fluid flow system 中文意思是什麼
fluid flow system
解釋
液流系統-
By using the larger magnetic permeability, magnetic fluid was used to improve the magnetic circuit efficiency in torque motor, enlarge the output torque and displacement of torque motor, and the output flow of servo valve. correspondingly, the ability of noise - overcoming and system damping was enhanced due to the property of magnetic fluid. as a result, the stability of servo valve and servo - control system can be improved
由於磁流體具有較大的導磁率,可提高力矩馬達磁路效率、增大力矩馬達的輸出力矩和位移,從而增加伺服閥的輸出流量;同時,利用磁流體的粘度特性,可增強力矩馬達阻尼及抗干擾能力,從而增強伺服閥及伺服控制系統的穩定性。 -
Mimics the lymphatic system, delivers and promotes lymphatic flow and move fluid in the correct physiological direction
模仿淋巴系統之運動,促進淋巴系統運作,使淋巴液得以依正確的方向運送。 -
According to the fluid mechanics, euler ' s method, and the concepts of traffic flow system and control field are proposed
參照流體力學,提出研究交通流的歐拉方法、交通流系統和控制域的概念。 -
With the popularity of rotary machinery in industry, the characteristics of the flow in the controlling pipe system, the transporting pipe system, and the cooling pipe system are the main factors to improve the efficiencies of the rotary machinery, consequently, fluid flow in rotating pipes has become one of the urgent problems in engineering and one of the challenging research fields in fluid mechanics
隨著旋轉性機械在工業中的廣泛應用,其中的控制管路系統、輸送管路系統、冷卻管路系統的流動性質是提高這些機械性能的重要因素,因此這些管路系統中流體運動的特點成為工業應用中迫切需要解決的問題,也成為流體力學中最有前途的研究領域之一。 -
These results validate that micro - piv is well suitable to investigate fluid flow in the microchannels in condition that the right seeding particle, microscope system and illumination pattern is selected
這表明通過選擇合適的示蹤粒子、顯微系統和照明方式, mpiv技術在微尺度流體機械內流的實驗研究領域有很大的應用空間。 -
The fluid pressure pulse in seawater piping system can cause flow - noise that badly affect the environment and worker in health, even lead to deterioration in operation security of piping system
海水管路系統流體壓力脈動及其引起的流噪聲對環境及人員的身體健康有許多不良影響,也會降低管路系統自身工作可靠性。 -
Therefore, this paper studies three kindsvalves such like bufferfly valve, brake valve and ball valve, with the numerical simulation method by cfx which is often used to simulate the fluid. by the simulation of three kinds of valves, we can kown dynamic characteristic of them. in this paper, i not only simulate for three kinds of valves, but also analyse cause of flow - noise and give respectively mathematical model of main noise sources in piping system such as pupm and valve
本文通過cfx軟體,用數值模擬的方法,對海水管路系統中常見的三種閥門(蝶閥、閘閥、球閥)流動特性及噪聲進行了模擬分析,闡明閥門噪聲產生的機理,建立了泵和閥門等噪聲源的數學模型,並對管路系統中涉及到的邊界條件做了適當的處理,分析了閥門下游的渦聲。 -
Based on the theory of fluid dynamics. transient - flow and vibration, the structure parameters of the air - volume ( such as the volume and position of the air - volume ) affect the pressure oscillation in piping system is put forward, and the designing method for the parameters of the air - volume according to the role of the air - volume is provided
本文根據流體力學、瞬變流以及振動學的理論,研究了管道系統中空氣室結構參數(空氣室的容積,安裝位置等)對壓力脈動的變化規律,提出了根據空氣室工作任務要求設計空氣室的計算方法。 -
It ' s a spr instrument based on angular interrogation, which can fulfill not only wide range but also highly sensitive angular scan. utilizing the principle of virtual instrument, an expandable, easy to use system control and data processing software is presented. micro fluid injection system, spr chips and temperature - controllable flow cell are developed as the accessories of the spr instrument
它是一種基於高精度機械掃描結構的諧振角調制spr系統,採用先進的虛擬儀器技術以及嵌入式微控制器為主體的儀器;設計、編制了操作簡便、功能完備的信息處理軟體和操作控制軟體;設計和製造了配套的小型流動注入系統、溫控測試池及可批量制備的spr生物傳感晶元等,具有創新性。 -
The three dimensional flow field of the step cylinder in hydraulic control rod driving system ( hcrds ) is calculated and analyzed with the computational fluid dynamics program cfx5 in detail
摘要應用計算流體力學程序cfx5對水力驅動控制棒步進缸內部的三維流場進行了計算和分析。 -
To have studied structures of oil - water two phases system - flow patterns according to different fluid conditions. for distinguished difference of viscosity between oil and water, their fluid structure featured different flowing characters
3 、深入研究了油、水兩相流動因所處的流動條件不一而具有多種流動結構,即流型。 -
Rotating pipes system are often encountered in the rotary machinery of engineering applications. with the popularity of rotary machinery in industry, the characteristics of the fluid flow and heat transfer in the controlling pipe system, the transporting pipe system, and the cooling pipe system are the main factors to improve the efficiencies of the rotary machinery. meanwhile, when a man is in the aerocraft with a high rotating speed or in the rotating machine for training, the flow in the blood vessel of body will change evidently and so the study on the flow in the blood vessel also becomes the important research field in the aerial - physiology
在旋轉狀態下,這些曲線管路系統中的流動和換熱特性將會發生什麼樣的變化,是對管路系統的性能以及旋轉裝置的運行安全至關重要的問題,也是管道流動中研究很少,又是迫切需要解決的課題;同時,這個課題還可以應用於生物流體力學:當人體處于作高速旋轉或曲線運動的飛行器或宇航飛行員訓練的旋轉裝置中,人體血管內血液流動將會發生什麼樣的變化,是航天生理學研究的重要課題。 -
Numerical simulation of temperature decrease and fluid flow with water spraying in venturi tube of converter coal gas recovery system
轉爐煤氣回收系統文氏管噴淋降溫與流動數值模擬 -
Research on current rush to interception air - mass in delivery pipeline system and water hammer with gas is a branch of concurrent gas - liquid flow. for it refers to many fields, such as fluid mechanics, transient flow, concurrent gas - liquid flow and thermodynamics, the problem is very complicate, and there are still some issues to be deeply studied actually
輸水管道系統水流沖擊截留氣團與含氣水錘研究屬于氣液兩相流的一個分支,該問題涉及到瞬變流、空化、氣液兩相流和熱力學等多領域的理論,因而該問題十分復雜,有必要進行深入研究。 -
Other content in this paper is the design and investigation of spiral inlet port. the geometries that compose intake port have been repeatedly when intake port scheme was designed. the intake port scheme has been carried out steady - flow test. the experiment data has been analyzed and investigated, then the performance of inlet port has been estimated by the fluid coefficient and the whirl ratio. at last, the spiral inlet port scheme has been selected based on matching relation of the factors of combustion system. in addition, how to " intake port synthesis performance coefficienf ' evaluate engine intake port has been discussed
本文的另一項內容是螺旋進氣道的設計和研究。通過對進氣道的幾個主要結構參數進行反復修改擬定進氣道方案,並對其進行穩流試驗,分析和研究試驗數據,利用流通系數、渦流比進行進氣道性能評估,根據燃燒系統要素的匹配關系,確定了兩種螺旋進氣道方案。另外,本文探討了「進氣道綜合性能系數」對發動機渦流進氣道性能的評估能力。 -
Hence, they that flow field calculation and dynamical computation of fluid - solid coupling dynamic characteristics are carried out to search flow law in the hydraulic turbine, optimize the design of scroll casing, guide vane, blade and draft tube, and they can apply useful to the monitoring and fault diagnosis system of hydroelectric set as well
因此,為探求水輪機內部的流動規律,優化水輪機設計,為水輪機的安全穩定性運行和機組的故障診斷提供幫助。對導葉內部的流動進行流場計算和流固耦合振動特性的動力計算就顯得十分必要。 -
In any fluid handling system, valves are the controlling element : starting or stopping flow, regulating or throttling flow, preventing backflow, or relieving and regulating pressure
在任何流體處理系統中,閥門是作為控制裝置:啟動或停止流體流動,對流體進行調節或節流,防止倒流,或釋放和調節壓力。 -
Generally, the simulation of displacement system needs the knowledge of basic theory of fluid flow and main principles of such a system. it is not easy for ordinary designers
置換通風的模擬要求設計人員對它的機理和計算流體力學的知識有相當的了解,這對于普通的設計人員來說有一定的難度。 -
Using fluid analyze software, the 3d turbulent flow is stimulated based on navier - stokes equations and k - model. the turbulent flow through axial flow pump impeller is simulated by using the non - uniform triangle mesh system and the finite volume method. calculated results are presented at the design operating condition for the impeller in detail, which give a valuable reference to improve the performance of the impeller
最後,應用cfx流體分析軟體,基於n - s方程和標準-紊流模型,採用非結構化網格技術,用聯立求解各變量代數方程組的方法對設計工況下的軸流泵葉輪內部的三維紊流場進行了詳細的數值計算與分析,並預測其性能。 -
Through application investigation of dosing subsystem and utilizing principle of fluid mechanics ( bernoulli equation ), quantitative dosing device was produced to measure chemical dosage, so as to settle the problem that metering pumps and electromagnetic flow meters widely used in water plants now have a very high requirement in technique and a very high cos t in maintenance. this device is easy to control, simple in maintenance and low in cost ; functionally it can substitute for metering pumps and electromagnetic flow meters used in system
通過對投加子系統的應用研究,針對目前在水廠普遍使用的投加計量泵、電磁流量計技術要求和維護維修成本高等問題,運用流體力學(伯努利方程)的原理製作定量投液裝置對藥液加量進行投加計量;該裝置易於控制,維護維修簡單、成本低廉,功能上能取代系統中使用的計量泵和電磁流量計。
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