河西走廊东部一次霜冻天气过程成因及其对农业的影响

2016年5月15日清晨河西走廊东部发生区域性强霜冻天气,对农林业生产造成了2004年以来最为严重的灾害。本文利用实时MICAPS常规观测资料、物理量场和河西走廊东部区域内6个国家自动气象观测站和93个区域气象站观测资料,对这次冻害天气过程的天气学成因进行分析,在此基础上分析了霜冻对农业的影响。结果表明强冷空气爆发是造成冻害的直接原因;0 cm地面温度和气温≤0 ℃持续时间长,导致农林作物深度冻伤;前期气温偏高使得农林作物发育期提前,加之霜冻出现时间偏迟,农林作物抵抗冻害的能力明显下降,冻害影响加重;冻害发生后,温度急剧上升、湿度迅速减小,作物水分强烈蒸腾,作物细胞失去受损,导致受灾程度加重。     

我国华东与西南县域主要气象敏感性疾病变化特征及其医疗费用研究

摘要：针对目前医疗费用不断上涨的现实问题,基于安徽省阜南县和贵州省锦屏县相关医疗机构的全部住院数据和气象资料,首先分析两县疾病谱特征,然后从季节和24节气角度,分析两县主要气象敏感性疾病（因天气和气候异常变化而诱发或加重的相关疾病）住院人次和医疗费用的变化特征以及人体舒适度对当地主要气象敏感性疾病发病的影响。结果表明,阜南县和锦屏县人群中住院人数最多的疾病分别是循环和呼吸系统两大类气象敏感性疾病,医疗费用最高的前六位疾病都包含循环、呼吸和消化系统疾病,其三者医疗费用总和分别占两县总医疗费用的44.9%和45.8%,因此,从降低医疗费用的角度来看加强这三类主要气象敏感性疾病的预防十分重要。此外,三种系统疾病医疗费用呈现出明显的季节变化特征：其中,循环系统疾病的医疗费用在季节转换期间明显高于各季节内,呼吸系统疾病冬春季的医疗费用远高于夏秋季节,消化系统疾病夏季医疗费用最高。两县9月的体感温度最接近人体最佳舒适温度,而此时上述三类疾病的住院人次及医疗费用也是相对低点。此研究结果可为当地相关疾病的适时防控、有效降低医疗费用提供科学依据。     

DPP100－3型钻机改型设计中的几个问题

讨论了ＤＰＰ１００－３型钻机在改型设计中动力匹配，改换汽车底盘的轴荷分配，改装部分的传动装置布置等，主要以选用ＣＡ１４１Ｓ型汽车底盘的改型设计为例进行说明。     

Development of Artificial Intelligence Technology in Weather Forecast

Numerical weather prediction, which is the major basis of current weather forecast, has some shortcomings, such as the understanding of the law of atmospheric motion, the assimilation and application of observation data, the expression of model physics, etc., leading to the forecast error of weather. The rapid development of artificial intelligence technology in recent years provides a new possibility for the advancement and innovation of weather forecast. In this paper, the background of the development of artificial intelligence, the current situation of the application of artificial intelligence technology to weather forecast and the future development trend are mainly described to account for this possibility. After that, the idea for development of weather forecast technology based on the integration of artificial intelligence and numerical forecast is put forward. Particularly, this study stresses that, in order to advance the AI algorithm of weather forecast in the future, it is requested to focus on the nonlinear and chaotic characteristics of atmospheric motion leading to the uncertainty of forecast. Starting from the essence of mathematics and physics, we need to realize the hybrid modeling of mathematics and physics, not only to establish the framework of input-output mapping, but also to provide solutions to the bottleneck problems of weather forecast.     

1904～1907年拉萨气候特征再分析

通过对以《有泰拉萨天气日志》为主的历史文献资料的深入挖掘 ,作者分析了 1 90 4年 2月 9日～ 1 90 7年 4月 1 7日拉萨的气候特征 :气候温暖 ,暖冬现象显著 ,而且 1 90 5年气温高于 1 90 4年 ;干旱气候占主导地位 ,间有多雨期 ;天气多变 ,多风 ,有雾 ;水灾、雪灾、干旱等自然灾害严重。拉萨与全球同时段的气候变化大体一致。     

Application of the hydrologic visibility concept to estimate rainfall measurement quality of two planned weather radars

This paper presents a practical application of the “hydrologic visibility” concept to select the future site of two planned weather radars of the French national network ARAMIS. This selection was realised by simulating the errors in radar rainfall measurement due to interactions of the radar beam with relief, and to the vertical variation of the radar reflectivity with altitude. Results show the interest of these simulations to optimise the radar location according to the objectives of radar coverage. Beyond these results, this paper highlights aspects interesting for hydrology: this type of simulation can be used to assess the radar measurement quality before initiating a quantitative exploitation of radar data, and before making a comparison or a combination with rain gauge data.     

Acceleration response modification factors for nonstructural components attached to inelastic moment‐resisting frame structures

A statistical analysis of the peak acceleration demands for nonstructural components (NSCs) supported on a variety of stiff and flexible inelastic regular moment‐resisting frame structures with periods from 0.3 to 3.0 s exposed to 40 far‐field ground motions is presented. Peak component acceleration (PCA) demands were quantified based on the floor response spectrum (FRS) method without considering dynamic interaction effects. This study evaluated the main factors that influence the amplification or decrease of FRS values caused by inelasticity in the primary structure in three distinct spectral regions namely long‐period, fundamental‐period, and short‐period region. The amplification or decrease of peak elastic acceleration demands depends on the location of the NSC in the supporting structure, periods of the component and building, damping ratio of the component, and level of inelasticity of the supporting structure. While FRS values at the initial modal periods of the supporting structure are reduced due to inelastic action in the primary structure, the region between the modal periods experiences an increase in PCA demands. A parameter denoted as acceleration response modification factor (R_acc) was proposed to quantify this reduction/increase in PCA demands. Copyright © 2007 John Wiley & Sons, Ltd.     

祁连山东部沙尘暴天气成因及气候规律分析

利用我国沙尘暴多发区 ,甘肃省祁连山东部民勤、武威等 4站建站以来近 5 0a的气象资料 ,详细分析了祁连山东部沙尘暴天气发生的成因 ,造成的危害情况及变化规律 ,指出土地沙漠化和大风是造成沙尘暴的主要原因 ,并提出沙尘暴天气的防御对策。     

714SD多普勒雷达在强降水中的应用

本文针对近几年汕头地区出现的强降水天气，重点开展了多普勒天气雷达速度回波及其产品的应用研究，结合相应的天气背景、物理量变化对强度回波和速度场回波作一些分析，归纳总结出台风、冷锋锋面、暖切变、西南急流、脊后槽前辐合区、东风波等不同天气形势下强降水的类型及其回波特征，并尝试性地解释了一些特殊回波的风场结构和天气现象。     

根据天气类型划分欧洲中期天气预报中心的集合预报产品

该研究的主要目的是找出一种对集合预报产品进行释用的新方法。其基本假定是集合预报要素在一定程度上代表了未来可能发生的天气形势。为了解决天气尺度在中期预报的不可预报性问题 ,引入了天气类型的概念。对集合预报进行划分的方法是 Diday提出的动力模糊法 ,初始划分时的重心由天气类型定义 ,划分用到的距离是位移和最大相关方法。根据城市块 (City- Block)距离找出了影响中国的按冬夏两季划分的天气类型 ,初步划分结果表明 ,欧洲中期天气预报中心的集合预报系统可以预报出横槽转竖型天气类型的演变情况 ,在夏天的预报效果则没有冬天好。