塔里木河流域的生态环境质量综合评价研究

采用切实可行的指标体系综合评价塔里木河流域生态环境质量,对流域的近期综合治理以及其它环境建设工程都具有很强的参考和指导意义。本文结合已有的研究成果,首次运用RS／GIS技术,参考2003年中国环境监测总站颁布的《生态环境质量评价方法》。以塔里木河流域的42个县(市)为评价单元,对塔里木河流域生态环境质量进行综合评价。结果表明,整个塔里木河流域的生态环境质量属较差和差级,其中干流上游与四源流经地区环境质量略好于其它地区。天山南麓、环塔里木盆地北部及西部绿洲区的生态环境状况优于环塔里木盆地南缘的和田地区,评价结果符合实际情况。     

水体富营养化问题中外政策措施透析

富营养化问题正在污染地球上宝贵的饮用水资源.因此,防治和解决富营养化问题是全球的一项紧急任务.早在上个世纪,很多欧洲国家在富营养化的控制方面已经做了很多研究,尤其是对欧盟的立法与国家政策方面的研究.目前,很多欧洲国家都建立了相对完善的综合政策.中国太湖也面临着严重的水体富营养化问题.文章选取荷兰和英国作为案例分析,通过与太湖水体富营养化防治中存在的问题的对比和分析,提出一些可行性建议,对太湖水域的该问题的缓解起到一定的借鉴作用.     

初冬时期闽江河口区养殖塘排水后的CH4和N2O通量日变化特征

排水活动是河口区养殖塘鱼、虾捕获后的重要管理方式之一.为探讨排水活动对河口区养殖塘温室气体通量的影响,采用静态(悬浮)箱-气相色谱法对初冬时期闽江河口区的未排干和排干养殖塘温室气体(CH_4和N_2O)通量日变化特征进行原位观测.结果表明,(1)未排干与排干养殖塘CH_4通量范围分别介于0.04~0.10 mg·(m~2·h)~(-1)和14.04~33.72 mg·(m~2·h)~(-1),均值分别为(0.07±0.01)mg·(m~2·h)~(-1)和(24.74±2.33)mg·(m~2·h)~(-1),均表现为大气库中CH_4释放源,呈现夜高昼低的特征;(2)未排干养殖塘N_2O通量范围和均值分别介于-0.027~0.011 mg·(m~2·h)~(-1)和(0.002±0.004)mg·(m~2·h)~(-1),整体上呈现昼低夜高的特征,而排干养殖塘N_2O通量范围和均值分别介于0.59~1.76 mg·(m~2·h)~(-1)和(1.07±0.15)mg·(m~2·h)~(-1),整体上呈现昼高夜低的特征.以上研究结果初步揭示,排干初期的河口区养殖塘排水活动不仅显著增加温室气体(CH_4和N_2O)排放强度,也可以显著改变养殖塘温室气体通量的日动态特征.     

化肥厂污水回用技术的应用

通过对污水水质的分析,对精制水单元工艺流程进行了改造,实现了该单元冲洗水及分析水的回用,达到了节能减排的效果.     

因子分析与聚类法的复合模型在水环境评价和管理中的应用

以2001-2003年巢湖监测数据为依据,采用因子分析、聚类分析方法的复合模型进行计算,结果表明:2001-2003年间,影响巢湖水质的污染因子发生了改变,同时定量诊断出水污染因子对巢湖水质的贡献率,合理划分出各类水环境管理区域,并提出相应的水环境管理措施.在巢湖水环境管理分区中,可以大体分为2大类,在各类中可以再细分为几小类,西半巢湖属于重污染,为水环境控制区域,东半巢湖污染相对较轻,为水环境控制和自净区域.结果分析表明,复合模型具有一定的可靠性和准确性,具有一定的参考实用价值.     

酸性矿山排水污染的水库水体酸化特征

矿业开发产生的酸性排水导致下游水体酸化,严重破坏水域生态平衡. 以受酸性矿山排水(Acid Mine Drainage,AMD)影响的水库水体为研究对象,通过对水库表层水、界面水和沉积物孔隙水中水质参数的变化进行分析,探讨水库水体酸化特征. 结果表明:表层水、界面水pH分别为3.22～3.38和2.70～3.02,水库上覆水体严重酸化,沿沉积物剖面向下酸化程度逐渐减弱;上游AMD在水库水体中存在自然净化过程,而表层沉积物可再次提高上覆水体酸度;沉积物孔隙水ρ(SO₄2-)极高(0.29～11.85 g/L)且在垂向剖面上变化波动较大,可能与沉积物中次生矿物的形成转化、季节及其他外界条件的变化有关.      

太湖流域水环境污染现状与治理的新建议

太湖流域是我国经济最发达的地区之一,流域社会经济发展迅速,经济总量在全国占重要地位。由于长期以来主要依靠增加资源和劳动力投入,过度消耗自然资源和破坏生态环境来发展经济,已导致生态环境急剧恶化,特别是水体污染与富营养化日趋严重。通过对太湖流域主要湖泊、主要入湖河道及出湖河道野外采样化验分析,掌握了太湖流域河湖水质的最新状况,河湖富营养化的空间分布、河网之间、河湖之间相互关系。研究表明,太湖流域河流、湖泊富营养化现象依然十分严重,湖泊水质优于河道水质,出湖河道优于入湖河道。污染治理措施不足,太湖“零点”行动未从根本上改善太湖水质等是太湖流域水环境污染的根本原因。提出建立太湖流域新的河网水系、治湖与治河相结合、加大引江入湖的力度等治理太湖流域水环境的建议。     

顶板水力挠动强制卸压煤层瓦斯抽采工程实践

对塑性松软煤体进行水力挠动较难取得理想的瓦斯增浓提效效果,为克服该措施的局限性,使松软煤层有效卸压增透,可将挠动对象转移至煤层顶板砂岩.基于对顶板砂岩水力挠动裂隙发育、延展及煤层卸压增透机理分析,在试验矿井的松软煤层及顶板砂岩中分别施工钻孔进行水力挠动试验,同时采用多级指标对措施后的瓦斯抽采效果进行考察.结果表明:水力...     

Rainfall conditions and rainwater harvesting potential in the urban area of Khartoum

Runoff water management is among the inherent challenges which face the sustainability of the development of arid urban centers. These areas are particularly at risk from flooding due to rainfall concentration in few heavy showers. On the other hand, they are susceptible to drought. The capital of Sudan (Khartoum) stands as exemplary for these issues. Hence, this research study aims at investigating the potential of applying rainwater harvesting (RWH) in Khartoum City Center as a potential urban runoff management tool. Rapid urbanization coupled with the extension of impervious surfaces has intensified the heat island in Khartoum. Consequently, increased frequency of heat waves and dust storms during the dry summer and streets flooding during the rainy season have led to environmental, economical, and health problems. The study starts with exposing the rainfall behavior in Khartoum by investigating rainfall variability, number of raindays, distribution of rain over the season, probability of daily rainfall, maximum daily rainfall and deficit/surplus of rain through time. The daily rainfall data show that very strong falls of >30 mm occur almost once every wet season. Decreased intra- and inter-annual rainfall surpluses as well as increased rainfall concentration in the month of August have been taking place. The 30-year rainfall variability is calculated at decade interval since 1941. Increasing variability is revealed with 1981–2010 having coefficients of variation of 66.6% for the annual values and 108.8–118.0% for the wettest months (July–September). Under the aforementioned rainfall conditions, this paper then explores the potential of RWH in Khartoum City Center as an option for storm water management since the drainage system covers only 40% of the study area. The potential runoff from the 6.5 km² center area is computed using the United States Natural Resources Conservation Services method (US-NRCS), where a weighted Curve Number (CN) of 94% is found, confirming dominant imperviousness. Rainfall threshold for runoff generation is found to be 3.3 mm. A 24,000 m³ runoff generated from a 13.1 mm rainfall (with 80% probability and one year return period) equals the drainage system capacity. An extreme rainfall of 30 mm produces a runoff equivalent to fourfold the drainage capacity. It is suggested that the former and latter volumes mentioned above could be harvested by applying the rational method from 18% and 80% rooftops of the commercial and business district area, respectively. Based on the above results, six potential sites can be chosen for RWH with a total roof catchment area of 39,558 m² and potential rooftop RWH per unit area of 0.033 m³. These results reflect the RWH potential for effective urban runoff management and better water resources utilization. RWH would provide an alternative source of water to tackle the drought phenomenon.