天山低层云水资源中冰粒子物理属性年际变化

采用2003 年1 月至2012 年12 月美国宇航局NASA 发布的CERES SSF Aqua MODISEdition 1B、2B和3A云资料,从冰水柱含量、云等效温度、云等效高度以及冰粒子等效直径4 个云物理宏微观属性考察天山低层云水资源年际变化特征.结果表明:冰水柱含量均值在32.7~92.0 g/m²之间,云等效温度均值在214.9~257.3 K之间,云等效高度均值在3.9~5.7 km之间,冰粒子等效直径均值在12.7~22.4 μm之间.冰水柱含量、云等效高度、云等效温度均呈降低的年际变化特征,冰粒子等效直径呈增加的年际变化特征.     

羌塘高原水资源及其开发利用

地跨西藏、新疆、青海3省（区）的羌塘高原是我国青藏高原的主体部分,平均海拔5000m以上,总面积71.6×10⁴km²,占我国陆地面积的7.5％。整个高原严寒干燥,湖泊众多,河流短小,冰川发育,是世界上待开发的一块最高最新的内陆大高原。现有地表、地下迳流约236.15×10⁸m³,水质符合饮用与灌溉要求。但目前基本流入湖泊后破蒸发,如果大量开发迳流势必破坏水循环规律,人为地加速湖泊的消亡。为解决今后工农牧业用水,只能千方百计减少蒸发,取得可利用水量,达到发展经济维持生态平衡的目的。     

烟囱高度合理性论证技术方法研究

通过研究有关烟囱高度合理性的国家标准、规定和方法,指出影响污染物落地浓度的主要影响因子,结合一些烟囱高度合理性设计的实例,总结出了一套论证烟囱高度合理性的方案,并从气象和环境空气影响角度对不同高度烟囱合理性进行了检验.分析结果表明,烟囱高度要以适合当地气象和环境空气质量实际情况为原则,最大限度地减轻污染物落地浓度对当地造成的不利影响.这对减轻污染和减少厂家经费投入以及对于指导大气环境影响评价工作具有重要的现实意义.     

电厂烟囱高度确定的技术方法

烟囱不仅是电厂生产工艺上为获得一定抽力的排气筒,更重要的是控制大气污染保护环境的重要设施.通过研究有关电厂烟囱高度合理性方法,指出影响污染物落地浓度的主要影响因素,并从气象和环境空气影响角度对不同高度烟囱合理性进行检验.本文实例分析结果表明,烟囱高度要以适合当地气象和环境空气质量实际情况为原则,最大限度地减轻污染物落地浓度对当地造成的不利影响,并从技术、经济的合理性方面进行分析和论证,这对减轻污染和减少资金投入以及对于指导环境空气影响评价工作具有重要意义.     

大气扩散浓度估算在锅炉房烟囱高度计算中的应用

锅炉房的烟囱已从单纯的排气装置发展成为控制污染、保护环境的设备。因此烟囱高度的正确估算对于环境影响评价工作、建设单位都至关重要。结合唐山某城区集中供热锅炉房环境影响评价案例,利用大气扩散浓度公式估算锅炉房烟囱高度。在计算过程中,考虑了烟气流速及当地常年风向、风速、稳定度等污染气象特征,由正态分布模式导出的简化公式导出最大着地浓度与烟囱有效高度的平方成反比,从而计算出烟囱高度。另外还总结烟囱设计中应注意的一些问题,为建有锅炉房的建设项目环境影响评价工作提供参考。     

附着式塔式起重机附着间距及悬臂高度的研究

附着式塔式起重机广泛应用于高层建筑施工中,现行塔式起重机设计规范GB 13752—1992并没有对附着式塔式起重机附着间距作出相关规定。运用等效惯性矩法建立了附着式塔式起重机的等效有限元模型,以塔身稳定性和静刚度为约束条件,分析了附着间距对塔式起重机塔身最大悬臂高度及塔身与塔臂连接处水平位移的影响,对施工过程中附着架附着间距及悬臂高度给出合理建议。     

A Simple Model to Determine In Situ Mixing Height Growth from Surface Measurements

A generic In Situ Mixing Height Growth (IMG) model, capable of predicting the real-time growth of the mixed layer and its diurnal evolution from routinely observed simple surface meteorological is developed. The algorithm for the determination of temporally growing daytime mixing height includes both convective and mechanical turbulence contributions. It accounts for neutral as well as height varying potential temperature gradients above the mixed layer. For thermally stable and mechanically dominated unstable night time Atmospheric Boundary Layer (ABL) the module uses similarity formulae based on the wind velocity [1]), the Monin—Obukhov length [2], and the Coriolis parameter. In the convective case simple slab model is integrated, based on initial lapse rate and the surface heat flux. The lapse rate is evaluated on the basis of vertical atmospheric stability, surface type and surface temperature. This differentiates the IMG model from other existing mixing height models that need initial measured lapse rate for calculation. IMG model is site specific as it calculates the radiative incoming heat flux depending on the solar declination estimates based on-site latitude and longitude. The IMG model is applied to calculate mixing height for India by using surface data (viz. wind speed, surface temperature, surface type) from 152 surface meteorological stations. Results have been evaluated with radiosonde mixing height data procured from 18 upper air stations. Sensitivity analysis of the model with respect to various parameters is performed. The model is formulated after reviewing presently available radiosonde mixing height data in India and can satisfactorily provide an alternative means of estimating mixing height for air pollution dispersion models.     

基于TRMM降水订正数据的祁连山地区最大降水高度带研究

采用TRMM卫星反演月降水数据和气象台站实测降水数据,通过误差评估等数理统计方法验证数据,并结合Kriging法对TRMM降水数据进行订正,以此研究了祁连山地区最大降水高度带的时空变化。结果表明：（1）TRMM降水数据在祁连山地区的整体适用性较好。其中TRMM降水数据与台站实测值的年均降水量相关系数达0.94;季节平均降水量的相关系数分别为春季（0.87）、夏季（0.89）、秋季（0.88）、冬季（0.70）。（2）祁连山地区27个气象台站实测值与TRMM降水数据的相关性较好,但在个别台站误差较大且存在低值高估、高值低估的现象。（3）祁连山地区年均降水量自东向西呈减少趋势。东、中、西三段最大降水高度带分别为4100 m、4500 m、4700 m,年均降水量的垂直变化率分别为16.6 mm/100 m、10.8 mm/100 m、9.8 mm/100 m。（4）1998-2016年祁连山地区东、中、西三段降水量均呈波动增加,最大降水高度带也呈波动上升趋势,祁连山地区年内各季节最大降水高度带按夏、春、秋、冬的次序降低。     

A new method for calculating saddle seat height with an emphasis on optimal posture based on trigonometric relations

Introduction. Based on the literature, the ergonomic saddle chair provides the most appropriate posture for users. Determination of the seat height is critical to establish the proper posture, carried out using various methods of anthropometry. This study aimed to develop a simple and applied method for determining the saddle seat height with an emphasis on appropriate posture. Methods. In this study, anthropometric dimensions including weight, body height, popliteal height and seat height at 135° knee angle in 150 male and female dentists were measured. In the laboratory, to determine the ‘acetabuloischial number’, 25 male and female natural hip bones were measured. The mean saddle-chair height with knee angle of 135° was then compared by two different methods, field measurement and the new calculation method. Results. The results showed a strong correlation between data gathered from the two different methods, the field measurement and the new calculation method (98%), and Cronbach’s α from the intraclass correlation was equal to 0.994 (p?<?0.05). This indicated that the two methods produced similar results. Conclusion. The new method can be applied to calculate the optimal height of the saddle seat based on body height and popliteal height.     

空气净化器净化燃香源PM_(2.5)的性能与效果评价

"史上最严"的控烟条例《北京市控制吸烟条例》正式实施,现行空气净化器性能测试中以香烟烟雾作为颗粒物污染源的标准受到挑战;加之燃香源颗粒物净化手段少有讨论。故以室内燃香替代香烟作为PM2.5的污染源,在环境实验舱内通过对市售净化器性能指标CADR进行测试,证明燃香可产生持续且稳定的颗粒物,可以替代香烟作为颗粒物污染源。燃香全程净化效果试验表明:在一根燃香的过程中时,开启净化器可保持采样点全程优质的空气质量;使用两根燃香时,采样点高度差异可导致明显的浓度差异,建议使用中考虑净化器摆放高度。