沸石用于去除废水中的氨氮

天然沸石及改性沸石对氨氮有很强的选择性吸附能力。介绍了沸石去除废水中氨氮的应用研究,包括在O/A生物处理系统、二级氧化塘处理系统、土地处理系统、湿地系统和堆肥系统等中的应用。分析了氨氮在沸石上发生吸附和离子交换的主要影响因素和规律。为开拓沸石在废水处理中的应用提供科学与技术基础。     

2,4-二氯酚废水处理的试验研究

研究了活性炭吸附法处理2,4-二氯酚废水的工艺过程。研究结果表明。活性炭对该废水具有良好的吸附效果。此外,还对吸附过程的动力学进行了研究,结果表明吸附过程遵循Lagergren一级动力学模型,并得出25℃和35℃时速率常数分别为k298=0．0072min^-1、k308=0．0118min,吸附活化能Ea=38．5kj／mol。     

Fenton试剂催化氧化降解微囊藻毒素的动力学研究

针对饮用水中藻毒素污染的问题,以微囊藻毒素作为研究对象,系统地研究了Fenton试剂催化氧化降解微囊藻毒素的效能,并对其催化氧化微囊藻毒素过程的反应动力学进行了探讨。实验结果表明,Fenton试剂对微囊藻毒素具有较好的催化氧化效果,当[H2O2]=8 g/L、[Fe2 ]/[H2O2]=1/12、pH=2时,反应在30 min内微囊藻毒素的去除率可达90%以上。同时通过实验得出了Fenton试剂催化氧化降解微囊藻毒素的动力学方程为:r=2.31×106exp[-23 300/(RT)]C0.H492O2C2.22M。     

改性稻草吸附铜离子的动力学机理

研究表明稻草改性后吸附铜离子的能力得到很大提高。研究表明吸附相当好地符合假二级吸附速率模型,测定了在4个温度下(15℃,27℃,37℃,50℃)的吸附速率常数。吸附平衡可用Langmiur吸附模型和Freundlich吸附模型处理。讨论了pH对吸附的影响。     

蒽生物降解及其动力学分析

从长期被石油污染的土壤中分离了一株优势菌,经鉴定为铜绿假单胞菌,研究了该菌株对蒽的降解性能,结果发现该菌株对蒽有良好的降解效果。经过147h的降解,蒽的浓度从100mg/L降至27.5mg/L,降解了72.5mg/L,降解率达72.5%,显示了极强的降蒽能力。同时,进行了动力学分析,结果表明蒽的残留浓度Y(mg/L)与时间t(h)符合方程Y=90.4322e(-0.0098)x。     

Biotreatability and kinetics of UASB reactor to mixtures of chlorophenol pollutants

In most natural ecosystems heterotrophic microorganisms encountercomplex mixtures of carbon sources, each of which is present at aconcentration of few micrograms per litre. This study examined the biotreatability and kinetics of an upflow anaerobic sludge blanket (UASB) reactor to complex mixtures of chlorophenols encountered in environmental conditions using on-line and off-line experimental studies. Results indicate that (1) steady-state concentration was quite lower (98.3 mg L^-1) with complex mixture of chlorophenols than steady-state concentration achieved when only 2.4 dichlorophenol (124 mg L^-1) was studied alone on the same reactor; (2) that toxiceffects of chlorophenols increase with increasing concentrationsof toxicant. (Onset of the inhibitory effect occurred at a lowerconcentration in multi-substrate than in single substrate utilization); (3) addition of alternative utilizable substrate can mitigate toxic effects and enhance degradation; (4) the relative concentration of substrate was critical in determiningutilization patterns. HPLC analysis of off-line experimental samples resulted in a steady-state treatment efficiency of68% for COD, 36% for 2-hlorophenol, 40.5% for 4-chlorophenol, 70.7% for 2,4-dichlorophenol, 53.2% for 2,4,6-trichlorophenol and 42% for pentachlorophenol in presence of glucose. Kinetic constant in terms of V _max and K _s were determined. K _s for the five chlorophenols ranged between 0.016 and 0.117 kg m^-3 day^-1 while V _max ranged between 0.056 and 0.244 kg m^-3 day^-1.     

Performance of a small-scale solar-powered adsorption cooling system

In this study, an experimental investigation on the performance of a small-scale residential-size solar-driven adsorption (silica gel-water) cooling system that was constructed at Assiut University campus, Egypt is carried out. As Assiut area is considered as hot, arid climate, field tests for performance assessment of the system operation during the summer season are performed under different environmental operating conditions. The system consists of an evacuated tube with a reflective concentration parabolic surface solar-collector field with a total area of 36 m², a silica gel-water adsorption chiller of 8 kW nominal cooling capacity, and hot and cold water thermal storage tanks of 1.8 and 1.2 m³ in volume, respectively. The results of summer season field test show that under daily solar insolation varying from 21 to 27 MJ/m², the solar collectors employed in the system had high and almost constant thermal efficiency. The daily solar-collector efficiency during the period of system operation ranged from about 50% to 78%. The adsorption chiller performance shows that the chiller average daily coefficient of performance (COP) was 0.41 with the average cooling capacity of 4.4 kW when the cooling-water and chilled-water temperatures were about 31°C and 19°C, respectively. As the chiller cooling water is cooled by the cooling tower in the hot arid area, the cooling water is at a higher temperature than the design point of the chiller. Therefore, an experiment was carried out using the city water for cooling. The results show that an enhancement in the chiller COP by 40% and the chilling power by 17% has been achieved when the city water was 27.7°C.     

Adsorption of three pharmaceuticals on two magnetic ion-exchange resins

The presence of pharmaceuticals in aquatic environments poses potential risks to the ecology and human health. This study investigated the removal of three widely detected and abundant pharmaceuticals, namely, ibuprofen (IBU), diclofenac (DC), and sulfadiazine (SDZ), by two magnetic ion-exchange resins. The adsorption kinetics of the three adsorbates onto both resins was relatively fast and followed pseudo-second-order kinetics. Despite the different pore structures of the two resins, similar adsorption patterns of DC and SDZ were observed, implying the existence of an ion-exchange mechanism. IBU demonstrated a combination of interactions during the adsorption process. These interactionswere dependent on the specific surface area and functional groups of the resin. The adsorption isothermfittings verified the differences in the behavior of the three pharmaceuticals on the two magnetic ion-exchange resins. The presence of Cl^- and SO₄^2- suppressed the adsorption amount, butwith different inhibition levels for different adsorbates. This work facilitates the understanding of the adsorption behavior andmechanismof pharmaceuticals onmagnetic ion-exchange resins. The results will expand the application of magnetic ion-exchange resins to the removal of pharmaceuticals in waters.     

纳米塑料聚苯乙烯对水中铅离子的吸附行为研究

纳米塑料作为一种新兴污染物在水中可长久稳定存在,其表面吸附的重金属对水环境产生了潜在危害.本文研究了纳米塑料聚苯乙烯微球在吸附时间、溶液pH、氯化钠溶液、锰离子、温度等不同实验条件下对铅离子的吸附行为.结果表明,粒径为400 nm的单分散聚苯乙烯微球可快速吸附铅离子,吸附平衡时间约为30 min,吸附率达到53.30%.聚苯乙烯微球对铅离子的吸附动力学符合伪一级动力学,吸附等温线遵循Freundlich模型,吸附过程主要为非线性吸附.随着溶液pH的增加,铅离子平衡吸附量增加,静电作用是影响铅离子在聚苯乙烯微球上吸附的关键因素.增加溶液盐浓度,微塑料发生聚集,比表面积减小,吸附位点减少,铅离子的吸附量显著降低,在3.5%氯化钠溶液中,纳米塑料对铅离子的吸附率仅为7.5%.与重金属锰离子共存,可促进聚苯乙烯微球对铅离子的吸附.升高温度,纳米塑料对铅离子的平衡吸附量增加.     

腐殖酸-重金属对ANAMMOX菌脱氮性能的影响及其动力学分析

通过批次实验研究了两种典型重金属离子[Cu（Ⅱ）和Ni（Ⅱ）]与腐殖酸对厌氧氨氧化（ANAMMOX）脱氮效果（SAA）的影响并进行了动力学模型分析,同时探讨了腐殖酸-重金属对ANAMMOX脱氮的影响.结果表明,在投加ρ[Cu（Ⅱ）]和ρ[Ni（Ⅱ）]均为3mg·L^-1时,对ANAMMOX有促进作用,SAA分别提高了8.64%和7.78%;当ρ[Cu（Ⅱ）]和ρ[Ni（Ⅱ）]分别为20mg·L^-1和5mg·L^-1时则对ANAMMOX有抑制作用,抑制效果随重金属离子浓度增加而越发显著,指数拟合表明Cu（Ⅱ）和Ni（Ⅱ）对ANAMMOX的IC50分别为29.67mg·L^-1和28.75mg·L^-1.在投加ρ（腐殖酸）为1mg·L^-1时SAA提高了7.37%, 40mg·L^-1时抑制率即达到36.80%,线性拟合表明腐殖酸对ANAMMOX菌的IC50为58.36mg·L^-1.修正的Michaelis-Menten模型能较...