共查询到19条相似文献,搜索用时 484 毫秒
1.
活性污泥微型动物群落结构优化的可控途径研究 总被引:4,自引:0,他引:4
优化活性污泥微型动物群落的结构实际就是从根本上优化活性污泥的运转效能。优化作用可从以下几个方面着手:为活性污泥中的微型动物提供适合其生长繁殖的运行参数;优化这些生物所需的营养;向活性污泥曝气池中投放微型动物。 相似文献
2.
3.
4.
用污泥生物指数评价活性污泥的运转效能 总被引:2,自引:0,他引:2
污泥生物指数(SBI)由对活性污泥混合液中微型动物群落结构的分析得出,用于评价活性污泥的运转效能.SBI为0~10的生物指数,分为4个质量等级,为一客观的指数.此方法的优点在于通过对微型动物的日常检验,就能对活性污泥的运行状况给出一量化且客观的评价. 相似文献
5.
一、概 述 微型动物(主要指原生动物与后生动物)是污水(废水)生物处理系统中生物种群的主要构成部分。它们虽然不是污水生物处理的主角,但人们从运转经验中发现,对微型动物种类和数量的观察可以起到指示生物处理状态的作用。此外,微型动物的存在还能有效地促进活性污泥或生物膜表面活性再生和处理水的澄清作用。 相似文献
6.
《环境工程学报》2016,(4)
通过投加多孔载体处理人工配制的生活污水,培养驯化活性污泥挂膜成功后,在稳定运行60 d内,对系统污泥减量效果以及其与载体中微型动物进行了研究。结果表明:系统剩余污泥真实产率为0.054 g SS/g COD,表观产率为0.045~0.052 g SS/g COD之间,剩余污泥真实产率与表观产率基本吻合,稳定运行期间,多孔载体中生物膜生长代谢良好;与传统活性污泥法比较,污泥减量效果明显;固着型纤毛虫和后生动物数量的变化,对剩余污泥浓度影响较大;筛选具有代表性微型动物与系统中剩余污泥浓度进行了相关分析,发现其中钟虫和红斑瓢体虫相关系数最大,分别为0.915和-0.813,可作为剩余污泥浓度的指示性微生物。 相似文献
7.
研究了实验室模拟条件下添加霍甫水丝蚓(Limnodrilus hoffmeisteri)对活性污泥水处理系统的影响.实验设对照组和实验组各一个,各设3个平行缸,实验组每缸添加水丝蚓100条,每个批次的实验周期为20 h,循环7d.结果显示,实验组和对照组的出水COD去除率分别为(69.6±1.7)%和(67.9±2.5)%,两者无显著差异;实验组和对照组的活性污泥沉降比SV(%)分别为(16.39±0.30)%和(16.98±0.46)%,活性污泥浓度MLSS分别为(2.48±0.16)g/L和(2.61±0.12)g/L,活性污泥指数SVI分别为(66.35±3.51)和(65.19±2.57)mL/g,两组的SV和MLSS差异显著,说明添加水丝蚓在短期内起到减少污泥量、提高污泥沉降性能的作用.添加霍夫水丝蚓短期内不影响微型动物的种类组成,但使原生动物总密度下降.实验组和对照组污泥生物指数SBI均为7,质量等级为Ⅱ.上述结果可为剩余污泥减量化应用提供参考依据. 相似文献
8.
《环境工程学报》2018,(12)
为实现活性污泥高效脱水和资源化利用,研究了微波耦合氯化铁调理活性污泥。主要考察微波耦合氯化铁对活性污泥脱水性能和热值的影响。微波辐射能够改善活性污泥的脱水性能,优化参数为功率700 W、时间100 s。微波耦合氯化铁调理进一步增强了活性污泥的脱水性能,先投加氯化铁后微波辐射的调理(氯化铁+微波)效果优于先微波辐射后投加氯化铁的调理(微波+氯化铁)效果,脱水效果的改善得益于活性污泥絮体的增大以及EPS的减少。微波调理后的活性污泥(干基)热值随着微波辐射时间的增长逐渐降低,而微波耦合氯化铁调理后的活性污泥(干基)热值随着氯化铁投加量的增加先增加后减少。 相似文献
9.
采用序批式投加剩余污泥方式,连续34d考察了膜生物反应器(MBR)工艺的污泥减量效果,研究了MBR中微型动物种类与数量的变化规律以及生物捕食作用对污泥减量效果的贡献.研究发现,MBR中出现密度较高的原生动物和后生动物共13种,其中以红斑顠体虫平均密度最高,达到了338.5个/mL;MBR在运行过程中,MBR内的微型动物呈现出“纤毛虫—轮虫—红斑顠体虫”的演替变化规律;MBR内的污泥减量效果与微型动物的种类和数量有关,在试验初始阶段,MBR内污泥质量保持相对稳定,之后随着MBR内红斑顠体虫的快速增殖,开始大量生物捕食其他原生动物和轮虫,MBR内微型动物总量降低,导致试验后期(运行约20 d后)MBR内的污泥质量迅速增加,可见保持MBR内原生动物和后生动物种类与数量的相对稳定是MBR工艺能够长期实现污泥减量的关键.整个试验期间,向MBR中投加的待处理污泥总量为126.9 g,污泥累积减少量为100.2 g,污泥总减量率为78.96%,其中生物捕食作用引起的污泥累积减少量占总的污泥累积减少量的73.9%,是MBR工艺实现污泥减量的主要贡献者. 相似文献
10.
活性污泥体系中聚糖菌的富集与鉴定 总被引:3,自引:0,他引:3
活性污泥体系中,聚糖菌(GAOs)在厌氧环境下与聚磷菌(PAOs)形成对底物的竞争关系,对聚糖菌的研究对于优化生物除磷工艺有重要意义。以葡萄糖为惟一碳源,在磷限制条件下,利用特殊运行方式对活性污泥进行驯化培养出了稳定的聚糖菌颗粒污泥,厌氧阶段磷释放量与有机物吸收量浓度(mg/L)比从7.4%下降为0.25%。从培养好的活性污泥反应器中分离获得2株聚糖菌,经菌落PCR和16S rRNA序列分析确定了所得聚糖菌菌株G1和菌株G2分别是枯草芽孢杆菌(Bacillus subtilis)和解鸟氨酸克雷伯氏菌(Klebsiella ornithinolytica)。 相似文献
11.
12.
利用微型动物削减剩余污泥量的研究 总被引:3,自引:0,他引:3
在污水的好氧生物处理过程中会产生大量的剩余污泥。污泥的浓缩、脱水、处理和处置需要花费大量的人力和物力 ,而且如果处置不当 ,很容易对环境造成二次污染。因此 ,最大限度减少剩余污泥的排放成为人们关注的问题。根据生态学的理论 ,加强微型动物对细菌的捕食作用 ,可使能量在从低营养级向高营养级传递过程中有一定的损失 ,同时污泥量得以减少。应用两段式生物反应器或者直接向曝气池中投加微型动物均可达到此目的。本文详细地介绍了这两种方法 ,讨论了各自的优点和不足 ,并指出了未来的发展方向 相似文献
13.
污水处理厂污泥干化焚烧处理可行性分析 总被引:5,自引:2,他引:3
以绍兴污水处理厂脱水污泥为研究对象,通过实验分析了污泥进行干化焚烧处理的可行性。对污泥泥质进行分析,采用桨叶式污泥干化机对污泥的热干化特性、干化过程污染排放特性进行研究,使用流化床污泥焚烧试验装置对污泥焚烧工况及焚烧过程中污染物的排放特征进行研究,结果表明,绍兴污水处理厂脱水污泥的泥质特征与大多数污水污泥类似,灰分较高、发热量较低,需干化后才可实现稳定燃烧;污泥在小型桨叶式污泥干化机内的干化速率最高达到0.6kg/(m2·min),并随污泥干化的进行而逐渐降低;干化过程产生的常规污染气体中氨气浓度最高,可达170 mg/Nm3;污泥干化冷凝水的COD高达820 mg/L,氨氮等指标也很高。污泥干化系统的设计需充分考虑污泥热干化过程中气体和液体污染物的排放,设置相应的处理设施。污泥干化至含水率30%时,可在不投加辅助燃料的情况下实现流化床焚烧炉内的焚烧处理,干化污泥焚烧时需关注烟气中常规污染气体和重金属的控制,焚烧灰渣浸出毒性未超过国标限值。 相似文献
14.
利用热重分析法对印染、中药和废水处理厂3种典型工业废水污泥进行了热解动力学实验研究。结果表明,工业污泥是一种高挥发分、低固定碳和低热值的劣质燃料。经过消化处理的污泥灰分含量较高,挥发分含量变小。热解过程中有3个失重速率较高的阶段,以挥发分的析出为主。升温速率对热解的最终失重率有重要影响。升温速率增加,热解更剧烈,但最终失重率的变化趋势与污泥种类有关;为使热解效果更好,不同种类的污泥应选择不同的升温速率。不同种类的污泥具有不同的热解特性,印染污泥挥发分析出阶段有2次热解。中药污泥活化能最小,印染污泥挥发分第2次热解的活化能比第1次大幅增加。 相似文献
15.
16.
Laturnus Frank von Arnold Karin Gr&#;n Christian 《Environmental science and pollution research international》2007,14(1):53-60
Goal, Scope and Background Sewage sludge produced in wastewater treatment contains large amounts of organic matter and nutrients and could, therefore,
be suitable as fertiliser. However, with the sludge, besides heavy metals and pathogenic bacteria, a variety of organic contaminants
can be added to agricultural fields. Whether the organic contaminants from the sludge can have adverse effects on human health
and wildlife if these compounds enter the food chain or groundwater still remains a point of controversial discussion.
Main Features This paper presents an overview on the present situation in Europe and a summary of some recent results on the possible uptake
of organic contaminants by crops after addition to agricultural fields by sewage sludge.
Results Greenhouse experiments and field trials were performed to study the degradation and uptake of organic micro-contaminants in
sludge-amended agricultural soil in crops, such as barley and carrots grown in agricultural soil amended with anaerobically-treated
sewage sludge from a wastewater treatment plant, but studies hitherto have revealed no immediate risks. Common sludge contaminants
such as linear alkylbenzene sulphonates (LAS), nonylphenol ethoxylates (NPE), polycyclic aromatic hydrocarbons (PAH), bis(diethylhexyl)
phthalate (DEHP), showed neither accumulation in soil nor uptake in plants.
Discussion It is assumed that the annual amount of sewage sludge produced in Europe will increase in the future, mainly due to larger
amounts of high quality drinking water needed by an increasing population and due to increasing demands for cleaner sewage
water. Application of sewage sludge to agricultural soils is sustainable and economical due to nutrient cycling and disposal
of sewage sludge. However, this solution also involves risks with respect to the occurrence of organic contaminants and other
potentially harmful contents such as pathogens and heavy metals present in the sludge. There have been concerns that organic
contaminants may accumulate in the soil, be taken up by plants and thereby transferred to humans via the food chain. Results
obtained so far revealed, however, no immediate risk of accumulation of common organic sludge contaminants in soil or uptake
in plants when applying sewage sludge to agricultural soil. With very high dosages of sewage sludge, there may be a risk for
accumulation of very apolar contaminants, such as DEHP, to the soil.
Conclusions Any conclusions on the safe use of sewage sludge in agriculture have to be drawn carefully, as the studies performed until
now have been limited. Further studies are required, and before final statements can be drawn, it is imminent to study a larger
variety of common crops and the effect sewage sludge application may have on a possible accumulation of organic contaminants
in the crops. Furthermore, a larger variety of organic contaminants need to be studied and special focus should be given to
contaminants newly introduced into the environment. Besides investigating possible plant uptake of organic contaminants, the
fate of these compounds in soil after sludge application need to be monitored too. Here, special attention has to begiven
to studies on degradation and the formation of degradation products, to weathering and to leaching effects on groundwater,
to the application of different crops on the same field (crop rotation), to the use of full-width tillage and strip tillage,
and to long term application of sewage sludge on the soil.
Recommendations and Perspectives There are environmental, political as well as economical incentives to increase the agricultural application of sludge. However,
such usage should be performed with care as there are also ways in which sludge fertilisation could harm the environment and
human health. Recently, a new European COST Action (859) has been established covering the field of food safety and improved
food quality. Part of the Action is dealing with the application of sewage sludge in agriculture. Before any political and
economical measures can be taken, the pros and cons have to be sufficiently investigated on a scientific level first.
ESS-Submission Editor: Prof. Elena Maestri (elena.maestri@unipr.it) 相似文献
17.
针对季节性氨氮和有机微污染水源,通过回流生物预处理后沉淀池生物污泥至絮凝池,进行常规生物强化处理。不同污泥回流比工况的中试实验表明,污泥回流比宜在1.5%~5%之间选取,回流比再加大,生物强化效应不会增加;相比不回流工况27.6%的CODMn平均去除率,在污泥回流比为1.5%、3%和5%的运行工况下,沉淀池出水相对于预处理出水CODMn的平均去除率分别为44.5%、44.1%和45.5%;同时,在1.5%~5%之间选取污泥回流比,絮凝剂投加量减少了17 mg/L,并且沉淀池出水浊度降低,氨氮去除率也有提高。 相似文献
18.
In this study, alum sludge was introduced to co-conditioning and dewatering with an anaerobic digested sludge from a municipal wastewater treatment plant, to examine the role of the alum sludge in improving the dewaterbility of the mixed sludge and also in immobilizing phosphorus in the reject water. Experiments have demonstrated that the optimal mix ratio for the two sludges is 2:1 (anaerobic digested sludge:alum sludge: volume basis), and this can bring approximately 99% phosphorus reduction in the reject water through the adsorption of phosphorus by alum in the sludge. The phosphorus loading in wastewater treatment plants is itself derived from the recycling of reject water during the wastewater treatment process. Consequently, this co-conditioning and dewatering strategy can achieve a significant reduction in phosphorus loading in wastewater treatment plants. In addition, the use of the alum sludge has been shown to beneficially enhance the dewaterability of the resultant mixed sludge, by decreasing both the specific resistance to filtration and the capillary suction time. This is attributed to the alum sludge acting in charge neutralization and/or as adsorbent for phosphate in the aqueous phase of the sludge. Experiments have also demonstrated that the optimal polymer (Superfloc C2260, Cytec, Botlek, Netherlands) dose for the anaerobic digested sludge was 120 mg/L, while the optimal dose for the mixed sludge (mix ratio 2:1) was 15 mg/L, highlighting a huge savings in polymer addition. Therefore, from the technical perspective, the co-conditioning and dewatering strategy can be viewed as a "win-win" situation. However, for its full-scale application, integrated cost-effective analysis of process capabilities, sludge transport, increased cake disposal, additional administration, polymer saving, and so on, should be factored in. 相似文献