抚顺市海新河和榆林垃圾场环境整治与生态恢复建设

海新河和榆林垃圾场环境整治与生态恢复建设,通过采用一级处理和人工湿地相结合,将产生一定的环境、经济与社会效益。     

一株菲高效降解菌的环境适应性研究

生物降解是多环芳烃从环境中去除的主要途径,菲是一种典型的三环芳烃。本研究考察了一株能高效降解多环芳烃菲的鞘氨醇单胞菌GY2B在含河沙环境及不同盐度的人工海水环境中的生长特性与降解菲的情况。结果表明：河沙的加入对菌株GY2B的生长及其高效降解菲的性能均无明显影响,65 h可将起始浓度为100 mg/L的菲降解99.5%以上;而经过驯化后在添加85%人工海水的条件下该菌也仍可正常生长并高效降解菲,66 h可将起始浓度为100 mg/L的菲几乎完全降解。本研究结果可为菌株GY2B在受多环芳烃污染的河滩、河口及近海海洋环境修复中的应用提供参考依据。     

景观水体治理技术的研究

随着城市的日益发展,人们对城市环境的要求也日益提高,水景主题公园、水景建筑的不断涌现,对改善城市人居环境、提升城市形象有着重要的作用。但是近年来环境污染日益严重,常规水处理方法又不能简单地应用于景观水体的治理,人们对景观水体的治理也提出了迫切的要求。景观水体水质控制技术的研究,对营造与自然和谐的城市生态环境具有重要的作用。文章就目前对景观水体常用的物理、化学、生物及生态修复等各种方法进行了阐述,特别重点介绍了近年来新兴的人工湿地等生态修复处理方法。     

运用神经网络分析电流测定堆肥系统中的对苯二酚

针对生物传感器检测堆肥系统中对苯二酚时存在的检测范围较小和检测精度不高等问题,在分析漆酶生物传感器检测电流信号的基础上,以传感器响应电流为输入变量,以对苯二酚浓度为输出变量,建立了神经网络(ANN)模型,对网络进行了优化,确定了最佳的网络参数(最佳隐含层神经元数为7,最佳输入层神经元数为5,最优的传递函数组合为Tansig-Logsig,最优的算法为Levenberg-Marquardt算法),并将模型预测性能同非线性回归(NR)模型进行了比较.NR的RMSE(均方根误差)为14.441 9 ìmol/L,预测值与实测浓度之间的相关系数为0.994 4;与之相比,ANN的RMSE达到4.444 2ìmol/L,预测值与实测浓度的相关系数为0.9996,预测性能明显优于NR.对苯二酚的检测范围达到0.015～450ìmol/L,在现有水平上进一步扩大了检测范围同时提高了检测精度.     

Restoration of Koggala lagoon： Modelling approach in evaluating lagoon water budget and flow characteristics

Groyne system modification is described related to restoration e orts to Koggala lagoon, Sri Lanka.The large-scale unplanned sand removal at the lagoon mouth shifted the formation of sand bar towards the lagoon and made adverse e ects on its ecosystem. After the removal of the natural sand bar, groyne system was constructed to avoid sand deposition in the lagoon and to protect the highway bridge (across the lagoon outlet channel) from the wave attack. The existing groyne system resulted the lagoon mouth being permanently open to sea which in turn led to many environmental problems. Groyne system modification is proposed in this study to reduce the sea water intrusion.Water budget and two-dimensional depth averaged hydrodynamic model were developed for understanding the hydrologic and flow characteristics of the lagoon. Numerical experiments was performed at lagoon mouth area for two cases: (1) existing condition and (2) proposed rubble mound groyne system condition. Comparison of results was obtained for both cases to describe flow pattern at lagoon mouth. Results further showed, the width should be reduced to a maximum of 40 m. Proposed mouth width (40 m) pushed the salting factor towards 0.5 from 0.68. Salting factor reduction with the groyne modification may result a predominant influence of fresh water which may in turn lead lagoon to a fresh water ecosystem.     

Assessment of physically-based and data-driven models to predict microbial water quality in open channels

In the present study,a physically-based hydraulic modeling tool and a data-driven approach using artificial neural networks (ANNs) were evaluated for their ability to simulate the fate and transport of microorganisms in a water system.To produce reliable data,a pipe network was constructed and a series of experiments using a fecal coliform indicator (Escherichia coli 15597) was conducted.For the physically-based model,morphological (pipe size,link length,slope,etc.) and hydraulic (flow rate) conditions were used as input variables,and for ANNs,water quality parameters (conductivity,pH,and turbidity) were used.Both approaches accurately described the fate and transport of microorganisms (physically-based model: correlation coefficient (R) in the range of 0.914 – 0.977 and ANNs: R in the range of 0.949 – 0.980),with the exception of one case at a low flow rate (q = 31.56 cm 3 /sec).This study also indicated that these approaches could be complementarily utilized to assess the vulnerability of water facilities and to establish emergency plans based on hypothetical scenarios.     

应用神经网络对地下水反硝化效果预测与验证

应用人工神经网络对生物脱氮工艺进行预测并验证。采用工艺参数如COD、NO3-N、NO2-N、DO等作为输入节点,COD、NO3-N作为输出节点。结果显示神经网络能够较好地预报出水的水质参数。出水硝酸盐和COD预测结果与试验结果符合得较好,相对误差分别在10％和5％范围内。     

城市湖泊的生态治理试验研究——以重庆市渝北区棕榈湖为例

随着中国城市化的快速推进,产生了一系列的环境问题,而解决因城市发展而带来的自然水体（如城市湖泊）污染及其治理问题是一项耗资巨大而又十分复杂的系统工程。就中国的经济实力而言,污水处理的技术经济指标往往是选择方案时必须首先考虑的问题。传统的活性污泥法基建投资大,运行费用高,且处理后的出水排入水体后仍将引起＂富营养化＂等环境问题。而人工湿地具有投资省,处理效果较好的优势,因而是一种非常值得探索和尝试的全新的处理方法。以该湖泊的人工湿地处理前后的水质效果进行对比分析,以期为今后相似的城市湖泊的生态治理提供一些借鉴。     

近地表土壤水分条件对坡面农业非点源污染物运移的影响

采用人工模拟降雨实验,研究了近地表土壤水分条件,尤其是土壤水分饱和条件对土壤侵蚀过程中农业非点源污染物运移的影响.结果表明,前期近地表土壤水分条件对土壤侵蚀过程中农业非点源污染物的迁移有着很大影响.饱和含水量时径流及泥沙中非点源污染物的流失浓度和流失量大于非饱和含水量,且前期近地表土壤含水量越大,径流及泥沙中农业非点源污染物的流失浓度和流失量越大.土壤氮素的主要流失途径是降雨所产生的径流,约占总流失量的90.4%～99.8%;土壤磷素的流失途径是降雨径流和侵蚀产沙,分别占总流失量的2.67%～23.5%和76.5%～97.3%.同时,土壤质地对磷素养分的流失有很大影响,杨凌土随泥沙流失的DP浓度和流失量均大于安塞黄绵土.最后,提出了采取最佳管理措施等控制农业非点源污染的针对性建议.     

莱州湾滨海平原咸水入侵分析与趋势预测——以山东省广饶县为例

文章以鲁北平原山东省广饶县为例,阐述了咸、淡水形成的地质背景、咸淡水变化带形成与演化;分析了大规模开发利用地下水引起的咸水入侵的历史与现状;采用非确定性模型方法对咸水入侵趋势进行了预测,提出了缓解咸水入侵的对策与建议。取得的主要认识和结论为:(1)鲁北平原自山前冲洪积扇向莱州湾滨海平原,地下水水质具有水平和垂直分带特征;(2)20世纪70年代中期大量开采南部地下淡水后,地下淡水水位持续下降,破坏了咸淡水之间的水动力平衡,北部咸水向南入侵,引起淡水咸水、机井报废等一系列环境地质问题;(3)预测结果表明,在不采取调控措施情况下,咸淡水界面以每年平均240m速度向南部推进;(4)人工回灌、营造淡水帷幕并减少淡水区开采量是防止咸水入侵的有效途径。