EVALUATION OF HYDROLOGIC BENEFITS OF INFILTRATION BASED URBAN STORM WATER MANAGEMENT1

ABSTRACT: As watersheds are urbanized, their surfaces are made less pervious and more channelized, which reduces infiltration and speeds up the removal of excess runoff. Traditional storm water management seeks to remove runoff as quickly as possible, gathering excess runoff in detention basins for peak reduction where necessary. In contrast, more recently developed “low impact” alternatives manage rainfall where it falls, through a combination of enhancing infiltration properties of pervious areas and rerouting impervious runoff across pervious areas to allow an opportunity for infiltration. In this paper, we investigate the potential for reducing the hydrologic impacts of urbanization by using infiltration based, low impact storm water management. We describe a group of preliminary experiments using relatively simple engineering tools to compare three basic scenarios of development: an undeveloped landscape; a fully developed landscape using traditional, high impact storm water management; and a fully developed landscape using infiltration based, low impact design. Based on these experiments, it appears that by manipulating the layout of urbanized landscapes, it is possible to reduce impacts on hydrology relative to traditional, fully connected storm water systems. However, the amount of reduction in impact is sensitive to both rainfall event size and soil texture, with greatest reductions being possible for small, relatively frequent rainfall events and more pervious soil textures. Thus, low impact techniques appear to provide a valuable tool for reducing runoff for the events that see the greatest relative increases from urbanization: those generated by the small, relatively frequent rainfall events that are small enough to produce little or no runoff from pervious surfaces, but produce runoff from impervious areas. However, it is clear that there still needs to be measures in place for flood management for larger, more intense, and relatively rarer storm events, which are capable of producing significant runoff even for undeveloped basins.     

MODELING FRAMEWORK FOR MANAGING COPPER RUNOFF IN URBAN WATERSHEDS1

ABSTRACT: A modeling framework was developed for managing copper runoff in urban watersheds that incorporates water quality characterization, watershed land use areas, hydrologic data, a statistical simulator, a biotic ligand binding model to characterize acute toxicity, and a statistical method for setting a watershed specific copper loading. The modeling framework is driven by export coefficients derived from water quality parameters and hydrologic inputs measured in an urban watershed's storm water system. This framework was applied to a watershed containing a copper roof built in 1992. A series of simulations was run to predict the change in receiving stream water chemistry caused by roof aging and to determine the maximum copper loading (at the 99 percent confidence level) a watershed could accept without causing acute toxicity in the receiving stream. Forecasting the amount of copper flux responsible for exceeding the assimilation capacity of a watershed can be directly related to maximum copper loadings responsible for causing toxicity in the receiving streams. The framework developed in this study can be used to evaluate copper utilization in urban watersheds.     

我国北方沙尘暴与植被覆盖度关系研究

利用NOAA/AVHRR和旬归一化植被指数NDVI数据,计算了1983-2000年中国北方13省市区的植被覆盖度,分析了这些地区植被覆盖度的时间变化趋势和空间分布规律,研究了中国北方沙尘暴与植被覆盖度之间的关系。结果表明:我国北方沙尘灾害频次与植被覆盖度有很好的对应关系,1983-2000年的18年间,我国北方大部分地区植被覆盖度增加,这段时期沙尘灾害频次总体呈降低趋势,其中20世纪80年代我国北方大部分地区植被覆盖度增加,这一时期我国北方沙尘暴发生频数下降;20世纪90年代,我国北方大部分区域植被覆盖度呈下降趋势,特别是华北和西北干旱与半干旱地区,下降趋势显著,这一时期我国北方沙尘暴发生频数在减少中有回升趋势。研究结果表明,植被覆盖度是影响中国北方沙尘暴频次变化的重要因素。     

突发事件连锁反应的实证研究——以2008年初我国南方冰雪灾害为例

从突发事件连锁反应分析,认为2008年初我国南方的冰雪灾害是由自然灾害引发的连锁反应事件。选择了新浪网冰雪灾害报道专题的近4 000篇报道作为数据源,从时间、空间和事件角度揭示了此次冰雪灾害的演化过程,并分析了事件扩散的原因。     

低影响开发雨洪管理技术费效分析

文章对LID技术的环境效益、经济效益、社会效益分类分析以及采用费效分析方法对其综合效益进行评价;指出国内外LID技术推广层面的政策经济不同之处,总结出LID技术的推广建议。表明LID措施比传统雨洪管理技术具有更大的环境效益、经济效益和社会效益,合理有效的运用将为海绵城市建设提供技术经济上的支持。     

中国台风灾害及其影响的研究

中国是世界上受热带气旋影响最严重的国家之一。本文对影响和登陆中国的热带气旋活动的特征、台风灾害特点及其形成规律作了分析，并讨论了台风灾害对中国社会和经济发展的影响。分析结果指出，影响中国的台风灾害具有发生频率高、突发性强、群发性显著、影响范围广、成灾强度大等特点，这类灾害主要由台风带来的狂风、暴雨、风暴潮及其引发的灾害链所造成。台风灾害不仅造成大批人员伤亡，而且对中国各个经济部门都有严重影响，它所     

沿海防潮堤坝对风暴潮危害的减灾效益研究

风暴潮是海洋灾害中对人类造成损失最为严重的类型之一,海岸带地区防潮堤坝的修建对抵御风暴潮起到重要的作用。在综述国内外风暴潮研究的基础上,提出了沿海防潮堤坝对风暴潮的减灾效益的定量研究方法。以黄河三角洲9711号特大台风风暴潮为例,利用G IS技术模拟了无防潮堤坝情况下海岸带地区的受灾面积以及经济损失,并与实际灾害损失进行对比,得出防潮堤坝减少的风暴潮灾害经济损失为25.7亿元的结果,证实了兴建防潮工程的必要性。利用费用-效益法对防潮堤坝工程进行了成本与减灾效益评估,分析了防潮堤坝修建的经济合理性。     

北方沙尘暴对杭州大气环境的影响及应对措施

简述了我国沙尘天气的形成与分级情况。分析了我国沙尘天气的发展趋势与原因及其对杭州大气环境的影响情况。指出我国沙尘天气的发展有越演越烈的趋势 ,对杭州大气环境的影响时间延长 ,频次增加 ,危害程度加重 ,范围扩大。对防治沙尘天气污染大气环境提出了应对措施。     

沙尘暴对大连市空气质量影响的判别研究

利用二次因子分析法对大连市区5个大气自动监测点住所测的四种污染因子(CO、SO2、NOx、PM10)和风速(1997～2004年)资料数据进行分析,分析了当地污染排放累积和外来输送两种主要原因,对大连市空气质量的影响.通过进一步对CO、NOx、PM10因子得分之差(FS2-FS1)的分析,找出了适合确定沙尘暴对大连市空气质量影响的判据,即(FS2-FS1)>0     

First flush of storm runoff pollution from an urban catchment in China

Storm runoff pollution process was investigated in an urban catchment with an area of 1.3 km^2 in Wuhan City of China. The results indicate that the pollutant concentration peaks preceded the flow peaks in all of 8 monitored storm events. The intervals between pollution peak and flow peak were shorter in the rain events with higher intensity in the initial period than those with lower intensity. The fractions of pollution load transported by the first 30% of runoff volume （FF30） were 52.2%-72.1% for total suspended solids （TSS）, 53.0%-65.3% for chemical oxygen demand （COD）, 40.4%-50.6% for total nitrogen （TN）, and 45.8%-63.2% for total phosphorus （TP）, respectively. Runoff pollution was positively related to non-raining days before the rainfall. Intercepting the first 30% of runoff volume can remove 62.4% of TSS load, 59.4% of COD load, 46.8% of TN load, and 54.1% of TP load, respectively, according to all the storm events. It is suggested that controlling the first flush is a critical measure in reduction of urban stormwater pollution.