Simultaneous denitrifying phosphorus accumulation in a sequencing batch reactor

In order to achieve simultaneous nitrogen and phosphorus removal in the biological treatment process, denitrifying phosphorus accumulation (DNPA) and its affecting factors were studied in a sequencing batch reactor (SBR) with synthetic wastewater. The results showed that when acetate was used as the sole carbon resource in the influent, the sludge acclimatized under anaerobic/aerobic operation had good phosphorus removal ability. Denitrifying phosphorus accumulation was observed soon when fed with nitrate instead of aeration following the anaerobic stage, which is a vital premise to DNPA. If DNPA sludge is fed with nitrate prior to the anaerobic stage, the DNPA would weaken or even disappear. At the high concentration of nitrate fed in the anoxic stage, the longer anoxic time needed, the better the DNPA was. Induced DNPA did not disappear even though an aerobic stage followed the anoxic stage, but the shorter the aerobic stage lasted, the higher the proportions of phosphorus removal via DNPA to total removal. Translated from Environmental Science, 2004, 25(6): 92–96 [译自: 环境科学]     

废水中磷的监测和处理

本文介绍了钼锑抗光度法测定污水中总磷在实际应用中应该注意的问题，并介绍了不同类型污水处理设施的除磷效率。则结果证明，常规二级污水处理工艺对总磷的去除率只能达到４０－５０％左右，迄今，化学混凝与生物过程一体化的处理系统可能是除灰最经济有效的办法。     

洗涤剂禁(限)磷前后水体磷负荷变化的思考

基于杭州西湖在洗涤剂禁 (限 )磷前后总磷含量的变化 ,分析了水体磷负荷的主要来源 ,以及对在我国实行洗涤剂禁 (限 )磷工作的一些思考。     

深圳福田红树林对重金属Cu、Pb、Zn、Cd 的吸收、累积与循环

研究了污水处理下红树林对Cu、Pb、Zn、Cd4种重金属元素的吸收、累积、分布和循环。结果表明 ,林地表层土壤 4种元素的储量关系为Zn >Pb >Cu >Cd ;对土壤中 4种重金属富集能力的大小依次为桐花树 >秋茄 >白骨壤。该群落中Cu、Pb、Zn、Cd的现存累积量分别为 1 41 796、 4 55 967、1 2 2 0 2 2 4和 9 4 93mg/m2 ;年吸收量分别为 1 8 98、 1 6 4 3、 89 1 9和 0 39mg/m2 ;年归还量分别为 1 4 64、7 2 6、 59 2 9和 0 1 6mg/m2 ;年存留量分别为 4 33、 9 1 7、 2 9 2 0和 0 2 3mg/m2 ;周转期分别为 1 0、 63、 2 1和 58年。     

具有脱氮除磷功能的A-A/O工艺设计

叙述了A-A/O工艺各区段的设计方法和设计步骤;并用此方法模拟实际处理工艺,进行了试算,得出了相应的验算结果。     

Assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of West African savanna soils

A large proportion of total P in the soils of the area is unavailable to plants and consequently P is the second most limiting nutrient. The labile and moderately labile phosphorus fractions and adsorption characteristics of surface and subsurface horizons of eleven soil profiles in the derived savanna (DS) and the northern Guinea savanna (NGS) of West Africa were assessed. The labile P fractions are the resin and HCO₃-extractable inorganic (Pi) and organic (Po) P. The moderately labile fractions are the NaOH-extractable portion of soil P in the Hedley sequential procedure. In the DS soils, the resin P, considered the most readily available fraction, varied from 1 to 14 mg kg⁻¹, HCO₃-Pi ranged from 3.3 to 11, and HCO₃-PO was between 4 and 12 mg kg⁻¹ in the surface horizon. In the NGS, the topsoil contained 1.5–3 mg kg⁻¹ of resin P, 5–8 mg kg⁻¹ of HCO₃-Pi, and 7.5–9.7 mg kg⁻¹ of HCO₃-Po. Sodium hydroxide-Po was the largest of the fractions in all the soils studied. It ranged from 23 to 55 mg kg⁻¹ in the topsoil. In general, the labile P levels were higher in soils of the DS than of the NGS and were related to the oxalate-extractable Fe (Fe_ox), and Al (Al_ox) as well as to soil texture. The subsoil of Kasuwan Magani (profile KS 9–21 cm) required 153 mg P kg⁻¹ to maintain 0.2 mg P l⁻¹ in solution (standard P requirement), and Danayamaka (profile DD 7–32 cm) required 145 mg P kg⁻¹. These could translate to 214 and 200 kg P ha⁻¹ if a plow layer of 10 cm is assumed. Because these are within the plow layer, more P fertilizer would be needed for crop production than in the other soils. The standard P requirement and the adsorption maxima were related to Fe_ox and Al_ox, dithionite-Fe (Fe_d), and texture. The increase in labile P content with decreasing Fe_ox and Al_ox could imply that management practices capable of reducing the activities of Fe and Al in solution might improve P availability.     

钼蓝法测定水中总磷方法的研究

本文改用 一种新 的氯化亚 锡溶 液配 制 方法 ，增 加显 色 剂氯 化亚 锡 溶液 的浓 度， 延长 稳 定时间，在 测定时减 少显色剂 的用量 ，经对比实 验表明 ，该法灵 敏度、准确 度、精 密度 、溶 液的 稳定 性、显色效果 等均满 足环境监 测的规定 要求     

悬浮态污泥的SRT对复合式A2/O工艺性能的影响

采用厌氧/缺氧/好氧复合工艺(复合式A2/O工艺)及其对照工艺(传统A2/O工艺),进行了悬浮态污泥SRT的变化对系统性能影响的试验研究结果表明,悬浮态污泥浓度与其SRT的关系仍符合劳伦斯-麦卡蒂方程式的导出公式所反映的变化趋势,但其同时和反应器中填料上的生物膜数量呈相反变化趋势在总HRT为12.76 h、COD容积负荷小于1.5kg·m-3·d-1、TKN容积负荷小于0.13kg·m-3·d-1、悬浮态污泥SRT为25～5 d、水温为12～15 ℃时,悬浮态污泥SRT的变化对COD的去除几乎没有影响,出水COD均小于50 mg·L-1;但SRT的变化对氮和磷的去除有较大的影响,当悬浮态污泥SRT大于10 d时,出水NH4+-N和TN浓度分别低于15 mg·L-2和20mg·L-1,随SRT的增大,TP的去除效率下降;附着态生物膜参与硝化过程,能够提高系统总的NH4+-N去除率20%～30%.悬浮态污泥SRT宜控制为10～15 d,这可在一定程度上解决或缓解传统A2/O工艺中硝化和除磷过程对污泥龄要求的矛盾.     

氮肥和磷肥对稻田N2O排放的影响

通过模拟南方稻田施用不同量的氮肥和磷肥的实验来探讨N和P对稻田释放N2O的影响.结果表明,水稻田N2O排放通量的较大值主要出现在3次烤田期;氮肥和磷肥对土壤中产生N2O的贡献主要在水稻生长中后期,从第1次烤田起(移栽后34d),氮肥和磷肥都表现为对N2O排放有促进作用;而低氮对N2O排放的刺激作用没有高氮的作用明显,且N2处理(180kg/hm2)、N1处理(90kg/hm2)和N0处理(没有施肥)之间的平均N2O排放差异不显著.在水稻生长中后期(第1次烤田后),N3处理(270kg/hm2)和N4处理(360kg/hm2)的较高水平的氮肥加入能强烈刺激N2O排放.     

高强钢海洋环境应力腐蚀破裂敏感性的控制因素

首先在不同含碳量的CrMo系列钢上,就模拟海水中应力腐蚀抗力和破裂方式、屈服强度、晶界特性和晶内显微组织随含碳量和回火温度的变化关系进行综合测试分析,得出了碳化物分布尤其是原奥氏体晶界的碳化物微层对高强钢应力腐蚀破裂行为有控制作用的新观点。该观点在实用于装备的高强钢30Cr3SiNiMoV、37SiMnCrMoV和30CrMnSiA以及弹簧钢65Mn在各种环境的应力腐蚀和氢脆行为上得到了验证。