高速公路收费雨棚的建筑设计

随着高速公路建设的发展,高速公路收费雨棚成了高速公路一个亮丽的风景点。本文对收费雨棚的高度与宽度之间关系进行探索,并对其建筑高度设计提出了建议。     

不同氮素水平油菜冠层反射光谱特征研究

2002～2003年油菜生长季节,在浙江大学实验农场设置了4个品种、3个供氮水平处理、3个重复的油菜田间小区试验,测定了不同发育时期的冠层光谱反射率及对应叶片、茎以及角果的鲜重和干重。结果表明：不同供氮水平的油菜冠层和叶片光谱差异明显,冠层光谱反射率随发育期推移,开花前在可见光范围逐渐降低、在近红外区域逐渐增大,开花后在可见光范围逐渐增大,在近红外区域逐渐降低。不同供氮水平的油菜冠层光谱差异明显,4个品种的油菜具有相似的变化规律,在近红外表现尤其明显,随着供氮水平的增加,光谱反射率明显升高;而在可见光波段处,随供氮水平提高,反射率反而降低。前期随发育期推移,NDVI和RVI都逐渐增大,在4月22日达到最大,其中N2和N3在4月14日受开花影响,NDVI和RVI有所降低。4月22日以后,由于后期叶片衰老变黄,NDVI和RVI都逐渐减小。     

住宅设计的几点改进建议

本文根据设计住宅的体会,阐述了对住宅阳台雨蓬、垃圾道等部位的设计,提出了几点改进的建议。     

伴有热污染的气幕上吸罩流场特性分析

传统排风罩和气幕上吸罩是两种工作原理不同的局部排风设备。建立了气幕上吸罩流场模型并确定了边界条件,采用数值计算的方法,模拟了气幕上吸罩速度场和温度场。提出把控制点(面)速度作为评价流场控制能力强弱的一个参数,并依此定量比较了传统上吸罩和气幕上吸罩的控制效果。结果表明:送风射流装置可以把热污染气流控制在较小的范围内;在模拟实验条件下,在控制点达到相同的控制风速时,气幕式上吸罩所需吸气量为传统吸气罩吸气量的77%～86%。     

上海区域常见园林树种树高尺度定量预估及林冠线营造探析

树高及树木垂直生长空间对于群落外貌(如林冠线的营造)以及复层结构的构建起到关键作用。本文以上海地区城镇绿化较为常见的23种园林树种为研究对象,对不同胸径梯度下(分别设置为10cm、16cm、22cm、28cm)的树高尺度进行调查与测定。基于所选取及调查树木样本的实测数据,对胸径—树高两者之间的关系进行回归拟合,将所涉及园林树木树高尺度划分为4种伸展类型,并讨论了树高尺度在种植设计中的应用。最后,尝试通过从冠顶角与冠重叠2个方面对林冠线进行定量化解析,以期为群落垂直结构的配置及林冠线的营造提供参考依据。     

Dispersion in a street canyon for a wind direction parallel to the street axis

We investigate pollutant dispersion in a street canyon for an external wind direction parallel to the street axis, a case which has been poorly documented in the literature. The study is performed numerically and analytically by means of a model based on a series of simplifying assumptions. The range of validity of these assumptions is discussed by comparing analytical and numerical results for two different street aspect ratios. Our results show that, for a critical length of the street, ground level concentration can be higher than those observed in a street canyon whose axis is perpendicular to the external wind direction. We show that this critical length depends on the street aspect ratio.     

Shading performance of a vertical deciduous climbing plant canopy

Deciduous climbing plant canopies strategically integrated to building façades can act as dynamic solar shading devices responsive to the seasonal climatic changes. Maximum shading occurs in the summer when the plant is at its peak growth. The shedding of leaves in autumn and winter reduces the shading and allows beneficial solar radiation to be absorbed by the opaque surface of the building façade or penetrated through the windows to the building interior. Although climbing plants have long been used for moderating the microclimate of buildings, there are very few scientific investigations to quantify such effects. This paper reports the findings of a study with specific focus on the shading performance of a vertical deciduous climbing plant canopy. It justifies the selection of Virginia Creeper as an appropriate plant for growth in the UK climate and describes the planting, monitoring and analysis procedures adopted to determine a proposed dynamic Bioshading Coefficient Function – which is used to represent the shading performance of the climbing plant canopy over its annual growing and wilting cycle. A thermal model was developed which identified the key parameters required for establishing the Bioshading Coefficients. Two climbing plant canopies (referred to as Bioshaders) were set up in an existing building in Southeast UK and monitored for 2 years. Measured data were used to calculate a series of daily Bioshading Coefficients which were subsequently applied to establish the Bioshading Coefficient Function. The research also identified issues affecting the indoor environment as a result of the application of Bioshaders.     

甬台温铁路某站无站台柱雨棚钢结构施工技术

以甬台温铁路某站站台雨棚工程为例,介绍了现代化大型火车站无站台柱雨棚大跨度钢结构施工技术,具体阐述了钢柱吊装技术和桁架安装方法,为今后同类工程积累了宝贵经验。     

Atmospheric deposition of nitrogen at five subtropical forested sites in South China

Elevated concentrations of reactive nitrogen (N) in precipitation have been reported for many cities in China. Due to increased use of fossil fuels and expansion in agriculture, further increases in deposition of ammonia (NHx) and reactive N oxides (NOy) are predicted. Increased deposition of reactive N is likely to affect N dynamics and N runoff in forest ecosystems. Yet, in China little work has been done to quantify the levels of atmospheric N deposition in such systems. Here, we assess the deposition of inorganic N (ammonium, NH4+ and nitrate, NO3-) for five subtropical forest ecosystems in remote and urban areas of South China. Annual volume-weighted concentrations in bulk precipitation range from 0.18 to 1.55 mg NH4+ -N L(-1) and from 0.12 to 0.74 mg NO3- -N L(-1). These values are large and several times greater than those reported for remote sites of the world. The fluxes of total inorganic N (TIN) in wet-only deposition range from 0.8 to 2.3 g N m(-2) yr(-1), with NH4+ -N contributing 54% to 77%. Both the tree canopy and the ground vegetation layer are important in determining the net N flux reaching the forest floor, but the net effect varies from site to site. At TieShanPing (TSP), close to Chongqing city, and at CaiJiaTang (CJT), near Shaoshan (Hunan province), the canopy represents a net source of N, probably due to dry deposition. At the other three sites (LiuChongGuan (LCG), LeiGongShan (LGS), both in Guizhou province, and LiuXiHe (LXH) in Guangdong), a net loss of reactive N from precipitation water occurs in the canopy, probably due to uptake processes. The total annual atmospheric TIN load is estimated to range from at least 0.8 g N m(-2) yr(-1) to 4.0 g N m(-2) yr(-1), with a considerable contribution from dry deposition. Concentrations and fluxes of inorganic N in tree canopy throughfall are greater than those in North America. Also the contribution of NH4+ -N to TIN fluxes in throughfall (40% to 70%) is greater than in North America. Our sites have N deposition levels and NH4+ -N contributions similar to those found in Northwest and central Europe. The TIN loads at TSP and CJT far exceed 2.5 g N m(-2) yr(-1), which is the N deposition load above which NO3- leaching is expected in temperate and boreal forests.