日平均降水量 的英文怎麼說

中文拼音 [píngjūnjiàngshuǐliáng]
日平均降水量 英文
average daily precipitation
  • : Ⅰ名詞1 (太陽) sun 2 (白天) daytime; day 3 (一晝夜; 天) day 4 (泛指某一段時間) time 5 (日...
  • : Ⅰ形容詞1 (沒有高低凹凸 不頃斜) flat; level; even; smooth 2 (高度相同; 不相上下) on the same l...
  • : Ⅰ形容詞(均勻) equal; even Ⅱ副詞(都; 全) without exception; all
  • : 降動詞1. (投降) surrender; capitulate 2. (降伏) subdue; vanquish; tame
  • : 名詞1 (由兩個氫原子和一個氧原子結合而成的液體) water 2 (河流) river 3 (指江、河、湖、海、洋...
  • : 量動1. (度量) measure 2. (估量) estimate; size up
  • 日平均 : [氣象學] daily mean
  • 降水量 : precipitation; amount of precipitation降水量計 precipitation gage; 降水量學 hyetology
  1. Because the degree of humidity is feat, the sunshine is long, the frost period is short, the visibility is good, the fresh flowers are often the year not to fade, the plants grow all the year round green, so it is well know as the spring city in the world

    l035毫米左右。由於溫濕度適宜,照長霜期短,能見度良好,鮮花常年不謝,草木四季長青,故以「春城」稱譽世界。
  2. Using the daily and monthly ncep / ncar reanalysis data from 1951 to 2000 and monthly precipitation of 160 stations in china in summer from 1951 to 2000, the climatic distribution of heat source are computed. the responses of the asian monsoon circulation to the annual anomaly of the heat source over the bay of bengal in summer and the annual relationship between the heat source and the precipitation of china in summer are analyzed

    摘要利用1951 - 2000年ncep / ncar再分析逐及月資料和我國160個測站1951 - 2000年月資料,計算了夏季大氣熱源氣候分佈,分析了夏季孟加拉灣地區熱源年際異常及亞洲季風環流系統的響應,以及夏季孟加拉灣地區熱源與中國夏季的年際關系。
  3. The paper explored the pdf of the spatial distribution of the day precipitation. the result shows that the weibull distribution is good on describing the heterogeneous of the spatial distribution of the day precipitation in china. the exponential distribution is n ' t ideally suited to the day precipitation

    利用負指數分佈和weibull分佈擬合全國范圍內的逐空間概率分佈模式,發現負指數分佈模式並不能很好的擬合大范圍區域逐場空間分佈型,而weibull分佈的擬合效果很好,表明用weibull分佈描述中國區域逐空間分佈非勻性的分佈律是非常適宜的。
  4. Second, the bar of the frequency - distribution and the curve of lorenz and the g coefficient are talked about the spatial distribution of day to day precipitation. the results show that the heterogeneous of day precipitation is strong on every day in a year. the spatial distribution model is left skew all in four seasons and it is different from the monthly precipitation

    其次利用全國700個測站逐資料的空間分佈頻數直方圖及洛倫茲曲線和基尼系數闡述了我國逐( 24小時)勻性的事實,直方圖顯示全國范圍內逐空間分佈型在四季都是一種明顯左偏態型,與月空間分佈型略有不同;基尼系數值的月際變化也與月的變化相反。
  5. The daily change law of air ion is : the density of air ion in morning is the highest, it falls at noon or in the afternoon. while it raises again in the dusk. ( 2 ) in summer, the density of air anion in songgu and diaoqiao scene district is more than 30000 / cm3, while in yungu scene district and bailongtan, renzipu of wenquan scene district it is 10000 / cm3. in beihai it reachs 18000 / cm3, the density is not well - distributed in xihai, yupin and tianhai, it presents a kind of jumping change ; ( 3 ) the air anion density in winter is small than 1000 / cm3 only at yiranting, taoyuan square of wenquan and yupinglou

    大氣離子變化規律是:清晨最高,正午或午後低,傍晚又比較高; ( 2 )夏季,松谷景區和釣橋景區的負離子濃度在30000個cm ~ 3以上,而雲谷景區和溫泉景區的人字瀑和白龍潭測點負離子濃度在10000個cm ~ 3以上;北海景區負離子濃度在18000個cm ~ 3以上,西海、玉屏和天海三景區的負離子濃度分佈不勻,呈現一種跳躍性變化; ( 3 )冬季負離子濃度只有溫泉景區的翼然亭、桃園廣場和玉屏樓的負離子濃度小於1000個cm ~ 3 ,其它地方的負離子濃度大於1000個cm ~ 3 ; ( 4 )全風景區中以松谷和釣橋景區的負離子含高,而且它們在春季負離子含也超過8000個cm ~ 3 ,具有治病的功能;溫泉景區的人字瀑和白龍潭測點負離子濃度春季超過16000個cm ~ 3 ; ( 5 )整個風景區的負離子含大於正離子含,用單極系數q和空氣離子評議系數ci評價,各景區的q 1 , ci 1 ,高於最佳空氣清潔度的指標。
  6. As to the fresh water, it is fresh water loss - in japan and east china sea with annual - 267mm and - 391mm respectively. south china sea gains fresh water with annual 222mm. there is a long and narrow maximum center off the west - northern kalimantan coast in indonesia, which gets 192mm in january and 1260mm yearly

    方面,本海和渤黃東海蒸發大於,區域年淡分別為- 267和- 391mm ,而南海該通為正值,區域年總通為222mm ,並在印度尼西亞加里曼丹島西北岸有一狹長的淡最大值中心,在一月可達192mm ,年總通1260mm 。
  7. With the analysis methods of eof, reof, wavelet, correlation, running mean, and synthesis, sanxia summer precipitation ( sxsp ) anomaly rules and its reasons is studied. the results show that : ( 1 ) sxsp anomalies exhibit remarkable variation cycle of 15 years, 6 - 7 years and 2 ~ 3 years. the distribution of sxsp is in phase with the middle - low reaches of the yangtze river, while it is out of phase with that of middle and west of sichuan basin

    本文採用1959 2001年三峽庫區44個觀測站夏季( 6 8月)資料、 1959 2001年ncep ncar逐月、逐資料, 1959 2000年中國160站資料、全球逐月海溫資料等,利用eof 、 reof 、小波變換、合成分析、相關分析、滑動等方法,研究了三峽庫區夏季異常規律及其成因。
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