气液两相旋流喷嘴雾化特性

为提高烟尘净化用喷嘴的雾化性能,提出一种气液两相旋流喷嘴,用CFX软件对该喷嘴内部流场模拟的结果表明,强烈的气旋作用使液流呈环状,使气液混合流在达到喷嘴末端时易于破碎成雾。在实验室条件下,利用Winner313型喷雾激光粒度分析仪对喷嘴进行了雾化粒度测定,分析发现雾滴中位径与气液比的关系呈幂函数衰减,这一规律将有助于在工程应用时确定喷嘴工况。     

改进钒基SCR脱硝催化剂的抗碱金属中毒性能

以锐钛矿型二氧化钛和钛钨粉(5%WO3-TiO2)为载体,制备了系列钒和钨负载量不同的钒钛催化剂,考察碱金属和碱土金属(钾、钠和钙)对催化剂在氨选择性催化还原(NH3-SCR)氮氧化物反应中催化活性的影响。钾、钠和钙对钒钛催化剂的中毒影响大小顺序为钾钠钙。提高钒钛催化剂中钒的含量可显著提高催化剂的SCR活性和抗碱金属中毒性能,但高钒负载量(4.5%V2O5)造成催化剂氮气选择性明显下降,氧化亚氮生成显著增加。钨的添加有利于提高钒钛催化剂的低温活性和抗碱金属中毒性能,对氮气选择性无明显影响。     

黄河兰州段悬移质泥沙对氨氮的吸附特性

实验研究了黄河兰州段不同粒径的悬浮泥沙对氨氮的吸附行为,拟阐释黄河兰州段水质自净的机制。通过分析探讨了含沙量、氨氮初始浓度、泥沙粒径和化学成分对氨氮吸附过程的影响。结果表明,准二级动力学方程和Langmuir模型能够较好地描述黄河兰州段不同粒径泥沙的吸附动力学和等温吸附过程(R20.9);含沙量对泥沙吸附氨氮作用具有显著影响,且氨氮吸附量和平衡时间与含沙量呈明显负相关性;氨氮初始浓度与氨氮吸附量及平衡时间呈正相关性;同时,泥沙颗粒越细,吸附氨氮的能力越强,吸附容量越大,反应的自发程度越高。此外,泥沙有机质、Fe2O3、Al2O3和MgO的含量随粒径减小而增大,它们对单位质量泥沙最大吸附量(Sm)具有正效应。泥沙的吸附在黄河兰州段水质自净过程中起着一定的促进作用。     

碳源对铜绿微囊藻生理特性及微囊藻毒素产率的影响

为研究水体中不同碳源对铜绿微囊藻生理特性的影响,以Na2CO3与葡萄糖分别作为铜绿微囊藻生长的无机碳源与有机碳源,将铜绿微囊藻于光照下进行培养,并对其一系列的生理特性与微囊藻毒素产率进行检测。实验结果表明,同等碳浓度下,有机碳源更能促进铜绿微囊藻的生长,经过30 d的培养,铜绿微囊藻在有机碳源中的产量为187.55 g,比其在无机碳源中的产量提高了6.06%;微囊藻毒素在有机碳源中的产量为969.00μg/g,而在无机碳源中的产量却升高至1 193.60μg/g。参与藻毒素合成的3种氨基酸在无机碳源中的浓度要比有机碳源中的浓度高,但是其余几种氨基酸的含量与之情况相反。而有机碳源培养的铜绿微囊藻总可溶性蛋白含量为387.00μg/g,比无机碳源培养的铜绿微囊藻的蛋白含量提高了93.60%。     

筛分法和显微镜法对矿化垃圾粒径分布的比较

为寻求合理有效的矿化垃圾粒径分布分析方法,分别采用筛分法和显微镜法两种测量手段对其进行比较研究。结果发现,两种方法所得的粒径分布结果差异较大,筛分法可能由于颗粒间静电吸附、聚合成团等因素影响而对小粒径颗粒区分能力较差,主要适用于大粒径颗粒的粒径分布测量(dp>100μm);显微镜法能够直观地观察到颗粒的显微图像,但测量时只是随机选择区域进行局部颗粒的测量,不宜分析粒度范围宽的样品,更适用于测量粒径较小的颗粒(dp<20μm)。     

零价铁与甲醇支持的生物-化学法去除富氧水中的硝酸盐氮

针对富氧水中硝酸盐氮(NO-3-N),采用零价铁(ZVI)和甲醇支持的生物-化学联合法开展了批实验研究,探讨了ZVI类型、CH3OH∶N比、初始溶解氧(DO)浓度、初始NO-3-N浓度和水温等5个因素对联合法除氧脱氮效果的影响。结果表明,ZVI的除氧能力由高至低依次为:ZVI-C(0.124 d)>ZVI-A(0.141 d)>ZVI-B(0.179 d)。ZVI支持的联合法NO-3-N去除率由高至低依次为:ZVI-A(99.6%)>ZVI-C(95.3%)>ZVI-B(92.2%)。CH3OH∶N≤3.5∶1时,联合法去除<52.0%的NO-3-N;CH3OH∶N=10∶1时,去除100%的NO-3-N;CH3OH∶N=200∶1时,去除70.2%的NO-3-N。当初始DO浓度介于3.6~5.3 mg/L之间时,联合法的NO-3-N去除率介于98.8%~99.6%之间。在任意时刻,低底物浓度(5.2 mg/L)时的NO-3-N去除率低于高浓度(21.1 mg/L)时的去除率;低底物浓度下完全脱氮所需时间比高浓度下长2 d。15.0℃时联合法需要7 d可以达到完全脱氮,然而在27.5℃时则需要5 d。低温时亚硝酸盐氮浓度最大值(4.4 mg/L)显著高于高温时的最大值(1.1 mg/L)。ZVI类型、CH3OH∶N、初始NO-3-N浓度和水温显著影响联合法的脱氮效果,而初始DO浓度对联合法的影响不大。     

微波无极紫外光催化降解茜素绿的性能研究及产物分析

以微波无极紫外灯为光源,P25型Ti O2为催化剂,研究了微波反应器中茜素绿(AG)的光催化降解性能,考察了染料初始浓度及p H对降解效率的影响,利用ESI电子喷雾质谱和离子色谱测定了茜素绿降解的中间产物,并对产物的可生化性进行了分析。结果表明,微波/紫外/二氧化钛体系拓宽了染料浓度和p H的适用范围。降解后生成了大量小分子物质,可生化性得到了大幅度的提高,BOD5/COD值从反应前的0.0959增加到了0.40。     

阳极氧化联合电-Fenton氧化深度处理垃圾渗滤液

采用多孔碳素阴极、Ti/SnO2-Sb2O5-IrO2阳极构建电化学氧化系统用于渗滤液的深度处理。研究结果表明,所构建的电化学氧化系统通过阳极氧化和电-Fenton氧化2种机制降解有机污染物;处理过程中阴极表面形成的沉淀物对TOC和COD的衰减也产生了影响。在阴极电位为-1.0 V、Fe2+初始浓度为0.5 mmol/L的条件下,电化学处理120 min获得了58%的TOC去除;处理480 min COD去除率为55%,NH3-N去除率为99%,TN去除率为60%,色度几乎被完全去除。GC-MS分析结果表明,渗滤液中以腐殖质类物质为主的有机化合物被降解为分子量相对较小的有机物,直至完全矿化。联合阳极氧化和电-Fenton氧化机制的电化学处理方法为垃圾渗滤液深度处理提供了新的选择。     

Vinegar residue compost as a growth substrate enhances cucumber resistance against the Fusarium wilt pathogen Fusarium oxysporum by regulating physiological and biochemical responses

Environmental Science and Pollution Research - Fusarium wilt caused by the fungus Fusarium oxysporum f. sp. cucumerinum (FOC) is the most severe soil-borne disease attacking cucumber. To assess the...     

Greenhouse gas emissions from dairy open lot and manure stockpile in northern China: A case study

The open lots and manure stockpiles of dairy farm are major sources of greenhouse gas (GHG) emissions in typical dairy cow housing and manure management system in China. GHG (CO₂, CH₄ and N₂O) emissions from the ground level of brick-paved open lots and uncovered manure stockpiles were estimated according to the field measurements of a typical dairy farm in Beijing by closed chambers in four consecutive seasons. Location variation and manure removal strategy impacts were assessed on GHG emissions from the open lots. Estimated CO₂, CH₄ and N₂O emissions from the ground level of the open lots were 137.5±64.7 kg hd^-1 yr^-1, 0.45±0.21 kg hd^-1 yr^-1 and 0.13±0.08 kg hd^-1 yr^-1, respectively. There were remarkable location variations of GHG emissions from different zones (cubicle zone vs. aisle zone) of the open lot. However, the emissions from the whole open lot were less affected by the locations. After manure removal, lower CH₄ but higher N₂O emitted from the open lot. Estimated CO₂, CH₄ and N₂O emissions from stockpile with a stacking height of 55±12 cm were 858.9±375.8 kg hd^-1 yr^-1, 8.5±5.4 kg hd^-1 yr^-1 and 2.3±1.1 kg hd^-1 yr^-1, respectively. In situ storage duration, which estimated by manure volatile solid contents (VS), would affect GHG emissions from stockpiles. Much higher N₂O was emitted from stockpiles in summer due to longer manure storage.

Implications: This study deals with greenhouse gas (GHG) emissions from open lots and stockpiles. It’s an increasing area of concern in some livestock producing countries. The Intergovernmental Panel on Climate Change (IPCC) methodology is commonly used for estimation of national GHG emission inventories. There is a shortage of on-farm information to evaluate the accuracy of these equations and default emission factors. This work provides valuable information for improving accounting practices within China or for similar manure management practice in other countries.