素、碳酸氢铵、硫酸铵和氯化铵4种氮肥品种在灰泥土中反硝化损失和N2O排放量的差异。结果表明，氮肥品种间的N2O排放量和反硝化损失量存在极显著差异。尿素、碳铵和氯化铵的N2O排放量极显著高于硫铵，占施肥量的3．88%-4．14％；尿素和碳铵的反硝化损失量分别为施肥量的5．8％和3．7％，极显著高于硫铵和氯化铵；但氯化铵的反硝化损失量显著低于CK。     

Combinatorial effects of distillery and sugar factory effluents in crop plants

Under the reutilization and recycling strategy of industrial effluents, treated distillery and sugar factory mixed effluent was used in petridish culture experiments to investigate its effect on seed germination and seedling growth in wheat, garden pea, black gram and mustard. The seed germination and seedling growth were significantly reduced with increase in concentration of the effluent. The fresh matter was found significantly increased in barley (1.16 g per seedling in 25% dilution level of effluents in comparison to 0.93 in control), while other higher dilution levels reduce it. Wheat, garden pea, black gram, mustard invariably showed inhibition in fresh weight. Dry weight was found consistently reduced or unchanged in different treatments. Total chlorophyll contents in barley were significantly increased in different treatments (2.351 and 2.721 mg/g fresh weight of tissue at 25, 50% dilution levels in comparison to 1.781 of control) while in other crop it was reduced alloverthe treatments. Amylase activity in wheat, garden pea, black gram and mustard was reduced in all the treatments. Only in barley its level was enhanced from 0.76 to 0.85, 0.96, 0.81 in 25, 50, 75% dilution levels of the effluent mixture respectively Based on the data of different crops barley was found to be highly tolerant as the 25 and 50% dilution levels of combined effluents. It showed no change in germination %, while seedling growth was increased in lower dilution levels of combined effluent as compared to control Barley>garden pea>wheat>black gram>mustard gradually showed increased level of sensitivity respectively Most detrimental effects were seen in mustard. This toxicity might be due to excess of nutrients, beyond the limits of tolerance. Therefore, the higher concentration of mixed effluent was not advisable for irrigation purpose, however it could be used for irrigation purpose after proper treatment and dilution (one part treated effluent and five parts of available irrigation water), as this dilution level was found growth and yield promotory     

秸秆与氮肥配施对辽西旱区土壤酶活性与土壤养分的影响

通过田间试验研究了玉米（Zea mays L.）秸秆与氮肥配施对耕层土壤酶活性及土壤养分的影响。试验设4个秸秆还田量水平,2个施氮量水平。结果表明：在秸秆配施氮肥条件下,耕层土壤中性磷酸酶、脲酶、转化酶和过氧化氢酶活性以及有机质和全氮质量分数均表现为随着玉米秸秆还田量的增加而提高,而硝态氮（3NO-N）和铵态氮（＋4NH-N）质量分数则表现为随着玉米秸秆还田量的增加而减少,4种土壤酶活性与土壤有机质和全氮质量分数均呈显著正相关,与土壤硝态氮和铵态氮质量分数则呈显著负相关。玉米秸秆还田量9 000 kg.hm-2配施氮肥量420 kg.hm-2是辽西风沙半干旱区效果较好的技术措施。     

Recovering humic substances from the dewatering effluent of thermally treated sludge and its performance as an organic fertilizer

The biologic treatment of the dewatering effluent from thermally treated sludge is difficult due to the high concentration of refractory humic substances. On the other hand, humic substances are an important source of organic fertilizer. In this study, a novel process using ferric coagulant was developed to recover humic substances from dewatering effluent for use as an organic fertilizer. When ferric coagulant was applied to raw dewatering effluent, up to 70% of humic substances were enmeshed by hydrolyzed ferric ions at an optimum pH of 4.5. The proper mass ratio of iron ions to humic substances was 0.6. In the recovered material, humic substances accounted for 24.2% of the total dry solids, and the amount of phosphorus (equivalent phosphorus pentoxide) was 6.2%. Heavy metals and other components all met the legal requirements for organic fertilizer. When the recovered material was applied to soybeans, the germination and growth of the seeds was significantly improved.     

加勒比松幼林追肥试验研究

加勒比松1a生幼林氮磷钾不同配比的追肥试验表明,追肥后6a,肥效都极显著;其中以第2a的效果最显著,最大树高、胸径、材积分别比不追肥增加39．1％～52．6％、45．4％～109．3％和34．1％～405．6％;6a后肥效下降,但追肥仍比不追肥的树高、胸径、材积增长8．7％～20％、10．9％～17．9％、31．5％～54．7％。氮磷钾配合施用的效果最佳,施氮磷而缺钾有负效应。当氮磷钾相同配比（N30P30K30）时有特殊的低效应。     

模拟稻田中氮磷的变化特征及其降污潜力分析

为研究稻田中氮磷的变化特征和降污潜力,采用室外微区模拟稻田春耕施肥耕整试验,在3、6cm和9cm等3个不同蓄水深度处理（分别表示为t-3、t-6、t-9）条件下,对稻田氮磷含量变化的动态特征及降污潜力进行了探讨。田面水氮磷质量浓度变化与土壤中氮磷的流失密切相关。土壤扰动、基肥（缓释肥）的释放、硝化-反硝化作用、悬浮颗粒物（SS）的物理沉降等综合因素的影响,是导致田面水氮磷质量浓度变化呈先升后降趋势的主要原因。在蓄水处理后1周内,各处理的田面水氮磷质量浓度大小顺序为：Ct-3〉Ct-6〉Ct-9,总氮（TN）、总磷（TP）质量浓度与蓄水深度呈显著的负相关（Y=-33.97x＋133.4,R2=0.999和y=-0.115x＋0.61,R2=0.994）。春耕插秧时,因水分管理要求,需要立即排水,相对于蓄水3cm的常规水分管理,若能蓄水9cm后再排放,可减少排放总氮45.57%~86.88%、总磷33.02%~62.79%;若蓄水6cm再排放,可减少排放总氮35.76%~72.13%、总磷9.88%~50%。但考虑到＂浅水活苗＂之实际,以人工蓄水5~6cm较为适宜。另外,在蓄水5~6cm的前提下,于第5d或第7d排水,减排降污效果显著;第5d排水,相比第3d排水,可减少排放总氮21.22%~55.41%、总磷67.67%~83.70%。从稻田春耕生产实际要求和降污效能综合考虑,选择6cm的蓄水深度并在第5d排水,是提高稻田减排降污潜力的农艺措施之一。     

Feedforward control for nitrogen removal in a pilot-scale anaerobic-anoxic-oxic plant for municipal wastewater treatment

To improve the efficiency of nitrogen removal with lower energy consumption, the study of feedforward control was carried out on a pilot-scale anaerobic-anoxic-oxic (AAO) plant for the treatment of municipal wastewater. The effluent qualities of the pilot plant under different control strategies were investigated. The results indicated that the change of external recycle was not a suitable approach to regulate the sludge concentration of plug-flow reactors; adjusting the aeration valve and dissolved oxygen set-point according to ammonia load could overcome the impact of influent fluctuation; and the denitrification potential could be estimated based on the transit time of anoxic zone and the relative content of carbon resource entering the anoxic zone. Simple feedforward control strategies for aeration and internal recycle were subsequently proposed and validated. The nitrogen removal was successfully improved in the pilot plant. The effluent total nitrogen had decreased by 29.9% and was steadily controlled below 15 mg·L^-1. Furthermore, approximately 38% of the energy for aeration had been saved.     

Influence of aeration intensity on the performance of A/O-type sequencing batch MBR system treating azo dye wastewater

Among the numerous parameters affecting the membrane bioreactor (MBR) performance, the aeration intensity is one of the most important factors. In the present investigation, an anoxic/aerobic-type (A/O-type) sequencing batch MBR system, added anoxic process as a pretreatment to improve the biodegradability of azo dye wastewater, was investigated under different aeration intensities and the impact of the aeration intensity on effluent quantity, sludge properties, extracellular polymeric substances (EPS) amount generated as well as the change of permeation flux were examined. Neither lower nor higher aeration intensities could improve A/O-type sequencing batch MBR performances. The results showed 0.15 m³·h^-1 aeration intensity was promising for treatment of azo dye wastewater under the conditions examined. Under this aeration intensity, chemical oxygen demand (COD), ammonium nitrogen and color removal as well as membrane flux amounted to 97.8%, 96.5%, 98.7% and 6.21 L·m^-2·h^-1, respectively. The effluent quality, with 25.0 mg·L^-1COD, 0.84 mg·L^-1 ammonium nitrogen and 8 chroma, could directly meet the reuse standard in China. In the meantime, the sludge relative hydrophobicity, the bound EPS, soluble EPS and EPS amounts contained in the membrane fouling layer were 70.3%, 52.0 mg·g^-1VSS, 38.8 mg·g^-1VSS and 90.8 mg·g^-1VSS, respectively, which showed close relationships to both pollutant removals and membrane flux.     

污水灌溉区土壤肥力及酶活性特征研究

通过野外调查和采样分析,研究了石家庄栾城县不同污水灌溉时间（0-52a）和不同层位（0-100cm）耕地土壤肥力及酶活性的分布特征。研究结果表明：与清灌对照点相比,污水灌溉区表层（0-20cm）土壤有机质含量、全氮含量、全磷含量、蔗糖酶活性、脲酶活性和磷酸酶活性、亚表层（20-40cm）蔗糖酶活性、磷酸酶活性和下层（40-60cm）蔗糖酶活性均相对较高,而下层有机质含量、全氮含量和底层（60-100cm）全氮含量均相对较低。4层土壤阳离子交换量和过氧化氢酶活性较对照点均无明显的变化规律。表层土壤全氮含量、蔗糖酶活性和磷酸酶活性、亚表层有机质含量、蔗糖酶活性和磷酸酶活性、下层蔗糖酶活性与污灌时间之间均存在显著相关性沪〈0．05）。上述特征反映了土壤肥力及酶活性对污灌的响应具有明显的层位效应和非同步性,而这些响应是由于污水中的营养物质输入土壤后引发微生物活性提高的“激发效应”所致。