河岸草本缓冲带对模拟径流中污染物的净化

选择华北地区3种常见草本植物——狗牙根、虎尾草和天堂草,通过人工配水模拟地表径流,在北京潮白河河岸设置径流试验,研究河岸带宽度、水力负荷和进水浓度对不同缓冲带截污能力的影响。结果表明:模拟径流中污染物均随缓冲带沿程距离增加有降低趋势,且前段下降较快,后段下降逐渐趋缓。SS的去除主要发生在沿程前3 m,TP和COD的去除主要发生在前6 m,TN的去除主要发生在9 m以内。若缓冲带的宽度设置受限,为保证一定的截污效果,宽度不应小于9 m。狗牙根、虎尾草和天堂草缓冲带在沿程15 m处对NH_4~+-N的去除率分别为50.6%、32.0%和40.4%,总体上狗牙根和天堂草对N、P的去除能力优于虎尾草。不同水力负荷和进水浓度下,草本缓冲带均能有效截留径流中的SS,去除率均在70%以上,而NH_4~+-N的去除受进水浓度的影响较大。由于模拟径流中NO_3~--N和溶解性磷(DP)进水浓度低于1 mg/L,缓冲带对两者的去除效果较差,特别是虎尾草缓冲带,出现了出水浓度高于进水的情况。     

典型非金属矿物制造工艺过程源成分谱特征

鉴于我国缺乏非金属矿物制品工艺过程源成分谱(源谱)现状,采用稀释通道系统于2017年2～6月采集了玻璃制造、陶瓷制造和砖瓦制造共6个非金属矿物制品企业排放的PM_(10)和PM_(2.5)样品,对样品中的50种化学组分进行分析,构建相应的源谱,并对其特征进行研究.结果表明,玻璃制造源谱中以Na元素为主(质量分数介于9. 2%～18. 5%之间),陶瓷制造源谱中以Al、Si、Ca和Fe等地壳元素为主(质量分数在1. 7%～8. 7%之间),耐火砖和页岩砖源谱则是以SO_4~(2-)、NH_4~+等水溶性离子为主,SO_4~(2-)和NH_4~+质量分数分别介于36. 9%～48. 1%和7. 7%～17. 0%之间.不同企业因燃料类型、脱硫脱硝除尘方式不同会对源谱中的化学组分产生影响.源谱之间的分歧系数(CD)显示除页岩砖制造外,其余源谱2种粒径之间均较为相似,同粒径不同源谱间均存在差异,浮法玻璃与药用玻璃之间和2个陶瓷企业之间的CD值相对较小.使用R/U值比较源谱间不同组分的差异识别出Na和As元素可作为玻璃制造的标识组分,陶瓷制造可用Al和Ti来识别,NO_3~-和NH_4~+区分耐火砖,SO_4~(2-)和NH_4~+识别页岩砖.     

用17O核磁共振研究液态水的团簇结构

阐述了利用核磁共振谱线宽表征液态水团簇结构平均相对大小的原理 ,通过试验确定了以 17O核磁共振谱线宽作为衡量液态水团簇结构平均相对大小的指标 ,并以温度升高过程中液态水 17O NMR谱线宽的变化对该指标进行了初步的验证 .     

闽南红砖大厝庭院形态对屋面风压与风场的影响研究

基于ANSYS Fluent软件选用RNG k-ε 湍流模型,以闽南红砖大厝民居为对象,通过数值计算、 分组对比分析庭院与厝埕的进深对风场及屋面风压分布的影响并探讨利于抗风的建筑形式.研究表明:①随院落宽度的增加屋面最大平均风压系数绝对值呈现显著地降低又升高,最大降低21.2％;庭院宽度与进深的比例为1.5时屋面最大平...     

珠江三角洲大暴雨的多普勒特征及形成机制

利用广州CINRAD-SA新一代多普勒天气雷达资料,结合天气形势分析,研究了华南地区夏季短时大暴雨的发生、发展过程,特别是中小尺度系统引发短时大暴雨不同发展阶段的多普勒特征以及辐合强度与短时大暴雨的关系,并对短时大暴雨的发展机制进行了初步探讨.通过分析发现,短时大暴雨产生于低空强盛西南气流等有利条件下,近地层雨区附近的气旋式扰动有利于激发对流,抽吸作用、局地锋生对对流的维持和加强起到了十分重要的作用.在短时大暴雨发生初期及发展旺盛期,大多数都伴有逆风区、辐合带等多普勒特征,中气旋更是与高强度降水、地面强风等剧烈天气密切相关.     

Modeling Stream Shade: Riparian Buffer Height and Density as Important as Buffer Width1

DeWalle, David R., 2010. Modeling Stream Shade: Riparian Buffer Height and Density as Important as Buffer Width. Journal of the American Water Resources Association (JAWRA) 46(2):323-333. DOI: 10.1111/j.1752-1688.2010.00423.x Abstract: A theoretical model was developed to explore impacts of varying buffer zone characteristics on shading of small streams using a path-length form of Beer’s law to represent the transmission of direct beam solar radiation through vegetation. Impacts of varying buffer zone height, width, and radiation extinction coefficients (surrogate for buffer density) on shading were determined for E-W and N-S stream azimuths in infinitely long stream sections at 40°N on the summer solstice. Increases in buffer width produced little additional shading beyond buffer widths of 6-7 m for E-W streams due to shifts in solar beam pathway from the sides to the tops of the buffers. Buffers on the north bank of E-W streams produced 30% of daily shade, while the south-bank buffer produced 70% of total daily shade. For N-S streams an optimum buffer width was less-clearly defined, but a buffer width of about 18-20 m produced about 85-90% of total predicted shade. The model results supported past field studies showing buffer widths of 9-11 m were sufficient for stream temperature control. Regardless of stream azimuth, increases in buffer height and extinction coefficient (buffer density) were found to substantially increase shading up to the maximum tree height and stand density likely encountered in the field. Model results suggest that at least 80% shade on small streams up to 6-m wide can be achieved in mid-latitudes with relatively narrow 12-m wide buffers, regardless of stream azimuth, as long as buffers are tall (≈30 m) and dense (leaf area index ≈6). Although wide buffers may be preferred to provide other benefits, results suggest that increasing buffer widths beyond about 12 m will have a limited effect on stream shade at mid-latitudes and that greater emphasis should be placed on the creation of dense, tall buffers to maximize stream shading.     

Random forest models to estimate bankfull and low flow channel widths and depths across the conterminous United States

Channel dimensions (width and depth) at varying flows influence a host of instream ecological processes, as well as habitat and biotic features; they are a major consideration in stream habitat restoration and instream flow assessments. Models of widths and depths are often used to assess climate change vulnerability, develop endangered species recovery plans, and model water quality. However, development and application of such models require specific skillsets and resources. To facilitate acquisition of such estimates, we created a dataset of modeled channel dimensions for perennial stream segments across the conterminous United States. We used random forest models to predict wetted width, thalweg depth, bankfull width, and bankfull depth from several thousand field measurements of the National Rivers and Streams Assessment. Observed channel widths varied from <5 to >2000 m and depths varied from <2 to >125 m. Metrics of watershed area, runoff, slope, land use, and more were used as model predictors. The models had high pseudo R² values (0.70–0.91) and median absolute errors within ±6% to ±21% of the interquartile range of measured values across 10 stream orders. Predicted channel dimensions can be joined to 1.1 million stream segments of the 1:100 K resolution National Hydrography Dataset Plus (version 2.1). These predictions, combined with a rapidly growing body of nationally available data, will further enhance our ability to study and protect aquatic resources.     

The value of disappearing beaches: A hedonic pricing model with endogenous beach width

Beach nourishment is a policy used to rebuild eroding beaches with sand dredged from other locations. Previous studies indicate that beach width positively affects coastal property values, but these studies ignore the dynamic features of beaches and the feedback that nourishment has on shoreline retreat. We correct for the resulting attenuation and endogeneity bias in a hedonic property value model by instrumenting for beach width using spatially varying coastal geological features. We find that the beach width coefficient is nearly five times larger than the OLS estimate, suggesting that beach width is a much larger portion of property value than previously thought. We use the empirical results to parameterize a dynamic optimization model of beach nourishment decisions and show that the predicted interval between nourishment projects is closer to what we observe in the data when we use the estimate from the instrumental variables model rather than OLS. As coastal communities adapt to climate change, we find that the long-term net value of coastal residential property can fall by as much as 52% when erosion rate triples and cost of nourishment sand quadruples.     

复杂建筑结构人员疏散的元胞自动机模拟研究

为研究复杂建筑结构下人员疏散特征,依据元胞自动机理论建立了多障碍物多出口条件下的疏散模型。该模型结合"静态场+动态场"理论能反映真实场景中的人员疏散过程。利用该模型分别对教室内不同人员密度和不同人员初始分布的疏散过程进行模拟,并重点分析走廊宽度、出口宽度和出口间距对人员疏散效率的影响。研究结果表明:人员疏散时间随着人员密度的增加而增加;并且合理的人员分布可提高出口的利用率及疏散效率。此外,人员疏散时间随走廊宽度的增加呈指数衰减趋势,房间的出口间距较出口宽度对疏散时间的影响更为显著。     

单室人员疏散模型及仿真分析

为实现对单室人员疏散时间的精确计算,通过对单室人员疏散过程的分析,揭示单室疏散时人员运动的规律,建立了有、无障碍条件下单室人员疏散的计算模型,得到疏散门处发生拥堵的临界条件,并将计算模型的计算数据与相同条件下社会力疏散模型的仿真数据进行比较,以评价计算模型的准确性。结果表明,计算模型计算简单,数据可靠,能够用于计算单室人员疏散的时间。