有机物料对石灰性土壤磷素形态转化及吸附特性的影响研究

利用石灰性土壤,对猪粪(DR)、夏玉米秸秆(MR)和冬小麦秸秆(WR)单施或者与磷肥混施(在等磷量条件下)对土壤磷的吸附特性及其形态转化进行了为期15周的室内模拟培养研究.结果表明,无论是DR、MR和WR单施,还是有机物料与磷肥混施,都可以减少土壤对磷的吸附量,增加土壤磷的活性,其中有机物料单施处理的用NaHCO3或者NaOH提取的活性无机磷(Pi)和有机磷(Po)提高较大,顺序为:猪粪>夏玉米秸秆>冬小麦秸秆.夏玉米秸秆处理与对照(CK)相比NaHCO3提取的Pi、Po增加的量分别为6 0mg·kg-1,5 6mg·kg-1,NaOH提取的Po增加的量为12 7mg·kg-1,而猪粪处理与CK相比NaHCO3提取的Pi、Po增加的量分别为7 1mg·kg-1,5 4mg·kg-1,NaOH提取的Po增加的量为14 1mg·kg-1.通过Langmuir方程求得磷的最大吸附量(b)、磷吸附结合能常数(k)、磷素最大缓冲量(MPBC)、标准需磷量(SPR)的值,进一步说明了3种有机物料均可使土壤对磷的吸附能力降低,增加土壤中磷的活性.     

洹河底泥中有机污染物调查与分析

介绍了GC/MS联用仪对河流底泥中微量有机污染物进行定性、定量分析的实验方法,探讨了底泥与地表水中有机物种类和含量间的关系。     

提高A/O法处理生活污水脱氮效率探究

将A/O(厌氧/好氧)法处理生活污水设施的好氧生物滤池出口的硝化液回流到厌氧生物滤池进行反硝化生物脱氮,经过生产运行的实践证明:改进后的出水水质稳定,TN(总氮)去除率由原来的13.2%提高到54.6%,同时COD、BOD5、SS的去除率也分别由原来的83%、92.1%、89.2%提高到85.5%、95.2%、90%,且设施改进投资及运行费用省,对提高污水脱氮效果有应用价值。     

Fenton试剂催化氧化--混凝法处理焦化废水的实验研究

用Fenton试剂结合自制聚硅硫酸铝对焦化废水进行了催化氧化—混凝试验研究 ,选择了最佳的工作条件。结果表明 ,经氧化—混凝处理后废水的COD从 1 1 73mg/L降至 38.2mg/L ,去除率达 96 .7%。研究中还发现 ,Fenton试剂具有将废水的 pH值调节为 2 .5～ 3的特性 ,为该工艺实际处理焦化废水提供了科学依据     

水样中镉镍的两次双波长分光光度法测定

研究采用两次双波长分光光度法 ,一次采用双峰双波长法 ,一次采用系数补偿法同时测定水样中的镉和镍。实验结果表明 ,以 5 Br PADAP为显色剂 ,镉和镍的最大吸收峰分别为 544 .8nm和 559.2nm ,最小吸收峰均为 430nm ;镉镍的线性范围为 1～ 1 6μg/ 2 5mL。此法的灵敏度同单波长法相比有明显的提高 ,应用于合成和电镀水样中的镉镍的测定 ,均得到了满意的结果。     

亚铁活化过硫酸钠氧化预处理电镀废水

针对电镀生产过程产生的难降解、高浓度的有机废水,采用Fe~(2+)活化过硫酸钠产生硫酸根自由基的高级氧化技术对其进行预处理。重点探讨了S_2O_8~(2-)投加量、n(Fe~(2+))∶n(S_2O_8~(2-))、废水pH等因素对有机物去除及废水可生化性的影响。实验结果表明,常温下,在S_2O_8~(2-)投加量为4.0 g/L、n(Fe~(2+))∶n(S_2O_8~(2-))为1.00、废水pH为7.0的条件下,废水的处理效果最佳,反应20 min后COD去除率可达70%,BOD_5/COD从原水的0.21升至0.40,废水的可生化性大幅提高,能够满足深度生化处理的要求。     

A COST‐BENEFIT ANALYSIS OF WATER QUALITY PROTECTION IN THE CATAWBA BASIN1

ABSTRACT: The primary objective of this study was to perform a cost‐benefit analysis of maintaining the current level of water quality in the Catawba River basin. Economic benefits were estimated using a stated preference survey method designed to value respondents' willingness to pay for a management plan to protect water quality in the Catawba basin over time. From the surveys conducted with 1,085 area residents, we calculated an annual mean willingness to pay of $139 for the management plan, or more than $75.4 million for all taxpayers in the area. Over the five‐year time horizon in which respondents were asked to pay for the management plan, this resulted in a total economic benefit of $340.1 million. The Watershed Analysis Risk Management Framework model was used to estimate the amount of management activities needed to protect the current level of water quality in the basin over time. Based on the model results, the total cost of the management plan was calculated to be $244.8 million over a ten‐year period. The resulting cost‐benefit analysis indicated that the potential benefits of this management plan would outweigh the costs by more than $95 million.     

Evaluation of activated sludge properties’ changes in industrial-wastewater pre-treatment: role of residual aluminum hydrolyzed species with different polymerization degree

● Medium poly Al salts dominated the PAC residual salts with a rational dosage. ● Settlement flocculation effect under medium poly Al salts showed a better trend. ● Complex of medium poly Al salts and enzymes promoted cell activity. ● Medium poly Al salts were beneficial to the effluent indexes. With the widespread introduction of pre-coagulation prior to the biological unit in various industrial wastewater treatments, it is noteworthy that long-term accumulation of residual coagulants has certains effect on both micro and macro characteristics of activated sludge (AS). In this study, the morphology distributions of residual aluminum salts (RAS) and their effects on the removal efficiency of AS were investigated under different PAC concentrations. The results showed that the dominance of medium polymeric RAS, formed under an appropriate PAC dose of 20 mg/L enhanced the hydrophobicity, flocculation, and sedimentation performances of AS, as well as the enzymatic activity in cells in the sludge system, improving the main pollutants removal efficiency of the treatment system. Comparatively the species composition with monomer and dimer / high polymer RAS as the overwhelming parts under an over-dosed PAC concentration of 55 mg/L resulted in excessive secretion of EPS with loose flocs structure and conspicuous inhibition of cellular activity, leading to the deterioration of physico-chemical and biological properties of AS. Based on these findings, this study can shed light on the role of the RAS hydrolyzed species distributions, closely relevant to Al dosage, in affecting the comprehensive properties of AS and provide a theoretical reference for coagulants dosage precise control in the pretreatment of industrial wastewater.     

哑铃湾网箱养殖水体中N、P的形态特征及其季节变化调控机制

2002年4月～2003年1月四个季度,对哑铃湾典型网箱养殖区N、P几种形态含量进行了实地调查和分析。结果表明,在该养殖区,N、P的存在形态都以溶解态为主,各种形态的季节变化都受网箱养殖活动和浮游植物的生长状况综合调控;在该海域,从N/P值的角度来看,P是比较缺乏的,但是从浮游植物可利用的角度来看,无机磷却相对过剩。     

改性Ti/SnO2-Sb电极催化降解1,4-二氯苯废水试验研究

采用聚合物前驱体法制备了未掺杂、掺杂Cu、掺杂Bi、掺杂Ni的4种Ti/Sn O2-Sb电极,运用SEM和XRD分析电极表面形貌及结构,通过线性极化扫描、循环伏安等测试考察其电化学性能,同时进行1,4二氯苯(p-DCB)降解实验进一步探究电极的电催化氧化特性.SEM和XRD结果表明,掺杂金属可改善电极表面形貌,增大其比表面积;电化学测试表明,Ti/Sn O2-Sb电极的析氧电位并未因金属掺杂而有明显改变,掺杂金属后,Ti/Sn O2-Sb电极具有更优的电催化活性和稳定性.p-DCB降解实验表明,改性Ti/Sn O2-Sb电极对p-DCB的降解效率明显提高,其中Ti/Sn O2-Sb-Cu电极的电催化处理效果最优,电解2 h后p-DCB的去除率即达到87.6%,且p-DCB的降解反应遵循一级反应动力学规律.