改性纳米零价铁的制备及其去除水中的四环素

对聚乙烯吡咯烷酮(PVP-K30)改性纳米零价铁(NZVT)用于水中四环素(TC)的去除进行研究.通过XRD,TEM和BET对改性后的纳米铁性能进行表征.探讨不同反应条件对PVP-NZVI去除四环素的影响.实验结果表明,在制备过程中添加PVP-K30改性剂可以明显减小纳米铁颗粒粒径,增大比表面积,提高TC的去除率.当初...     

用于地表水反硝化的纤维素碳源选择研究

为了选取合适的天然有机物作为反硝化细菌碳源用于解决地表水中NO3--N污染问题,以江南大学校内湖水为接种物,选取8种天然纤维素碳源在缺氧状态不同的处理方式下对60 mg/L NO3--N的降解特性进行研究。结果表明,以碱处理作为预处理可明显提高反硝化速率,碳源脱氮率均在96%以上（树皮除外）。2种处理方式中均有NO2--N累积,部分碳源释放NH4＋-N并发生DNRA反应,树叶在2种处理中脱氮效果均较好。结合各碳源脱氮率、耗碳源量以及处理成本,选取基本处理的香樟叶作为最佳纤维素碳源。     

铁炭-混凝沉淀-生化处理强酸性染料废水的中试研究

采用铁炭-混凝沉淀-水解酸化-生物接触氧化工艺对强酸性染料废水进行中试处理研究。在铁炭微电解单元主要考察了铁炭比、HRT和曝气量大小对处理效果的影响;在水解酸化单元主要考察了进水pH和HRT对处理效果的影响。通过铁炭微电解和水解酸化,在大幅改善废水的可生化性的同时,还可以有效去除废水的色度、削减有机负荷,以保证后续的生物接触氧化工艺的高效稳定运行。在生物接触氧化单元主要考察了进水浓度、HRT对处理效果的影响。经过组合工艺的处理,最终的出水COD〈75 mg/L,出水色度〈40倍。     

纳米光催化还原去除水中铜离子

基于纳米光催化还原技术,以纳米二氧化钛作为光催化剂,研究一种水体中重金属Cu2＋去除方法。采用原子吸收评价水体中Cu2＋去除效果,考察了水体pH值、不同光源及光照时间、催化剂添加量、Cu2＋初始浓度以及乙醇加入量的影响。结果表明,Cu2＋初始浓度在2～50 mg/L,pH为6.0～8.0,添加0.3 g/L纳米二氧化钛...     

Influence of aeration on CH4, N2O and NH3 emissions during aerobic composting of a chicken manure and high C/N waste mixture

Co-composting of chicken manure, straw and dry grasses was investigated in a forced aeration system to estimate the effect of aeration rates on NH₃, CH₄ and N₂O emissions and compost quality. Continuous measurements of gas emissions were carried out and detailed gas emission patterns were obtained using an intermittent-aeration of 30 min on/30 min off at rates of 0.01 (A1), 0.1 (A2) and 0.2 (A3) m³ min⁻¹ m⁻³. Concentrations of CH₄ and N₂O at the low aeration rate (A1) were significantly greater than those at the other two rates, but there was no significant difference between the A2 and A3 treatments. CH₄ and N₂O emissions for this mixture could be controlled when the composting process was aerobic and ammonia emissions were reduced at a lower aeration rate. Comparison of CH₄, N₂O, NH₃ emissions and compost quality showed that the aeration rate of the A2 treatment was superior to the other two aeration rates.     

含氰化物废水生物处理研究进展

综述了含氰化物废水的主要处理技术和存在的问题,探讨了微生物降解氰化物的生物化学途径以及生物降解机理.介绍了影响氰化物生物降解性能的因素和含氰化物废水的生物处理特点,综述了含氰化物废水生物处理的最新研究进展,并展望了微生物降解氰化物技术的发展趋势与应用前景.     

An overview of municipal solid waste management in Inner Mongolia Autonomous Region,China

Rapid industrialization and urbanization in developing countries have created serious problems in municipal solid waste (MSW) management. New case studies can shed light on these problems and point the way to potential solutions for improving the overall eco-efficiency of MSW management. This paper employs a case study approach, analyzing MSW management in Inner Mongolia. This study encompasses all aspects of MSW management, including collection, separation, recycling, and disposal. Problems and challenges are identified through our analysis, and recommendations are raised by considering the local realities. Our main findings are: (1) while large cities have already established a solid foundation for MSW management, small- and medium-sized cities deserve more attention; (2) MSW in rural areas is even worse than urban areas; (3) enforcement of MSW regulations is ineffective and needs improvement; (4) lack of funds, R&D efforts and advanced technologies have impeded sustainable MSW management; (5) lack of coordination and communication among different stakeholders further damages the efforts for improvement of MSW management. Therefore, integrated efforts that combine the above concerns should be initiated so that the overall effectiveness and efficiency of MSW management can be improved.     

Physiological and biochemical responses of Microcystis aeruginosa to phosphite

Phosphorus (P) is a key biological element and limiting nutrient in aquatic environments. Phosphate (+5) is traditionally associated with the P nutrient supply. However, phosphite (+3) has recently generated a great deal of interest, because of the possibility that it is a P source based on recognition of its vital role in the original life of the early earth. This study investigated whether phosphite can be an alternative P source for Microcystis aeruginosa PCC 7806, one of the predominant bloom species in freshwater systems. The results indicated that M. aeruginosa could not utilize phosphite as a sole P-nutrient directly for cell growth at any concentration, but that phosphite could boost cell numbers and chlorophyll a (Chl-a) content as long as phosphate was provided simultaneously. Specifically, Chl-a production increased sharply when 5.44 mg P L⁻¹ phosphite was added to 0.54 mg P L⁻¹ phosphate medium. Analysis of the maximum yield of PSII indicated that phosphite may stimulate the photosynthesis process of cells in phosphate-phosphite medium. In addition, phosphite failed to support cell growth, even though it more readily permeated the cells in P-deficient medium than in P-sufficient medium. Alkaline phosphatase activity (APA) analysis indicated that, unlike organic P, phosphite inhibits the response of cells to deficient P status, especially under P-deprived conditions.     

耐高温反渗透膜在化工废水处理中的应用

以某化工工艺废水的超滤出水为原水,采用耐高温反渗透膜进行处理,考察了操作压力、废水pH、膜面流速及废水总铁质量浓度对耐高温反渗透膜产水通量及脱盐率(以电导率减小率计,下同)和TOC去除率的影响。实验结果表明,在操作压力为0.24 MPa、废水pH为7.60、膜面流速为2.0 m/s的最佳条件下运行4 200 min后,产水通量衰减约73%,反渗透系统的脱盐率为95%～97%,TOC去除率为83%～95%,出水电导率在50μs/cm左右,出水TOC为21～23 mg/L。     

改性填料对移动床生物膜反应器性能的影响

分别选取3种不同柱状悬浮填料,采用两级好氧移动床生物膜反应器处理低浓度化工废水。实验结果表明,在平均有机负荷为1.67 kg/(m~3·d)、废水pH为7.5～7.8、温度为32～33℃、HRT为8 h、第一级反应器DO为0.5～1.0 mg/L、第二级反应器DO为1.5～2.0 mg/L的条件下,A型悬浮填料(添加改性剂和微量元素、φ10 mm×10 mm)、B型悬浮填料(添加改性剂和微量元素、φ25 mm×10 mm)和C型悬浮填料(无添加剂、φ10 mm×10 mm)的COD平均去除率分别为82.2%、81.8%和70.6%。