flood volume 中文意思是什麼
flood volume
解釋
洪水量-
In the program, the effect of lamination placement, construction interval, elastic modulus change, thermal insulation change, surrounding temperature change, concrete creep and autogenous volume change on thermal stress are considered. and such temperature control measurement as water pipe cooling, heat preservation of the dam surface, the pouring temperature control, the overflow across the dam top during flood season can also be simulated by numerical method
該程序在編制過程中考慮了混凝土分層澆築、施工間歇、彈模變化、絕熱溫升過程、環境溫度的變化、混凝土徐變、自生體積變形等因素對壩體溫度場及溫度應力場的影響,同時也考慮了水管冷卻、壩體表面保溫、控制澆築溫度、施工汛期壩頂面過水等各種溫控措施的數值模擬。 -
Volume is # 5 - second book of the cosmic forces of mu - churchward continues to draw conclusions from the ancient documents and lore of mu to present some startling revisionist theories about the age of the earth, the nature of mountains and volcanic processes, the ice age and flood
卷五? ? 《姆大陸的宇宙力量(二) 》一書? ?查斯沃德繼續從遠古文獻和姆大陸的知識去總結,呈現一些有關地球紀元的令人驚訝的修正主義理論,山脈和火山的自然過程,冰河時期和大洪水。 -
The summer flood reason is the key period for reservoir controlling flood and achieving benefit because this stage is longer and the volume of flood is larger
對水庫春汛的防洪風險進行了定性分析。水庫夏汛時間長,洪量大,是水庫確保防洪安全和實現興利效益的關鍵時期。 -
Ii ) runoff erosivity reflects relationship of water erosion forces and sediment yield more directly than rainfall erosivity. it intergrated ability of runoff volume and flood peak on detaching soil and transporting sediment and is more reasonable than single runoff depth or flood peak volume
( 2 )以徑流侵蝕力代替降雨侵蝕力來反映水蝕營力與產沙量的關系更加直接,而且綜合了徑流量與洪峰在剝蝕土壤和搬運泥沙能力,比單獨運用徑流深或洪峰流量更加合理。 -
The objective of the optimal model is to keep the flood process mode similar and subject to restrictions of the actual peak flow discharge and flood volume in different period of time, the ga and prsaa that have global optimal capabilities are used to solve the model in this paper
在滿足洪峰流量約束和分時段洪量約束條件下,本文建立了以洪水過程模式盡量相似為目標的洪水過程放大優化模型,並採用具有全局搜索能力的遺傳演算法和并行組合模擬退火演算法求解該模型。 -
Research on scaling properties of the variation of flood volume with duration
洪量隨歷時變化的標度性質研究 -
And a scaling lognormal model of flood volume is introduced to represent the affection of temporal scale of duration in annual maximum flood volume distributions
並提出了洪水洪量的對數正態分佈模型來表徵年最大洪量分佈中歷時的尺度影響。 -
Lastly, the scaling hypotheses is applied to the relationship of flood volume and duration in this paper. the flood intensity - duration - frequency form is proved based on the temporal scaling property of flood
最後,本文將標度不變性引入洪水洪量? ?歷時關系中,對大流域年最大洪量隨歷時變化的標度性質行了嘗試性的研究。 -
From the case study, it can be seen that the results of two algorithms can satisfy the restrictions of the actual peak flood discharge and flood volume and keep the mode of the typical flood effectively and avoid the manual randomicity
通過實例計算可以看出,這兩種演算法計算結果均能較好的滿足洪峰洪量約束要求,並有效保持了典型洪水的模式,避免了人工修勻的任意性。 -
It has not only the effect of deducting flood peak and retenting flood but also a little decrease of the volume of floods into the yellow river
不同時期堤防的建設標準及河道條件不同,夾灘地區的滯洪作用也不同。 -
Based on the analysis of flood data of 1935, 1937, 1954, 1958 and 1982, the flood storage effect is related to flood volume, flood process, intensity of dyke break and others
在現狀堤防條件下,如果再發生1954 、 1958年量級的洪水,在確保洛河北大堤安全的情況下,有計劃地使用夾灘及南岸滯洪區滯洪,則夾灘地區對入黃洪水的削峰率可達20 % 25 % 。 -
The paper analyzes and summarizes the following laws of distinctive sediment yield produced in storm floods of the region based on predecessors ' study : storm is the main dynamic force of erosive sediment yield and storm, flood and sediment exist an inevitable relation ; the flood occurring time is concentrated with high peaks and huge volume, suddenly rising and suddenly falling and has decisive influence to the formation of a major flood peak in the middle yellow river ; the main reasons of concentrated coarse sediment of the river is severe erosive sediment yield, strong sediment transporting capacity and high sediment concentration ; the important influence of frequent or continued storm floods happened in he - long reach especially in coarse sediment concentrated region to the sediment transport of the yellow river and ; along with the increase of harnessing, regional flood trend is becoming smaller but the variation of sediment quantity is not obvious and the reaction of peak discharge and flood runoff of majority tributaries are not sensitive, showing that a general and normal engineering works can not effectively control regional major floods especially the sediment of an extraordinary flood
摘要在前人研究的基礎上分析總結了該區特有的暴雨洪水產沙規律:暴雨是侵蝕產沙的主要動力,暴雨、洪水、泥沙之間存在著必然的關系;洪水發生時間集中,峰高量大,暴漲暴落,對黃河中游大洪峰的形成具有決定性影響;侵蝕產沙強烈而粗泥沙集中,輸沙能力強,洪水含沙量高,是黃河粗泥沙的集中來源地;河龍區間特別是粗泥沙集中來源區頻繁或連續的暴雨洪水對黃河輸沙有重要影響;隨著治理水平的提高,區域洪水有減小趨勢,但泥沙量變化不明顯,大部分支流的洪峰流量、洪水含水量反應不敏感,說明一般規模和水平的治理工程還不能有效控制區域大洪水特別是特大洪水的泥沙。 -
In harnessed watershed, a is smaller and b is bigger, but they are contrary in no - harnessed watershed. the flood peak volume modulus and sediment transport modulus is also power function relationship. but parameter a and b is different largely in different watershed and the relativity is not well than relationship between runoff depth and sediment transport modulus
參數a 、 b可以反映流域有無治理的差異,參數a在有治理或部分治理的流域內均小於無治理流域;參數b在有治理流域內則較無治理流域偏大;流域次降雨洪峰流量模數與輸沙模數也為冪函數關系,但參數a 、 b在不同流域之間差別較大,其相關性不如徑流深與輸沙模數關系好。 -
The character of flood channel can be determined by dominate current, dominate tidal volume, dominate sediment concentration, channel geometry configuration and direction of bed sediment transport and so on
用優勢流、優勢沙、優勢潮量、漲潮槽形態和凈底沙運移方向的方法都可以表達漲潮槽的性質。 -
The system under researched in this thesis shows several characteristics, such as small volume, low cost and stability, etc. it will find its application in home surveillance and other situations that with no human guarding, for example, uptown security surveillance, remote education, oil field observation, traffic control and flood prevention, etc. the system can be divided by function into three parts : image collection, dsp image compressing and image transmitting in pstn
本課題研究的基於pstn的圖像傳輸系統具有體積小、成本低,性能穩定可靠等特點。可應用於家庭監控,另外也可廣泛應用於各種無人值守的場合,如:小區保安監控、遠程教學、油田觀測、道路交通監控、防汛等。本系統從功能上分為圖像採集、 dsp圖像壓縮以及pstn圖像傳輸三部分。 -
Stochastic model for flood peak discharge and multistation flood volume
洪水多站峰量同時模擬的隨機模型
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