暴雨徑流 的英文怎麼說

中文拼音 [bàojìngliú]
暴雨徑流 英文
direct runoff
  • : Ⅰ形容詞1 (突然而且猛烈) sudden and violent 2 (兇狠; 殘酷) harsh and tyrannical; cruel; fierce...
  • : 雨名詞(從雲層中降向地面的水) rain
  • : Ⅰ名詞1 (狹窄的道路; 小路) footpath; path; track 2 (達到目的的方法) way; means 3 (直徑的簡稱...
  • : Ⅰ動1 (液體移動; 流動) flow 2 (移動不定) drift; move; wander 3 (流傳; 傳播) spread 4 (向壞...
  • 暴雨 : torrential rain; rainstorm; hard rain; intense fall; squall; downpour; gush暴雨放大 storm maximiz...
  1. We can use the mm5 model in definite time, definite area weather forecasting. we conclude that : : the moving route of this necw in its developing progress was direct - south along latitude, the cold air is rough, and just this made the rough vertical velocity ; the necw southern moving and conflicting with the west pacification sub - tropical high makes rough jet steam. the plenty south - west warm and wet air made by the jet stream gave the rainstorm demanded vapor ;. the rough vertical velocity by jet stream is a main reason in this rainstorm ; the mm5 model uses four - direction analysis data as its input, this avoids some errors occurred in observe and transfer, thus made the result more useful

    綜合分析認為: ( 1 ) 、這次冷渦在其發生發展過程中,其移動路是沿經圈直線南壓,攜帶的冷空氣勢力較強,形成槽后較強的垂直運動; ( 2 ) 、西太平洋副熱帶高壓偏北位置與東北冷渦南壓形成的急軸,把源源不斷的西南暖濕氣輸送到遼西地區,也就是急軸的左前方位置,為這次的產生提供了充足的水汽來源; ( 3 ) 、低空急不但為輸送水汽,其造成的較強的垂直環也是產生強降水的一個主要原因; ( 4 ) 、 mm5模式以四維同化資料作為初始場,最大限度地避免了觀測誤差可能造成的積分不穩定,提高了模擬結果的參考價值。
  2. Moreover, hedgerow ecosystems were effective in controlling water and soil loss in june and august. under simulated rainfall, hemercoallis citrina baroni and p. rotation flligg hedgerow ecosystems had a significant effect on reducing water and soil loss in their later stages of plant growth, and there was a significant positive correlation between the effect on reducing water and soil loss and the rain intensities. moreover, hedgerow ecosystems decreased more soil loss than runoff, and the initial time of runoff incidences could well represent the water and soil conservation effects of hedgerow ecosystems

    Rotatumflligg )植物籬笆生態系統年量、年侵蝕量分別減少10 . 14 11 . 56倍和135 . 34 165 . 84倍;植物籬笆生態系統和大豆單作處理的量、侵蝕量、可產生侵蝕的降量之間呈極顯著正相關,建立了相應的降、降產沙、侵蝕模型,通過侵蝕量可以了解水土失的發生特徵; 6月和8月份(多短時)水土保持能力較明顯。
  3. In light of current using situation and drawing on the experience of many scholars researched methods and viewpoints, this thesis made com land, fallow land, orchard, grass land as experimental field in black soil region jlau, which carried out experiment by applying different amounts of n and p fertilization in corn field. by means of collecting the samples of rainfall runoff, erosion silt and surface layer soil before and after rainfall for one year nature precipitation in field, we study the effect of surface runoff on n and p nutrient and fertility degeneration. the results showed : ( l ) there are lots of factors which affect soil erosion and losses of n and p, in which rainfall and rainfall intensity were more important, while rainfall intensity is the most important meteorological phenomena factor

    針對當前黑土利用現狀,本文借鑒眾多學者的研究方法和觀點,在吉林農大黑土區選擇利用方式不同的玉米地、休閑地、果園、草地,在玉米區進行了不同數量的施肥,通過野外試驗,採集一年自然降及泥沙樣品,同時採集降前後的耕層土壤樣品,研究了黑土區地表對氮磷養分特徵及肥力退化的影響,結果表明:土壤侵蝕和氮磷的失受諸多因素的影響,降量、降強度是重要因子,而降強度是影響農田地表養分失的最重要的氣象因子,特別是暴雨徑流中氮磷濃度較平時高得多;隨作物生長,覆蓋度逐漸增加以及不同利用方式下表現的覆蓋度差異,氮磷失都表現為顯著的差異。
  4. In order to calculate quantitatively the process of rainfall - runoff, the css model of zhang cha catchment is developed based on epa ’ s swmm ( storm water management model ) in this paper. and then calculate cso spill water quality 、 spill volume and spill time at different intercepting ratio using the developed swmm, and analyze the effect on them by intercepting ratio

    為了實現上述降?過程的定量計算,本文引入美國環保局的城市水管理模型( swmm )建立了佛山市張槎排水區的合制排水系統模型,使用該模型計算了不同截倍數時溢污水的水質、水量以及溢時間,並分析了截倍數對它們的影響。
  5. Urban storm runoff analog and dynamic display system

    城市暴雨徑流模擬及動態顯示系統
  6. A study on the model of surface storm - water runoff at urban gully

    城市水口地面暴雨徑流模型研究
  7. Analysis on characteristics of storm runoff of east side of dianchi lake

    滇池東岸暴雨徑流特徵分析
  8. An analysis on the data of storm and runoff in yangdaogou small watershed

    羊道溝小暴雨徑流資料分析
  9. Storm - water pollution control using zeolite nitrogen absorption system

    復合沸石吸氮系統控制暴雨徑流污染
  10. According to the investigation of the dykes in xinxiang reach of the yellow river, the annual volume of soil erosion caused by storm runoff amounted to 0. 07 million cubic kilometres

    根據我們對新鄉地區內沿黃大堤的調查,每年暴雨徑流侵蝕大堤的土方量約達7 104m3以上。
  11. In order to eliminate the hidden trouble caused by storm runoff erosion, the mechanism of the storm runoff erosion on the slope surface of the yellow river dykes has been studied in this thesis. through the simulation rainfall experiments and field observations, the formation mechanism of storm runoff scouring, rills and sockets have been opened up. meanwhile the possible control measures have been suggested

    為了防治黃河大堤由於暴雨徑流沖刷造成的不安全隱患,本文針對黃河大堤上的暴雨徑流侵蝕進行了實地設站觀測及室內模擬降侵蝕試驗,通過揭示大堤沖刷過程機理,查清水溝、水穴(浪窩)等的成因,提出相應的防治對策。
  12. However, it lacks runoff data in absolutely most areas where culvert and small bridge locate. some traditional design method, such as the methods of statistic zone parameter, modification by catchment area, rainfall - runoff, reasoning formula and empiric equation et al, are used to estimate flood flow through culvert or bridge

    然而,絕大多數中小橋涵所在地卻沒有可利用的資料,通常採用統計分區法,面積改正法、暴雨徑流法、推理公式和經驗公式等傳統設計方法,這些方法一般比較繁瑣、精度較低、設計的量偏大,導致工程造價偏高而浪費資金。
  13. Climate in this valley changes sharply with vertical difference and rainfall increases with the height. calculation indicates that the design day rainstorm amount reaches 133mm, the rainfall intensity of day storm reaches 6. 05mm / h, the design storm peak discharge is 239. 7m3 / s and 753. 0

    在計算泥石峰值量時,因考慮到泥石固體物質的前期含水量、泥石堵塞斷增加的暴雨徑流量、泥石間歇性陣的迭加量都會使泥石量增加,需要在計算公式中引入一個泥石量積累系數。
  14. 6. when the rainfall frequency was 83. 11 % that belong to low energy of rainfall, vegetation cover rate that was bigger than 80 % can totally diminish runoff energy, and prevent soil erosion. with eroded rainfall energy increasing the cut rate of vegetation for erosion gradually weak

    ( 6 )對于發生頻率為83 . 11的低動能降,植被蓋度80可完全削減能量,防止水土失;隨著侵蝕性動能的增加,植被對能量的削減率逐漸減弱。
  15. Considering that the infiltration capacity curve can ' t express the actual infiltration capacity, the authors develop the surface runoff yield models that combine with the infiltration capacity curve, unstable raining process and antecedent soil moisture in each rainfall or over a duration time

    考慮到域實際的下滲能力,建立了將下滲能力曲線、不穩定降過程和前期土壤含水量有機聯系起來的域場(時段)地表計算模式。
  16. Lesson engineering measure for research mainly from the sloping fields flow recycling potential analysis with gathering the water technique the both side collecting the region ' s rain - storm flood the data, year declining the water year the flow the data and water and soil conservation data, analysis combine intoing the small river valley flood the path comparing coefficient, water and soil conservation not flow coefficient, revising the new concept of deep etc. flow of year path, establishing synthesizing solving the sloping fields flow recycling the potential computing the model, bring upping gathering the water technique is with the

    課題研究主要從坡地資源化潛力分析和集水技術兩方面入手,以典型區域為代表,收集了該地區洪水資料、年降水年資料及水土保持資料,分析並引入了小域洪比系數、水土保持不產系數、修正年深等新概念,建立了綜合解決坡地資源化潛力計算模型,提出了集水技術的工程措施和方法。
  17. By the test of the imitated rain, the article researches some rainfall runoff features of the plain area which the slope is less than 3, the changing regulation of runoff coefficient under the steady rainfall condition, puts forward the calculation principle of the rainfall runoff this area by using the maximum runoff coefficient method and makes a calculation of the runoff for the process of rainstorm under the unsteady or natural condition

    利用仿試驗,研究地面坡度小於3的平原區降的特徵,穩定降條件下系數的變化規律,提出了「最大系數法」對平原降的計算原理,對非穩定及天然條件下的過程進行了計算。
  18. It can improve air quality, regulate air temperature, economize energy resource and enhance the see factor of the urban energy resource, store earth and keep water, decrease the rate of flow caused by t & 1ntial rain, provide various animals, micro organisms with living places, protect the organism ' s variety, beautify urban environment, enhance urban grade and benefit the heath of the public physical and mental healthy

    城市林業能夠改善空氣質量,調節空氣溫度,節約能源,提高城市的能源利用效率;蓄土保水,減少量;為各種動物、微生物提供棲息地,保護生物多樣性;美化城市環境,提高城市品位,有益於公眾的身心健康。
分享友人
分享到 Line

分享到臉書