压力溶气气浮工艺中溶气效率测定方法述评

气浮工艺中溶气效率高低直接影响到回流水量的大小 ,即决定着运行费用的高低。对气浮工艺设计者和运营者来讲 ,达到并维持较高溶气效率是优先考虑的问题 ,而对新型气浮设备研发者而言 ,了解并确定其在不同工况下的溶气效率也是至关重要的。就已有溶气效率的测定方法进行了分类介绍与评价。     

改性蒙脱石复合材料在污水处理中的研究与应用

综述了蒙脱石的提纯、人工钠化、有机改性及改性蒙脱石在污水处理中的应用。通过实验证明了改性蒙脱石对垃圾渗沥液的色度去除率可以达到96%,对COD的去除率可以达到84%,且处理方法简单有效,成本低廉。     

pH对磷酸铵镁结晶介稳区、诱导期和反应速率的影响

以p H为控制参数,利用自组装激光测量装置测定了4、20、30和40℃时,磷酸铵镁在水溶液中的溶解度、超饱和度和介稳区宽度等基础数据,分析了不同温度和p H下磷酸铵镁结晶介稳区的变化规律,考察了p H对磷酸铵镁结晶诱导期和结晶反应速率的影响。结果表明,提高溶液的p H,可降低磷酸铵镁在水溶液中的溶解度和超饱和度,但同时磷酸铵镁结晶介稳区宽度有所增加;磷酸铵镁的溶解度和超饱和度随温度的升高呈现上升的趋势,而磷酸铵镁的结晶介稳区宽度则随温度的升高而变窄,提高溶液中MAP的物质浓度也会压缩结晶介稳区宽度;随着溶液p H的升高,磷酸铵镁的结晶诱导期逐渐缩短,同时其结晶反应速率也有明显的提升。在磷酸铵镁结晶除磷过程中,可以通过控制p H来优化反应工艺条件,促进磷酸铵镁结晶反应的进行。     

温州红壤的酸沉降临界负荷研究

本文简要介绍了以碱总量守恒为基础建立的兼能描述钙质与非钙质土壤长期酸化过程的动态模型（ＬＴＳＡＭ）,并利用该模型讨论了温州红壤的酸沉降临界负荷。结果表明,以硫沉降即酸沉降的硫沉降非酸沉降两观点分别来确定红壤的临界负荷,其值依次为３．９１与１．８４ｇ·ｍ＾－２·ａ＾－１,后者仅是前者的４７％,差异显著应加以区别。     

新型气浮装置ES-DAF中气泡粒径分布的表征

对EsDAF气浮装置进行了研究.该装置取消了溶气灌,在循环泵的压水管和吸水管之间装有一个射流器和一个静态混合器进行吸气和溶气.采用显微摄像系统,对该装置中气泡粒径分布进行了探讨.结果表明,当环流比由10%增加到40%时气泡平均粒径由52.9μm降低到40.9μm,当表观气水比由12%降低到4%时,气泡平均粒径由55.9μm降低到40.1μm.这说明提高溶气系统中的紊流强度能够形成更多的原始气泡核位,从而可以形成更小的气泡随着溶气压力由300kPa增加到600kPa,气泡粒径分布曲线变低变宽说明压力的升高加剧了气泡的碰撞与并聚作用.     

模拟氮沉降对森林土壤有机物淋溶的影响

在重庆铁山坪马尾松林内施加与大气氮沉降量相当的硝酸铵(NH4NO3)和硝酸钠(NaNO3),研究氮沉降加倍对土壤溶液可溶性有机物浓度的影响,分析氮沉降对森林土壤碳库的潜在作用.2005年起为期5a的现场观测表明,施氮后凋落物层土壤溶液的可溶性有机碳(DOC)浓度和通量在起初2a内与对照样区相比有明显升高,但之后反而降低.施氮还会降低凋落物层土壤溶液的DOC与DON(可溶性有机氮)比值,以及矿质土壤上层的DOC浓度,但对矿质土壤下层的DOC淋溶通量几乎没有影响.总体来看,在试验期内氮沉降对土壤碳库无显著影响,但土壤有机物可能有从富碳有机物向富氮有机物转化的趋势,氮沉降的成分(NH4+和NO3-)对土壤有机物的影响则没有明显差异.     

氮素在包气带与饱水层迁移转化的实验研究

为研究浑河流域沈阳城区段岩土中氮污染物形态的区域特征,从模拟污染来源、污染途径和污染介质的差异着手,通过2个土柱的动态实验,观察含氨氮污水在经过地下包气带与饱水层时的不同转化过程. 依据研究区域水文地球环境化学特征,动态实验过程的监测指标包括氨氮,硝酸盐氮,亚硝酸盐氮,总铁,锰离子,高锰酸盐指数,pH,E_h值和ρ(DO)等. 结果表明:在土柱Ⅰ包气带通气性良好的环境中,硝酸盐氮是污染地下水的氮素主要存在形态;在土柱Ⅱ饱水岩层缺氧的还原性环境中,氨氮是污染地下水氮素的主要存在形态;区域水文地球化学场及其岩层的岩性决定了氮的存在形态.      

Dynamics of soil inorganic nitrogen and their responses to nitrogen additions in three subtropical forests, south China

Three forests with different historical land-use, forest age, and species assemblages in subtropical China were selected to evaluate current soil N status and investigate the responses of soil inorganic N dynamics to monthly ammonium nitrate additions. Results showed that the mature monsoon evergreen broadleaved forest that has been protected for more than 400 years exhibited an advanced soil N status than the pine （Pinus massoniana） and pine-broadleaf mixed forests, both originated from the 1930＇s clear-cut and pine plantation. Mature forests had greater extractable inorganic N pool, lower N retention capacity, higher inorganic N leaching, and higher soil C/N ratios. Mineral soil extractable NH4^＋-N and NO3-N concentrations were significantly increased by experimental N additions on several sampling dates, but repeated ANOVA showed that the effect was not significant over the whole year except NH4^＋-N in the mature forest. In contrast, inorganic N （both NH4^＋-N and NO3^--N） in soil 20-cm below the surface was significantly elevated by the N additions. From 42% to 74% of N added was retained by the upper 20 cm soils in the pine and mixed forests, while 0%-70% was retained in the mature forest. Our results suggest that land-use history, forest age and species composition were likely to be some of the important factors that determine differing forest N retention responses to elevated N deposition in the study region.     

小兴凯湖表层底泥磷吸附容量及潜在释放风险

利用沉积物磷吸附指数(PSI)和磷吸附饱和度(DPS)研究了小兴凯湖表层沉积物的磷吸附容量,分析了沉积物中磷的吸附饱和度(DPS)与其他指标的相关关系,并讨论了不同采样点湖泊沉积物中磷的潜在释放风险.结果表明:13个采样点的表层沉积物的PSI为9.78~197.53(mg?L)/(100g?μmol),平均值为59.77(mg?L)/(100g?μmol);DPS为9.95%~24.47%,平均值为15.41%.PSI与草酸铵提取的磷(Pox)极显著正相关,与草酸铵提取的铁、铝(Feox,Alox)显著正相关,草酸铵提取的铁是影响PSI的主导因素;DPS主要受沉积物中原有吸附态磷的影响.此外,磷释放风险指数(ERI)8.99%~129.94%的计算结果表明:小兴凯湖表层沉积物中磷释放诱发富营养化的风险处于高度风险范围,其中,受农业面源污染影响较大的北岸区域相比其他区域发生富营养化的风险更高.     

Refinement of the density-modified displacement method for efficient treatment of tetrachloroethene source zones

A novel method to remediate dense nonaqueous phase liquid (DNAPL) source zones that incorporates in situ density conversion of DNAPL via alcohol partitioning followed by displacement with a low interfacial tension (IFT) surfactant flood has been developed. Previous studies demonstrated the ability of the density-modified displacement (DMD) method to recover chlorobenzene (CB) and trichloroethene (TCE) from heterogeneous porous media without downward migration of the dissolved plume or free product. However, the extent of alcohol (n-butanol) partitioning required for in situ density conversion of high-density NAPLs, such as tetrachloroethene (PCE), could limit the utility of the DMD method. Hence, the objective of this study was to compare the efficacy of two n-butanol delivery approaches: an aqueous solution of 6% (wt) n-butanol and a surfactant-stabilized macroemulsion containing 15% (vol) n-butanol in water, to achieve density reduction of PCE-NAPL in two-dimensional (2-D) aquifer cells. Results of liquid-liquid equilibrium studies indicated that density conversion of PCE relative to water occurred at an n-butanol mole fraction of 0.56, equivalent to approximately 5 ml n-butanol per 1 ml of PCE when in equilibrium with an aqueous solution. In 2-D aquifer cell studies, density conversion of PCE was realized using both n-butanol preflood solutions, with effluent NAPL samples exhibiting density reductions ranging from 0.51 to 0.70 g/ml. Although the overall PCE mass recoveries were similar (91% and 93%) regardless of the n-butanol delivery method, the surfactant-stabilized macroemulsion preflood removed approximately 50% of the PCE mass. In addition, only 1.2 pore volumes of the macroemulsion solution were required to achieve in situ density conversion of PCE, compared to 6.4 pore volumes of the 6% (wt) n-butanol solution. These findings demonstrate that use of the DMD method with a surfactant-stabilized macroemulsion containing n-butanol holds promise as an effective source zone remediation technology, allowing for efficient recovery of PCE-DNAPL while mitigating downward migration of the dissolved plume and free product.