共查询到11条相似文献,搜索用时 62 毫秒
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两级序批式MBR除磷特性实验研究 总被引:1,自引:0,他引:1
为解决常规MBR工艺中脱氮除磷矛盾问题,采用新的工艺形式——两级序批式MBR工艺(两级SBMBR),对该工艺的除磷特性进行了实验研究。研究结果表明,在系统稳定运行阶段,SBMBR1内聚磷菌优势生长,进水总磷得以高效去除,再通过SBMBR2内膜的进一步截留,系统TP平均值0.46 mg/L,满足城市景观环境用水水质要求;在沉淀期间,POAs的释磷作用对生物除磷系统的影响甚至超过了水中剩余悬浮富磷污泥颗粒本身的影响,所以在满足沉淀要求的前提下,生物除磷系统应注意尽量缩短沉淀时间。 相似文献
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垂直流人工湿地水力学特性研究 总被引:4,自引:2,他引:4
通过示踪剂实验从停留时间分布(RTD)曲线及其统计特征值等方面对垂直流人工湿地的水力学特性进行了定性和定量的分析。研究表明水流在垂直流人工湿地中的流动是一种非理想的不均匀流动,存在一定的死区和水流的扩散;垂直流人工湿地较大的死区率与其表面布水的不均匀性有关,这也可能是其死区率大于表流人工湿地的最主要的原因。实验还表明,进水流量对垂直流人工湿地停留时间分布影响较大,随着进水流量的增加,平均停留时间减小,但标准平均停留时间增大,死区率减小;当进水流量为15L/h(水力负荷为620mm/d)时,水流在湿地中的散度最大,水流更接近全混流,不利于污染物的降解。 相似文献
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以净化低污染水体的潜流人工湿地水力学特性工程设计为重点,系统开展了室内外实验研究,并利用Peelet数分析了水平潜流人工湿地碎石床渗流返混程度。结果表明,潜流人工湿地集水花管孔口出流计算、基质填料内渗流计算、碎石床平均水力停留时间计算可分别借鉴薄壁孔口恒定淹没出流、线性或非线性渗流、活塞流理论;但受工程实际条件及运行淤堵等影响,工程实测结果均小于理论计算值。基于室内外实验成果,提出一套包括集配水系统水力计算、填料内渗流计算、平均水力停留时间计算在内的潜流人工湿地水力学特性计算方法和参数选择,可为人工湿地技术的工程设计提供借鉴。 相似文献
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膜生物反应器内流场动力学特性的PIV实验研究 总被引:2,自引:0,他引:2
浸没式膜生物反应器系统内膜面附近的气液两相流动力学特性对控制浓差极化和膜污染具有重要影响。应用粒子图像测速(PIV)技术对浸没式膜生物反应器内近膜面的液相流场动力学特性进行了研究。采用相分离技术灰度分辨法将通过PIV技术得到的气液两相流场图像中的液相速度场进行辨别,得到膜面附近的液相流场数据,并应用Tecplot软件计算得出液相流的涡量特性。在3 mm曝气孔径,2.5、3.0、3.5、4.5、5.5和6.5 m3/h 6种曝气强度下分析了膜面附近的液相速度场和涡量场。结果表明,曝气强度对液相流场和涡量场的影响较大,在一定范围内增加曝气强度可以使得液相速度和涡量增加,同时,分析了3 mm孔径下圆帽状气泡的动力学特性。研究结果为膜生物反应器系统的优化设计提供了研究经验和实验数据。 相似文献
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Norman B. Akesson William E. Steinke Wesley E. Yates 《Journal of environmental science and health. Part. B》2013,48(4):785-814
Abstract The use of formulation adjuvants to increase the drop size of pesticide sprays has followed a practice which has evolved through many years of experimentation and development. The earliest materials used were simply designed to make the spray mix viscous on the premise that a mayonnaise‐like fluid would produce larger drops and hence increase the deposit efficiency. These viscomer materials, emulsions and water soluble thickeners such as starch and agars, as well as more complex cellulose materials, produced thick non‐Newtonian fluids which were difficult to mix, pump and spray, and provided questionable results. First, the larger drops reduced target coverage from a given volume of spray; and second, field tests with these definitely showed that a large volume of small drops were still being produced even with the thickest of formulations. The next step in adjuvant evolution was the introduction of polyvinyl, polyacrylamide and polyamide elastomer materials. These polymers are also non‐Newtonian, but due to their peculiar molecular bonding, they have the capability of forming long string‐like streams which when atomized can retract into a spray of large drops. Pure forms of these polymers are blended by commercial producers to enable compatibility with pesticide chemicals. We have conducted a series of laboratory and wind tunnel tests; first, to try and establish some physical parameters identifying their characteristics and second, to determine how these adjuvants affect atomization and the production of small drift‐prone drops (i.e., those smaller than 120 μm in diameter). Our results with the laboratory studies of physical properties and of the wind tunnel drop size tests have been inconclusive. The elastomer materials have relatively low viscosity (1.5 to 6 mPa.s) and reduced surface tension (50 to 60 mN/m) but our stream‐flow extension tests were non‐productive. The drop size studies comparing water sprays with polymer‐water mixtures gave us a mixed picture. Generally drop size was increased for all of the fan (deflector and milled orifice) and cone type atomizers. But an increase was also indicated of the volume of spray in drops less than 120 μm showing that the polymer did not fully control the production of these small drops under all of the testing procedures we studied. It is difficult to evaluate the capability of these additives for controlling or reducing production of the drift‐prone small drops. While the pure solutions of the water soluble polymers would appear to be capable of this desirable effect, it is also evident that in order to make these formulations compatible with pesticide spray solutions, several other solvents, emulsifiers and surface active chemicals are added to the formulation, thus affecting the atomization characteristics and hence their drift‐control capability. 相似文献
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板材类生物质燃烧及动力学特性热重研究 总被引:3,自引:0,他引:3
采用非等温升温法研究了4种板材类生物质在空气气氛下的燃烧特性和动力学特性。通过对TG、DTG等曲线的分析,发现4种板材燃烧过程均可分成3个阶段,即水分蒸发阶段、挥发份析出(或燃烧)阶段和固定碳燃烧阶段。综合燃烧特性:松木集成材>纤维密度板>夹芯胶合板>刨花板。4种板材均具有良好的燃烧特性。4种生物质燃烧均存在1个吸热峰和2个放热峰,分别与挥发分析出峰、挥发分燃烧、固定碳燃烧对应。采用Fridman法和Fridman-Carroll法分别对4种板材的动力学参数进行了计算,2种方法得出的结果符合较好。分析得出:由于生物质燃烧与环境换热、挥发分析出吸热、固定碳燃烧放热等因素作用,4种生物质的表观活化能高温区均低于低温区。动力学计算结果表明:松木集成材平均表观活化能最低,燃烧反应能较容易进行。 相似文献
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氧化沟工艺被广泛应用于脱氮除磷系统,其沟宽和流速均相等,这使得缺氧段和微孔曝气段因水流连续性均有相同的不沉降水平流速,造成曝气区流速高,推进能耗大。基于节能理念,为验证氧化沟变速的可行性,对中试变速氧化沟进行实际流速测定,结果表明,变速氧化沟在沟宽0.4 m处,其断面平均流速约为0.15 m/s;在沟宽1.2 m处,其断面平均流速约为0.07 m/s,上述2种沟宽实际流速比值与其对应的理论流速比3∶1相比较小,但该结论验证了氧化沟变速的可行性。另外,对沟内易沉降点不同水深处沉降比和SS分布进行测定,未出现较大的差值,结合长期工艺表面观察未发现泥水分离和泥块上浮现象。 相似文献