Ekman动量近似下中间边界层模式中的风场结构

发展了一个准三维的、中等复杂的边界层动力学模式，该模式包含了EKman动量近似下的惯性加速度和Blackadar的非线性湍流粘性系数，它进一步改进了Tan和Wu(1993）提出的边界层理论模型。该模型在数值计算复杂性上与经典Ekman模式相类似，但由于包含了Ekman动量近似下的惯性项，使得该模式比传统Ekman模式更近于实际过程。中详细地比较了该模式与其他简化边界层模式在动力学上的差异，结果表明：在经典的Ekman模式中，由于忽略了流动的惯性项作用，导致在气旋性切变气流（反气旋性切变气流）中风速和边界层顶部的垂直速度的高估（低估），而在半地转边界层模式中，由于高估了流动惯性项的作用，结果与经典Ekman模式相反。同样，该模式可以应用于斜压边界层，对于Ekman动量下的斜压边界层风场同时具有经典斜压边界层和Ekman动量近似边界层的特征。     

移动性热岛边界层特征的数值研究

用二维非静力完全弹性的中－γ尺度数值模式模拟了移动性热岛的大气边界层特征。试验中，热岛移速取为４ｍ·ｓ＾－１，热岛强度取△θｇ＝６０Ｋ和３０Ｋ两种。△θｇ＝６０Ｋ时，在热岛后方出现了强烈的垂直运动并形成了水平尺度为３－５ｋｍ的局地环流，最大上升速度１００ｃｍ·ｓ＾－１，出现在低层３００－４００ｍ高度；△θｇ＝３０Ｋ时，移动热岛的边界效应比前大为减弱，且不再出现闭合的局地环流。     

Study on Effects of Building Morphology on Urban Boundary Layer Using an Urban Canopy Model

An urban canopy model is incorporated into the Nanjing University Regional Boundary Layer Model. Temperature simulated by the urban canopy model is in better agreement with the observation, especially in the night time, than that simulated by the traditional slab model. The coupled model is used to study the effects of building morphology on urban boundary layer and meteorological environment by changing urban area, building height, and building density.It is found that when the urban area is expanded, the urban boundary layer heat flux, thermal turbulence, and the turbulent momentum flux and kinetic energy all increase or enhance, causing the surface air temperature to rise up. The stability of urban atmospheric stratification is affected to different extent at different times of the day.When the building height goes up, the aerodynamic roughness height, zero plane displacement height of urban area, and ratio of building height to street width all increase. Therefore, the increase in building height results in the decrease of the surface heat flux, urban surface temperature, mean wind speed, and turbulent kinetic energy in daytime. While at night, as more heat storage is released by higher buildings, thermal turbulence is more active and surface heat flux increases, leading to a higher urban temperature.As the building density increases, the aerodynamic roughness height of urban area decreases, and the effect of urban canopy on radiation strengthens. The increase of building density results in the decrease in urban surface heat flux, momentum flux, and air temperature, the increase in mean wind speed, and the weakening of turbulence in the daytime. While at night, the urban temperature increases due to the release of more heat storage.     

The Summer Surface Energy Balance of the High Antarctic Plateau

The summertime surface energy balance (SEB) at Kohnen station, situated on the high Antarctic plateau (75°00′ S, 0°04′ E, 2892m above sea level) is presented for the period of 8 January to 9 February 2002. Shortwave and longwave radiation fluxes were measured directly; the former was corrected for problems associated with the cosine response of the instrument. Sensible and latent heat fluxes were calculated using the bulk method, and eddy-correlation measurements and the modified Bowen ratio method were used to verify these calculated fluxes. The calculated sub-surface heat flux was checked by comparing calculated to measured snow temperatures. Uncertainties in the measurements and energy-balance calculations are discussed. The general meteorological conditions were not extraordinary during the period of the experiment, with a mean 2-m air temperature of −27.5°C, specific humidity of 0.52×10⁻³kg kg⁻¹ and wind speed of 4.1ms⁻¹. The experiment covered the transition period from Antarctic summer (positive net radiation) to winter (negative net radiation), and as a result the period mean net radiation, sensible heat, latent heat and sub-surface heat fluxes were small with values of −1.1, 0.0, −1.0 and 0.7 Wm⁻², respectively. Daily mean net radiation peaked on cloudy days (16 Wm⁻²) and was negative on clear-sky days (minimum of −19 W m⁻²). Daily mean sensible heat flux ranged from −8 to +10 Wm⁻², latent heat flux from −4 to 0 Wm⁻² and sub-surface heat flux from −8 to +7 Wm⁻².     

中国南方6省1月份降水和极端低温的分布特征

采用中国南方湖南、湖北、贵州、广西、江西和安徽6省近50 a 1月份降水和气温资料,运用正交函数分解法和SYM8小波分析了它们的时空分布特征,并对极端低温的区域均值进行了广义极值模型拟合,同时研究了降水与气温的相关性.结果表明,该地区1月份降水量主要有全区域分布型和南北分布型,极端低温主要有全区域分布型、南北分布型和东西分布型.1月份降水量的全区域总和以及南北部差值都有先增后减的趋势.全区域的极端低温缓慢增长,南北部的差值先减后增,东西部的差值在1975年以前递增,随后几乎趋于稳定.6省1月份极端低温区域均值服从Weibull分布,在95%置信水平下,预测50 a一遇和100 a一遇的极小值达-6.78 ℃和-7.41 ℃.1月份降水量与极端低温的相关不显著,与平均气温在局部地区为负相关.     

太湖水体势能异常及水体层化的特征及其机制

大型浅水湖泊的水体势能异常和层化对水生生态环境演变、局地天气及气候系统有着重要的影响。基于2009年8月11—22日和3月17—28日的气象数据及水温廓线,探讨了太湖水体势能异常和表层混合层深度的变化规律及其机制。结果表明:太湖水体势能异常呈现明显的日变化特征,晚间水体势能异常消失,而白天逐步凸现出来;水—气之间的热量交换是影响水体势能异常和水体层化程度的关键性因子;夏季水体势能异常和层化程度远强于春季,其主要原因是夏季风场引起的混合作用比春季弱,而夏季水—气热量交换对水体势能异常的增强作用比春季强;水体势能异常程度与表层混合层深度存在显著的指数关系。     

大连初冬一次辐射平流雾天气过程分析

利用大连机场地面观测资料、Micaps系统下常规资料、探空资料和NCEP/NCAR全球再分析资料,从天气形势和背景、探空资料分析和物理量诊断方面,对2009年11月30日-12月2日发生在大连地区持续性大雾天气过程做了详细分析。结果表明,本次持续性雾过程属于辐射平流雾,是在稳定的大尺度天气背景下形成的。探空资料表明,大雾发生过程中,边界层内出现一层逆温和多层逆温;边界层内近地层的逆温和充沛的水汽条件对雾的形成和长时间的维持起着重要的作用。热力结构分析表明,温度日较差大表明地面辐射冷却对本次大雾过程具有明显的作用;低层持续的弱暖平流输入,有利于近地层逆温的建立和维持。动力场结构分析表明,在中低层,大雾发生前期和维持时期,存在弱的辐合上升运动;在大雾消散期,存在明显的辐散下沉运动。水汽条件分析表明,增湿和冷却使此次大雾过程中水汽达到饱和状态产生凝结,在大雾过程的前期,存在弱的水汽辐合;在大雾消散期,存在水汽辐散。     

Countergradient Fluxes of Conserved Variables in the Clear convective and Stratocumulus-topped Boundary Layer: The role of the Entrainment Flux

Large-eddy simulations of a clear convective boundary layer (CBL)and a stratocumulus-topped boundary layer are studied. Bottom-upand a top-down scalars were included in the simulations, and theprinciple of linear superposition of variables was applied toreconstruct the fields of any arbitrary conserved variable.This approach allows a systematic analysis of countergradient fluxesas a function of the flux ratio, which is defined as the ratio betweenthe entrainment flux and the surface flux of the conserved quantity.In general, the turbulent flux of an arbitrary conserved quantityis counter to the mean vertical gradient if the heights where thevertical flux and the mean vertical gradient change sign do notcoincide. The regime where the flux is countergradient is thereforebounded by the so-called zero-flux and zero-gradient heights. Becausethe vertical flux changes sign only if the entrainment flux has anopposite sign to the surface flux, countergradient fluxes arepredominantly found for negative flux ratios. In the CBL the fluxratio for the virtual potential temperature is, to a good approximation,constant, and equal to -0.2. Only if the moisture contribution to thevirtual potential temperature is negligibly small will the flux ratio forthe potential temperature be equal to this value. Otherwise, theflux ratio for the potential temperature can have any arbitrary(negative) value, and, as a consequence, the fluxes for thepotential temperature and the virtual potential temperature willbe countergradient at different heights. As a practical application ofthe results, vertical profiles of the countergradient correction termfor different entrainment-to-surface-flux ratios are discussed.     

边界层参数化方案对暴雨数值模拟的影响

选取2003年7月4-5日南京暴雨个例，采用非静力中尺度模式MM5进行模拟，着重研究了不同边界层参数化方案对雨量中心强度、雨区分布的影响。结果表明：对于不同的边界层参数化方案，垂直速度场、水汽通量散度场、涡度场、水平风场的散度以及θse场都表现出不同的特征；合理边界层方案的引入对预报效果有明显的改进；结合边界层和自由大气的动力、热力结构进行了综合分析，给出了边界层作用与自由大气动力、热力结构的配置情况。说明这种配置对暴雨的形成是至关重要的。