heat transfer mechanism 中文意思是什麼
heat transfer mechanism
解釋
換熱機制-
Numerical investigation on mechanism of heat transfer augmentation in lamilloy
乳狀液膜分離氨基酸的研究進展 -
Heat transfer will worsen if structure parameters of the spring inserts are not fit. the paper think that the mechanism of heat transfer enhances of the spring inserts is the laminar flow lining is thinner because of librating of the spring inserts, accordingly the part of convection is enhanced. but the part of boil is not influenced
通過彈簧插入物的各個參數對傳熱性能的影響分析,認為彈簧插入物對豎管降膜蒸發傳熱強化的機理主要是彈簧的振動加強了液膜的湍動,減薄了層流內層,從而強化了對流傳熱分量,但對沸騰傳熱分量沒有影響。 -
Abstract : this pater analyzed its heat transfer mechanism and determined the bellows tube to be a type of enhanced heat transfer effective element
文摘:通過分析波節管的傳熱機理,證明它是強化傳熱的有效元件。 -
Finally, by studying the heat transfer coefficient and the mechanism of mass transfer through the membrane pores, a complete mathematical model was proposed for the removal of voc from dilute aqueous solutions by vmd
根據對傳熱系數和膜孔內傳質機理的研究,最後得到了真空膜蒸餾脫除水溶液中voc全過程的數學模型。 -
Accord i ng the heat transfer mechanism and the fluid resistance of the tube and corrugated fin radiator, i apply the computer to compile program to check up and design radiator, which makes the research theory can be d i rect i y app i i ed to manufacture process
並依據散熱器的傳熱機理及流動阻力特性,運用計算機編程,組建了有關散熱器校核、設計熱計算的程序軟體,使理論研究結果能直接應用於生產實際。 -
With the engineering thermophysics subject as a main theory basis, the boiler, the steam turbine, the internal combustion engine and the other new, being developed power machinery and system as the research object, the application of engineering thermodynamics , heat transfer, computer system control theory, environmental science, microelectronics technology, energy - saving technology and other knowledge , study the process and the basic law of fuels chemical energy and liquid kinetic energy to converse to the power securely and efficiently and low ( or no ) impurely ; study the energy conversion process systems and technology of equipment automatic control ; study the producing mechanism and emission control technology of combustion pollutants ; study energy - saving technologies and the development of new energy technologies
熱能工程是以工程熱物理學科為主要理論基礎,以鍋爐、汽輪機、內燃機和正在發展中的其它新型動力機械及系統為研究對象,運用工程熱力學、傳熱學、計算機自動控制理論、環境科學、微電子技術、節能技術等學科的知識,研究燃料的化學能和液體的動能安全、高效、低(或無)污染地轉換成動力的基本規律和過程;研究能量轉換過程中的系統和設備的自動控制技術;研究燃燒污染物生成機理與排放控制技術;研究節能技術與新能源的開發技術。 -
In order to improve the control precision of strip coiling temperature in laminar cooling, the heat transfer in cooling process was analysed from a viewpoint of transfer mechanism, and a mathematical model of air - cooling and water cooling was obtained
摘要為提高熱軋帶鋼層流冷卻卷取目標溫度的控制精度,根據冷卻過程的傳熱機理,分析了帶鋼層流冷卻的傳熱過程。 -
By analyzing the mechanism of boiling heat transfer and pool boiling, the model of evaporative cooling transformer, on which pool boiling heat transfer experiment has been finished, was designed and made
通過對沸騰換熱機理和大容器沸騰換熱的分析,提出了蒸發製冷變壓器模型,並在該模型上對自行研製的全氟三乙胺進行了大容器沸騰換熱實驗。 -
First this paper introduces the development of microscale heat transfer from theory, experiment and computer simulation. then it analyses the heat transfer mechanism during short - pulse heating of metals and the microscale heat conduction in dielectric thin films. last it expatiates on the principle of ac calorimetric method and its experimental techniques
本論文首先從微尺度理論、實驗技術和計算機模擬三方面介紹了微尺度傳熱學研究現狀,接著分析了超短激光脈沖加熱金屬薄膜過程中的熱傳導和介質薄膜中的熱傳導機制,闡述了超短激光脈沖交流量熱法的原理和實驗技術。 -
This paper mainly studied generation and develepment of the longitudinal vortex and its mechanism for the heat transfer enchancement
本文主要研究了縱向渦的發生發展規律及其強化換熱機理。 -
The method was used to analyze the mechanism for enhancing heat transfer by way of using numerical analysis and can be used to study how to apply the field harmony theory to spirally fluted tube strengthen heat - transfer
本文在場協同理論指導下進行了強化換熱機理探討,利用數值分析方法,從分析流場與溫度場的協同配合關系入手,研究場協同理論在螺旋槽管強化傳熱中如何應用問題。 -
The paper indicates that the study on mechanism of boiling heat transfer in microchannels does not first - orderly instruct engineering design and appliance, and they are constraints between geometric dimension, passage diameter, number and length efficiency of evaporators, pump power and so on
指出對于微通道沸騰換熱的傳熱機理等的研究對工程設計和應用來講還沒有形成合適的技術指導依據,蒸發器尺寸、通道直徑、數目、通道長度、換熱效率以及泵功率之間是相互制約的。 -
The discussion on the effect of many parameters on chf value is provided in the later section. what ' s more, based on existing knowledge on mechanism of such chf phenomena and mass and heat transfer in such conditions, this article provides a numerical calculation method to predict the chf value in such condition
發現一般情況流速增大有利於chf值的增大,而在高出口含汽量情況下則出現相反的趨勢;進口含汽量增大則chf值減小;而出口含汽量的影響則表現的更為復雜。 -
Firstly, based on nusselt ' s theory, a three - dimensional coordinates model is built to deal with condensation heat transfer on the side of the fin. with the model, the condensation heat transfer mechanism on the side of the fin is analyzed. as a result, an integral expression is obtained to calculate the condensation heat transfer coefficient on the side of the fin
首先,本文以nusselt理論為基礎,運用三維坐標建立了肋片側面的冷凝傳熱模型,對肋片側面的冷凝傳熱機理進行了分析,得出了肋側冷凝表面傳熱系數的積分表達式,並與傳統解法的理論公式進行了比較。 -
Study on mechanism of turbulent flow and heat transfer in rotating passages
旋轉狀態下蛇形通道內流動與換熱的機理研究 -
In the first, this paper makes an analysis and discussion on the different mechanism, performances, advantages and disadvantages of heat transfer between conventional steel - water heat pipes and components of inorganic heat transfer
本論文首先分析討論了普通鋼-水熱管和無機傳熱元件的不同傳熱機理、性能和優缺點,對無機傳熱元件的性能和應用進行了理論分析和實驗研究。 -
Just under this urgent consideration, based on the fact that self - oscillation can produce pulsation of flow, to influence the flow boundary layer, thus to increase convective heat transfer coefficient, it is necessary to devote to the mechanism of self - oscillation and apply it to a heat exchanger
正是在這種迫切要求下,基於自激振蕩能產生脈沖流動而影響流動邊界層從而提高對流換熱系數來強化換熱的考慮,需要開展對自激振蕩的機理及其應用的研究。 -
In the first, designed and set up the visual experiment equipments, and carried on the visual experiment, the characteristic of low re flow was analyzed through injecting ink to the channel ; secondly, in order to analyzing channel fluid conduct heat mechanism of strengthening further, heat transfer and fluid flow experiment study device was designed and set up, and carried on the experiments under the equal heat flux border situation
首先設計並建立了可視化實驗裝置,進行可視化實驗。通過向通道注墨水以顯示流體流動狀況,分析了低re數時的流體流動特點;其次,為進一步深入分析通道內流體傳熱強化機理,設計並建立了換熱及流體流動實驗研究裝置,進行了等熱流邊界條件換熱和流體流動阻力實驗。 -
In this paper, a image processing method has been presented, with this method mean temperature of testing object can be arrived at from infrared picture and the interior temperature gradient of the test pieces in the situation of transient heat transfer can be got. unsteady - state heat transfer mechanism of wall has also been studied in this paper. on the basis of theoretical analysis and experimental study we can get such conclusions : infrared testing of energy conservation of buildings is rapider and more accurate than heat - flow meter method which is popular at present ; heat transfer mechanism in the situation of unsteady - state heat transfer has been analyzed through experiment ; the interior layers ’ temperature of the test pieces ascent in company with
本文在理論分析和試驗研究的基礎上得出以下結論:本文研究的紅外檢測建築節能的方法比目前存在的熱流計法更快速、更準確;用試驗分析了墻體在非穩態傳熱情況下的傳熱機理;試件各層溫度隨著受熱面環境溫度的上升而上升,只是上升的程度不同,響應時間不同,這是由於試件內部有一個蓄熱過程;通過傳熱理論和建築熱工計算推導出了非穩態傳熱情況下的傳熱系數的計算公式;本文用matlab進行紅外圖片的處理,進而得到被測物的平均溫度;用數據處理軟體擬合溫度熱流。 -
By way of analysis of heat transfer process of the field - test model, the author formulated a 3 - dimensions heat transfer model which is correspondent to actual performance of buried pipe - in - pipe heat exchanger. coupled with field testing data, the short and long term operation features has been thoroughly analyzed by finite element solution and forward finite - difference analysis of the heat transfer differential equations of buried pipe - in - pipe heat exchanger. by interpreting regularity of continuous and intermittent operations of buried pipe - in - pipe heat exchanger, its heat transfer mechanism has been further explained in this thesis
本文通過對試驗模型熱過程的深入分析,建立了與實際地下埋管換熱器結構參數相吻合的三維傳熱數學模型,通過有限單元法和向前差分法求解相應微分方程並對分析結果進行關聯耦合,詳細分析了埋管換熱器的短期和長期運行特性,對地源熱泵套管式埋管換熱器連續運行、間斷運行規律進行了解析,進一步弄清了埋管換熱器的傳熱規律。
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