毛熱值 的英文怎麼說
中文拼音 [máorèzhí]
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A method to calculate quantitatively the adsorption volume or adsorption space of per mass of adsorbent derived from both the adsorbed molecule volume and the maximum adsorbance of a solute in an adsorption isotherm under a given experimential condition is presented firstly for a solid / liquid adsorption system of the solute in a dilute aqueous solution. this method is suitable for not only mono - layer adsorption, but also mani - layer adsorption and micelle adsorpion of surfactant constructed by hydrophile and lipophile groups. therefore, the surface concentration of the adsorbate, cs, deduced from the adsorption volume is possessed of the meaning of true concentration, and the value of the patition coefficient of the adsorbate between solid and liquid phass, p, attained by the cs and the c, solution concentration of the adsorbate, can be accurate. the foregoing a set of calculations are presented for the solid - liquid adsorption systems consisted of the wool fiber and separately dodecyltrimethyl - ammonium bromide ( dtab ) and hexadecyltrimethyl - ammonium bromide ( ctab ) in this paper. this provides a strong basis for adsorption thermodynamic investigation of adsorbate
對稀溶液中溶質的固/液吸附體系,首次提出了根據吸附分子體積和實驗條件下吸附等溫線中的最大吸附量計算單位質量吸附劑的吸附體積或吸附空間的方法.此法適用於單層吸附,也適用於多層吸附和具有親水親油結構的表面活性劑分子的膠團吸附.由此,吸附質的表面相濃度cs具有真實濃度的含義,相應地,計算得到的溶質的固/液分配系數p就有了準確
值.分別計算由溴代十二烷基三甲銨( dtab )和溴代十六烷基三甲銨( ctab )與羊
毛纖維構成的液/固體系分配系數等,為溶質吸附的
熱力學研究奠定了基礎
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Numerical analysis of adiabatic capillary tube in the refrigeration system
製冷系統中絕
熱毛細管數
值分析
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From the feature of the force and deformation of the tpih, 5 different elements are used to mesh the different zones of the tube, which are structural beam 3d elastic 4, structural pipe plastic straight 20, structural pipe elastic elbow 18, structural shell elastic 4 node 63 and contact 3d pt - to - surf 49 ; the contact problem is assumed to be flexible - to - flexible ; the temperature field is assumed to be body load. a mechanical model corresponding to reality has been established for numerical simulation. based on the above, the 3 - d fem numerical simulation of tpih has been carried out by using the ansys program
針對加
熱彎管過程的受力和變形特點,採用三維梁單元、三維塑性直管單元、三維彈性曲管單元、三維殼單元與三維點對面接觸單元等5種不同的單元分別對管
毛坯不同區域進行劃分,並對接觸單元採用柔體-柔體的處理方法,將溫度場作為體載荷處理,建立了符合實際的加
熱彎管問題數
值模擬力學模型:在此基礎上,應用商用軟體ansys對加
熱彎管過程進行三維有限元模擬與研究,獲得了成形時推力、彎矩、支撐力大小及其變化趨勢。
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The plate - tube evaporator, the single back - fin evaporator and the box condenser. after analyzing the physical model and setting up the mathematical model according to the two - phase flow of adiabatic capillary tubes, it also numerically simulates and analyzes the different effects of main parameters on the capillary tube length. based on the heat transfer analysis and counting of thermal insulation layer, the cad system accomplishes the parametric design and drawings of the refrigerator body
該系統完成了對典型製冷裝置的換
熱器部件,如板管式蒸發器、單脊翅片管式蒸發器、箱壁式冷凝器的參數化設計和繪圖;分析了絕
熱型
毛細管兩相流的物理模型,並建立數學模型,對絕
熱型
毛細管各主要參數對其長度的影響進行了數
值模擬和計算分析;基於對電冰箱箱體絕
熱層厚度的傳
熱分析和計算,完成了整個箱體的參數化設計和繪圖工作。
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The physical and mathematical models are founded. numerical simulation of marangoni convection in the liquid bridge and gas channel was performed by employing the primitive variable method and using galerkin finite element method, which is applied for discretization of non - dimensional governing equations and boundary conditions. the relationship between the suppressing status of mc in the liquid bridge and the inlet gas velocity or the channel width is obtained, and the suppressing status of some kinds of marangoni numbers ( ma ) or size ratios of liquid bridge a is analyzed
採用原始變量法,用galerkin有限單元法對無量綱控制方程及邊界條件進行離散后,數
值模擬了微重力條件下半浮區硅熔體及氣體流道內的marangoni對流,得出了無量綱氣流沖刷速度及流道寬度變化和熔體內
熱毛細對流抑製程度的關系,進而分析了不同的無量綱參數ma數和不同熔體幾何尺寸比a下
熱毛細對流抑制情況。
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During the present research of the flow characteristics of refrigerant in adiabatic capillary tubes, a drift flux model of two - phase flow was established and the influence of metastable phenomenon was considered. the flow characteristics of refrigerant were analyzed with the program developed in this research. an experimental system for the adiabatic capillary tubes testing was set up. the results show that the theoretical model fits the experimental data well
在對絕
熱毛細管內製冷劑的流動特性進行研究的過程中,運用兩相流漂移模型,並考慮製冷劑在實際流動中存在的亞穩態,開發了絕
熱毛細管內製冷劑兩相流的數
值計算程序,對
毛細管內製冷劑的流動特性進行了分析;搭建了
毛細管兩相流實驗裝置,並將計算結果與實驗數據進行比較,結果吻合的較好。
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The third chapter employed a new method of taking pressure as step to simulate refrigerant flow characteristics in adiabatic capillary tubes, based on adiabatic capillary tube mathematic models. refrigerant critical flux in capillary tubes is predicted by means of back - propagated method. it indicates that this method can save computational time, so it can be used in engineering
在建立絕
熱毛細管數學模型基礎上,採用以壓力為步長的新方法對絕
熱毛細管進行了模擬計算,採用bp神經網路對製冷劑在
毛細管中臨界流量進行了預測,結果表明該方法能夠較大幅度地節省計算時間,因而具有工程應用價
值。
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The model includes the select of various refrigerants and various parameters. the paper also numerically simulates and analyzes the flow of refrigerants, namely r12 and r134a respectively in the adiabatic capillary tube
此外,本文還完善了基於visualc + + 6 . 0的均相流絕
熱毛細管數
值模擬,軟體提供了工質和參數選擇,並數
值分析了兩種製冷劑r12 、 r134a在
毛細管內的流動特性。
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The value of inlet gas velocity decreases and the reductive effectiveness of the mc increases when only decreasing the value of channel width. by changing the marangoni number alone, we found that the less the marangoni number, the less the needed inlet gas velocity and the better the reductive effectiveness of the mc
隨著的增大,要想達到熱毛細對流的最佳抑制,所需要的氣流沖刷速度反而越小;但抑製程度隨著值的增大有一個先增加再減小的過程,當為2時抑製程度達到最佳。
