dynamic flow中文是什么意思

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中文翻译
造句

动力流
流体动力

dynamic adj. 1.动力的，动力学的；力学(上)的；动(态)的 ...
flow vi. 1.流，流动。 2.(血液等)流通，循环。 3. ...
dynamic air-flow 动式气流,动力气流
dynamic axis of flow 河流动力轴线
dynamic cardiac blood flow 心脏动态血流量
dynamic core flow test 岩心动态流动试验
dynamic flow calculation 动态流计算
dynamic flow diagram 动力流程图; 动态流程图
dynamic flow test 动态流动试验
flow(dynamic) rack shelving 轻型
flow(dynamic) racking 重型流力架
gas dynamic flow 气体动态流动
dynamic adj. 1.动力的，动力学的；力学(上)的；动(态)的；起动的。 2.有力的，有生气的；能动的；(工作)效率高的。 3.【音乐】力度；强弱法的。 4.【医学】机能(上)的。 5.【哲学】动力论的，力本论的。 a dynamic personality 活跃的性格。 a dynamic atmosphere 生气勃勃的景象。 a dynamic population 动态人口。 n. 〔限指 dynamic〕 (原)动力；动态。 adv. -ally
a flow of 连续不断的某事物; 源源不断的
flow vi. 1.流，流动。 2.(血液等)流通，循环。 3.流过；川流不息；(时间)飞逝；(言语等)流畅。 4.(衣服、头发等)飘动，飘拂，(旗等)飘扬。 5.流出，涌出。 6.(潮)涨 (opp. ebb)。 7.出血，行经。 8.充满，斟满，富有。 9.〔古语〕泛滥。 10.来自。 Blood will flow . 一定会流血生事。 vt. 溢过，淹没;使泛滥，使充溢。 flow away 流走;流逝。 flow down 流下。 flow in 流入。 flow like water (酒)源源不绝。 flow out 流出。 flow over 横流，溢出，泛滥。 flow over into 涌入。 n. 1.流，流水，迳流，气流。 2.流出，流入，流动；川流不息。 3.流量，消耗量；流速，流率；生产量。 4.涨潮。 5.〔常 pl.〕 (特指尼罗河的)泛滥。 6.洋溢，饱满，丰满。 7.滔滔，流畅。 8.(衣服、头发等的)飘动，飘拂；(旗等的)飘扬。 9.【医学】月经 (＝ menstrual flow )。 soil flow 【地质学；地理学】流砂。 a flow of eloquence 口若悬河。 a flow of ten gallons a second 每秒十加仑的流率[量]。 a good flow of milk 丰富的挤奶量。 ebb and flow 涨落，盛衰，消长。 The tide is on the flow . 正在涨潮。 a flow of spirits 精神饱满，兴致勃勃。 a flow of soul 推心置腹，融洽的交谈。 flow of talk [conversation, words] 健谈，善于词令，滔滔不绝。 the flow of time 时光流逝。 a flow of traffic 车水马龙。
flow in three dimensions; 流入
flow into 注入于
no flow 不出水; 无再流
with-flow 正向车流
dynamic brake (dynamic braking) 动力煞车，动力制轫
a dynamic equlibrium 动态平衡
accuracy, dynamic 动态准确度
angio-dynamic 血管动力学的
balance，dynamic 动态均衡
behavior dynamic 行为驱动力

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例句与用法

Reservoir dynamic flow unit and remaining oil distribution
储层动态流动单元及剩余油分布规律
Study on polymer melt dynamic flow field in the coaxial cylinder circular flow
同轴圆柱环流聚合物熔体动态流场的研究
Plastics - smoke generation - determination of optical density by a dynamic flow method
塑料.烟雾的产生.用动态流动方法对光密度进行测定
The traditional design method of propellers is calculating the surface of propeller from table of offsets , which is low - precision and time - consuming . the dynamic flow performance could n ' t be forecasted by this method
传统搅拌桨设计都仿照船用推进螺旋桨的图谱设计法，查表计算，精度低、周期长，且无法预测桨的流体动力性能。
Moreover presents a step - to - optimization contract mode that can effectively estimate the cost of customer ' s participation in order to take a customer - specific incentive payment and maximize the benefit of utility by using the customer behaviors . meanwhile also discusses a model about the dynamic flow model with the consideration with interruptible load . on the other hand , this paper discusses the influence from the demand side generation for the electric power system and presents an advanced design model for distribution networks , especially for demand side generations
本文首先总结了需求侧管理的基本概念和主要内容，然后根据以前的研究成果，提出一种基于用户行为的分步优化合约方案，能有效的估算用户实施该措施的成本，从而达到电力公司收益最优，同时讨论了考虑可中断负荷的动态潮流模型；另一方面，本文还基于分布发电技术，探讨了用户发电资源对电力系统的影响，并提出考虑该资源的配电网规划模型改进方案。
Nevertheless , as the simulating technology involves the integrated high - techs and knowledge of computers , networks , images and graphs , multi - medias , software engineering , information processing and automated control , the simulating system is affected by its own characteristic - featured conditions , running environment and training requirements , thus yielding many problems that exist in our marine engine room simulators being currently used . for example : the mers system has poor working stability and high rate of breakdown ; its viewing device is yet to be updated , as the true aspect of the engine room can not be seen during training ; the teaching display board can not display the running state of the system with 3 - d animations , neither can it change the dynamic flow chart , etc . the afore - said problems have been greatly retarding the seafaring teaching and training , and restricting the application value of mers , as a consequence
但是，由于轮机模拟器仿真技术综合了计算机、网络技术、图形图像技术、多媒体、软件工程、信息处理、自动控制等多个高新技术领域的知识，仿真系统受到了其特有的制约条件、运行环境和训练要求的影响，现行轮机模拟器在应用中还存在着许多问题，如：轮机模拟器系统工作稳定性差，故障率高；视景装置落后，训练中见不到机舱真面目；示教板不能用三维动画来显示设备运行状态，不能更换动态流程图等。
Using the hulscher model of the formation of sand waves and sandbanks , under the ancient bathymetry , or under the modern bathymetry , the stokes number of the tidal flow and resistance parameter in the radial sandbanks satisfy the conditions for the formation of sandbanks . the research demonstrates that the dynamic flow conditions result in the development of tidal current sandbank . the radial sandbanks and it ' s asymmetrical distributions will still maintain in the future
应用hulscher沙波及沙脊增长模式，通过对该海域斯托克斯数及底部阻力参数的计算首次发现，南黄海辐射沙脊群海域在概化古地形和现代辐射状沙脊群水下地形情况下，其斯托克斯数及底部阻力参数均满足形成潮流沙脊的条件。