延平湖城区水环境石油类污染与控制

通过对延平湖城区水环境石油类污染的监测分析、评价，查找原因，并据此提出控制对策。     

Marine aquaculture regulates dissimilatory nitrate reduction processes in a typical semi-enclosed bay of southeastern China

Marine aquaculture in semi-enclosed bays can significantly influence nutrient cycling in coastal ecosystems. However, the impact of marine aquaculture on the dynamics of dissimilatory nitrate reduction processes (DNRPs) and the fate of reactive nitrogen remain poorly understood. In this study, the rates of DNRPs and the abundances of related functional genes were investigated in aquaculture and non-aquaculture areas. The results showed that marine aquaculture significantly increased the denitrification (DNF) and dissimilatory nitrate reduction to ammonium (DNRA) rates and decreased the rate of anaerobic ammonium oxidation (ANA), as compared with non-aquaculture sites. DNF was the dominant pathway contributing to the total nitrate reduction, and its contribution to the total nitrate reduction significantly increased from 66.72% at non-aquaculture sites to 78.50% at aquaculture sites. Marine aquaculture can significantly affect the physicochemical characteristics of sediment and the abundances of related functional genes, leading to variations in the nitrate reduction rates. Although nitrate removal rates increased in the marine aquaculture area, ammonification rates and the nitrogen retention index in the aquaculture areas were 2.19 and 1.24 times, respectively, higher than those at non-aquaculture sites. Net reactive nitrogen retention exceeded nitrogen removal in the aquaculture area, and the retained reactive nitrogen could diffuse with the tidal current to the entire bay, thereby aggravating N pollution in the entire study area. These results show that marine aquaculture is the dominant source of nitrogen pollution in semi-enclosed bays. This study can provide insights into nitrogen pollution control in semi-enclosed bays with well-developed marine aquaculture.     

土壤滤池+等离子除臭技术在污水处理厂的应用

随着区域规划的调整,苏州某污水处理厂周围环境变得较为敏感,原有除臭设施已无法满足新的环保要求,该污水处理厂的除臭工程需要进行升级改造.经综合比选后确定采用在现有除臭设施基础上增设土壤滤池+等离子除臭设施的方案.除臭工程实施后,主要臭气源得到有效控制,氨、硫化氢和二硫化碳等恶臭物质去除率均在85％以上,甚至达到99％,除臭设施处理效果良好,厂界处污染物排放满足GB 14554-93《恶臭污染物排放标准》一级标准要求.     

Adsorption of humic acid from aqueous solution on bilayer hexadecyltrimethyl ammonium bromide-modified zeolite

Surfactant-modified natural zeolites (SMNZ) with different coverage types were prepared by loading hexadecyltrimethyl ammonium bromide (HTAB) onto the surface of a natural zeolite. The adsorption behavior of humic acid (HA) on SMNZ was investigated. Results indicate that the adsorbent SMNZ exhibited a higher affinity toward HA than the natural zeolite. HA removal efficiency by SMNZ increased with HTAB loading. Coexisting Ca²⁺ in solution favored HA adsorption onto SMNZ. Adsorption capacity decreased with an increasing solution pH. For typical SMNZ with bilayer HTAB coverage, HA adsorption process is well described by a pseudo-second-order kinetic model. The experimental isotherm data fitted well with the Langmuir model. Calculated maximum HA adsorption capacities for SMNZ with bilayer HTAB coverage at pH 5.5 and 7.5 were 63 and 41 mg·g⁻¹, respectively. E2/E3 (absorbance at 250 nm to that at 365 nm) and E4/E6 (absorbance at 465 nm to that at 665 nm) ratios of the residual HA in solution were lower than that of the original HA solution. This indicates that the HA fractions with high polar functional groups, low molecular weight (MW), and aromaticity had a stronger tendency for adsorption onto SMNZ with bilayer HTAB coverage. Results show that HTAB-modified natural zeolite is a promising adsorbent for removal of HA from aqueous solution.     

高铁酸钾氧化降解三氯生的动力学模拟及反应机制研究

对高铁酸钾氧化降解水中微量三氯生（TCS）的反应动力学、反应机制及降解效果进行了实验研究.结果表明,高铁酸钾氧化降解TCS符合二级反应动力学模式,pH 8.5时表观二级反应动力学速率常数为531.9 L.（mol.s）-1,以10 mg.L-1的高铁酸钾计算,反应的半衰期是25.8 s.表观二级反应动力学速率常数随着p...     

生态修复后普兰店湾水体交换数值研究

本文基于非结构化数值模型研究了普兰店湾的水动力特征,耦合输移扩散模型研究不同修复方案对水交换的影响。模拟得到:普兰店湾内涨落潮流向与岸线走向一致,池梗拆除增加15%的水域面积,提升了10%的海湾纳潮量。方案一工程后池梗高程较低,滩涂漫滩及干出流场较为均匀;方案二工程后池梗相对较高,池梗之间流速较大,滩涂流场较为杂乱。工程前湾中水体半交换时间为0～70天左右,湾底区域在70天以上,方案一工程实施后,湾中半交换时间降至50天,方案二降至60天;工程前湾内平均半交换时间为36.8天,方案一下降至 24.0天,方案二降至 28.5天,方案一较方案二提升12%,对湾内水质改善更为明显。     

潮汐-复合流人工湿地系统优化及对抗生素抗性基因的去除效果

抗生素抗性基因随废水排放传播扩散,对环境生物和民众健康构成严重威胁.针对废水中抗性基因的深度去除值得重点关注.在前期研究中发现潮汐流人工湿地能有效去除废水中多种氮素.本研究通过增加隔板和种植植物等方式进一步优化潮汐流人工湿地系统,并考察了工艺优化对抗性基因去除和脱氮功能微生物的影响机制.结果 表明,同时增加隔板和种植植...     

中国农田肥料N2O直接和间接排放重新评估

农田肥料(氮肥、复合肥、有机肥)是我国N₂O最大的排放源,其估计直接决定了排放总量的可靠性.为此,重新评估了中国农田肥料N₂O的直接和间接排放,选择2008年县域尺度活动数据、具有空间分异性的本土排放因子和参数来重新评估其排放规模、结构、空间格局及不确定性;通过与IPCC、EDGAR等国内外研究结果的对比分析,阐述该排放清单的可靠性和全面性.结果表明,2008年我国农田肥料N₂O排放总量为617.1 Gg(处于213.7~1149.2 Gg之间),其中,氮肥直接排放为458.8 Gg(74.5%),有机肥直接排放为121.0 Gg(19.6%),挥发沉降和淋溶径流造成的间接排放分别为28.0 Gg(4.5%)和9.3 Gg(仅占1.5%左右).排放集中在华北平原、东北的松辽平原、华中的淮河流域和四川盆地,以及华南的珠三角、雷州半岛和台湾地区的县(区、市、旗),主要分布在江苏(52.4 Gg)、四川(48.0 Gg)、湖北(43.2 Gg)、广东(40.8 Gg)、河南(39.6 Gg)、安徽(38.4 Gg)、湖南(31.6 Gg)、山东(28.9 Gg),其累积规模为全国总量的52%,其中,近50%的贡献源于164个县(区、市、旗).本排放清单具有更高的准确度和空间分辨率,而基于IPCC (2006)排放因子及参数的估计排放总量高估了约8.3%,对直接排放和间接排放则分别低估了12.5%和高估了330%.此外,在空间格局上还表现出高值区低估和低值区高估的特点,在491和1225个县(区、市、旗)的相对偏差超过了100%和50%,特别指出的是,间接排放在大部分县(区、市、旗)的相对偏差达到135%左右.     

多层次灰色综合评价法在企业清洁生产方案研选中的应用

针对国内清洁生产方案在选择过程中存在的主观性和不确定性,结合清洁生产审核中的实际问题,将层次分析法的思想融入灰色关联度分析法中,并结合某电镀厂筛选清洁生产方案的案例,对多层次灰色综合评价法模型的求解进行验证。通过验证证实了多层次灰色综合评价法能够解决多准则多方案选择过程中主观因素影响过大的问题,为清洁生产多方案的优选问题提供了科学合理的研究方法。     

崂山水库的浮游植物群落特征及变化研究

2007年-2011年连续5年,采用生物群落法,对崂山水库浮游植物的群落结构进行了监测分析.结果为：2011年崂山水库共检出浮游植物8门93种,库区优势种为尖针杆藻（S.acus）、小胶鞘藻（P.tenue）、卵形隐藻（Cryptomonas ovata）、尖尾蓝隐藻（Chroomonas acuta）.5年来群落结构相对稳定,浮游植物细胞密度呈上升趋势.库区为B-中污型水体.