ClO2治理医院污水性能参数的研究

研究了ClO2作为消毒剂在去除医院污水中总大肠菌群数(CFU)时的性能参数.实验结果表明,ClO2加入量为5-8 mg/L、温度为20-30℃、接触时间为30-60min、pH为7.8-8.5、填料为组合型,是ClO2去除CFU的最优参数,可使污水中CFU降至500个/L,达到国家一级排放标准(GB8978-1996).同时,分析了各参数对CFU去除率的影响.     

紫外-Fenton试剂的作用机理及在废水处理中的应用

本文研究了紫外光、铁离子对过氧化氢的催化分解作用.证实了紫外光和铁离子对过氧化氢的催化分解存在协同效应,并通过研究三价铁离子与紫外光的相互作用,探讨了协同效应产生的机理.UV-Fenton试剂对硝基苯、十二烷基苯磺酸钠(DBS)模拟废水的处理结果表明:将紫外光引入Fenton试剂可大大提高Fen-ton试剂的氧化性能,对生物难降解或难化学氧化的有机污染物具有良好的处理效果.     

生物接触氧化法应急处理原水突发性藻类污染

突发性藻类污染常常伴随着藻类的肆意滋生,从而严重影响着水厂的正常运行,更加威胁着居民用水的水质安全。采用弹性填料生物接触氧化工艺处理含藻原水,分析考察了不同水力停留时间、气水比和藻类浓度条件下反应器对藻类去除效果的影响。结果表明,最佳HRT为1.0 h,最佳气水比为1.2:1;采用最佳工艺条件处理叶绿素a(Chl-a)为70 mg/m3的高藻原水时,Chl-a、CODMn和NH4+-N的去除率分别达到65.48%、47.81%和70.54%,且CODMn和NH4+-N的出水浓度能够达到东深供水工程处理目标。说明在该最佳工艺条件下,原水中藻类能够被有效地控制和去除,出水水质稳定,工艺适应性强。     

The hierarchy and spatial characteristics of ecosystems: A reconsideration of the ecosystem concept (II)

This paper, based on the autonomy concept, continues to investigate hierarchical forms and spatial structure of ecosystems. The former can lead to limits for the selection of the component parts of an ecosystem and a distinction between its endogenous and exogenous variables; and the latter can be lead to a hypothesis of the space of an ecosystem: the space of an ecosystem = its habitat area + supporting area + impact area, and two characteristics of ecosystems, space-overlapping and the area of ecosystem space, have been further studied referring to human activities.     

长三角绿色技术创新网络结构特征与优化策略

绿色技术创新作为区域技术创新体系的重要组成部分,是维持区域发展可持续性、增强区域竞争优势的重要驱动力.基于区域一体化的研究视角,通过采集长三角绿色技术专利合作及绿色技术转移数据,运用Gephi复杂网络分析方法,对长三角绿色技术创新网络进行结构分析.结果 表明:(1)长三角绿色技术创新网络发育程度较低,大量城市在绿色技术创新网络中较边缘化;(2)绿色技术创新依赖创新主体间知识互动,地理邻近促进了创新合作行为的产生和知识的扩散;(3)长三角绿色技术创新网络"强-强联系"与"核心-边缘"结构特征明显,绿色技术专利合作网络呈现"一超多强"的多中心格局,绿色技术转让网络呈现单中心格局;(4)区域一体化下,长三角绿色技术创新网络兼具邻近性和等级性特征,不同类型城市参与创新网络应有差异;进而,提出长三角绿色技术创新网络优化策略.创新点在于:建立了区域一体化与技术创新网络的关联,探讨了绿色技术创新的空间组织形式,强调了地理邻近对于绿色技术创新网络的重要性.     

Soil-plant nitrogen isotope composition and nitrogen cycling after biochar applications

Environmental Science and Pollution Research - Biochar has strong potential to improve nitrogen (N) use efficiency in both agricultural and horticultural systems. Biochar is usually co-applied with...     

Individual and combined inhibition of phenol and thiocyanate on microbial activity of partial nitritation

This study evaluated the individual and interactive effect of phenol and thiocyanate (SCN⁻) on partial nitritation (PN) activity using batch test and response surface methodology. The IC₅₀ of phenol and SCN⁻ on PN sludge were 5.6 and 351 mg L⁻¹, respectively. The PN sludge was insensitive to phenol and SCN⁻ at levels lower than 1.77 and 43.3 mg L⁻¹, respectively. A regression model equation was developed and validated to predict the relative specific respiration rate (RSRR) of PN sludge exposed to different phenol and SCN⁻ concentrations. In the range of independent variables, the most severe inhibition was observed with a valley value (17%) for RSRR, when the phenol and SCN⁻ concentrations were 4.08 and 198 mg L⁻¹, respectively. An isobole plot was used to judge the combined toxicity of phenol and SCN⁻, and the joint inhibitory effect was variable depending on the composition and concentration of the toxic components. Furthermore, the toxic compounds showed independent effects, which is the most common type of combined toxicity.

     

In situ immobilization of cadmium in soil by stabilized biochar-supported iron phosphate nanoparticles

The potential for nanoscale phosphate amendments to remediate heavy metal contamination has been widely investigated, but the strong tendency of nanoparticles to form aggregates limits the application of this technique in soil. This study synthesized a composite of biochar-supported iron phosphate nanoparticle (BC@Fe₃(PO₄)₂) stabilized by a sodium carboxymethyl cellulose to improve the stability and mobility of the amendment in soil. The sedimentation test and column test demonstrated that BC@Fe₃(PO₄)₂ exhibited better stability and mobility than iron phosphate nanoparticles. After 28 days of simulated in situ remediation, the immobilization efficiency of Cd was 60.2 %, and the physiological-based extraction test bioaccessibility was reduced by 53.9 %. The results of sequential extraction procedures indicated that the transformation from exchangeable (EX) Cd to organic matter (OM) and residue (RS) was responsible for the decrease in Cd leachability in soil. Accordingly, the pot test indicated that Cd uptake by cabbage mustard was suppressed by 86.8 %. Compared to tests using iron phosphate nanoparticles, the addition of BC@Fe₃(PO₄)₂ to soil could reduce the Fe uptake of cabbage mustard. Overall, this study revealed that BC@Fe₃(PO₄)₂ could provide effective in situ remediation of Cd in soil.     

干化污泥对盐碱土土壤性能及植物生长的影响

研究了干燥后的污泥对盐碱土土壤理化性质及污染的影响,并在此基础上设置了盆栽试验,以观察不同泥土比中植物的生长情况。结果表明:干化污泥既能为作物生长提供有效养分,又能明显地提高土壤肥力。虽然施用污泥后土壤中的全盐量增加,但对所选取植物的生长影响较小;当泥土配比低于一定的比例时,污泥中的重金属不会对土壤造成污染。因此,在盐碱土壤中严格按照标准并合理控制干化污泥的用量可作为解决污泥问题的途径之一。     

基于MBBR技术的白酒窖底废水与低C/N生活污水协同处理系统的构建及功能微生物分析

为解决低C/N污水和高浓度白酒废水(HCBW)处理所面临的问题,采用移动床生物膜反应器(MBBR),构建了白酒窖底废水与模拟低C/N生活污水协同处理系统,以改性海绵填料和流化床填料分别探究HCBW作为反硝化外加碳源对低C/N生活污水处理的影响。结果表明：海绵填料协同处理系统(A1)对COD、${\rm{NH}}_4^+ $-N、TN和色度的平均去除率分别为91.29%、99.08%、89.81%和80.66%,流化床填料系统(A2)的平均去除率分别为90.51%、98.58%、75.73%和76.07%,改性海绵填料的去除效果优于流化床填料;混合废水经过MBBR系统处理后,${\rm{NH}}_4^+ $和TN得到了有效去除,出水中的醇类、硫酸盐和磷酸盐物质的相对比例有一定程度增加;协同处理系统A1和A2的硝化优势菌属均为Nakamurella、Nitrospira,反硝化优势菌属均为Amaricoccus、Dokdonella和Thermomonas,可能参与有机物去除的优势功能菌属均为Micropruina。通过功能预测得出：协同处理系统A1、A2中的主要代谢通路均为氨基酸代谢、碳水化合物代谢和能量代谢,主要的环境信息处理通路均为复制与修复和转译,主要的遗传信息处理通路均为膜运输。以上研究结果可为HCBW的资源化利用、低C/N生活污水处理提供参考。