蒸發濕度計 的英文怎麼說

中文拼音 [zhēngshī]
蒸發濕度計 英文
evaporation psychrometer
  • : Ⅰ動詞1. (蒸發) evaporate2. (利用水蒸氣的熱力使食物熟或熱) steam Ⅱ名詞[中醫] (將藥物隔水蒸熟) steaming
  • : 名詞(頭發) hair
  • : Ⅰ形容詞(沾了水的或顯出含水分多的) wet; damp; humid Ⅱ名詞(姓氏) a surname
  • : 度動詞[書面語] (推測; 估計) surmise; estimate
  • : Ⅰ動詞1 (計算) count; compute; calculate; number 2 (設想; 打算) plan; plot Ⅱ名詞1 (測量或計算...
  • 蒸發 : [物理學] [化學] evaporation; evaporate蒸發計 evaporometer; evaporimeter; atmidometer; atmometer; ...
  • 濕度 : humidity; dampness
  1. Second, the starting and stopping behaviors under disturbed condition are analyzed and calculated by using the dynamic concentrative parameter model, which gives some advice to better prescribe refrigeration system and set theoretic foundation for carrying out automatic control of refrigeration system. third, the normal running process is analyzed and calculated by means of rational matching theory, which gives some advice on how to better understand the parameter change under steady state and the affection of inlet - parameter on evaporator. fourth, the simulation software with dynamic characteristic is designed, which can be applied to calculate thernio - parameter of cryogen, air humidity and frost thickness under different initial and boundary conditions, and to carry out dynamic simulation under conditions of dryness, wetness and frostiness, at the same time, to achieve detection and simulation at any stage from starting to stopping

    本文的主要內容如下: 1 )對翅片管器結構特點進行分析,選取適當的微元控制體,就干、和霜工況下對每個微元分別進行傳熱傳質分析,基於經驗關系式確定霜的有關參數,對于霜工況下的霜生長建立模型,經適當假設,運用質量守恆、能量守恆和動量守恆方程建立適合動態模擬的器數學模型,為系統模擬奠定基礎; 2 )對在大擾動下的開、停機過程,運用動態集中參數模型進行分析和算,為更好地描述製冷系統運行的全過程奠定基礎,同時也為製冷系統實現自動控制提供一定的理論基礎; 3 )對器正常運行過程,運用動態分佈參數和參數間定量耦合的觀點來分析和算,為更好地了解穩態工況下各點參數的變化情況及各入口參數對器動態特性的影響即器性能對各參數變化的敏感性; 4 )編寫翅片管器動態特性模擬算程序,可以算不同邊界條件和初始條件下的製冷劑熱力參數、空氣溫和霜厚分佈場,實現對翅片管器在干、和霜工況下的動態模擬。
  2. The thesis focuses on the development of the dynamic simulation model of evaporators, the accomplishment of the stable and dynamic simulation of the parameters of cryogen - side, air - side and how to carry out dynamic simulation on the refrigerating effect of evaporators under different evaporating temperature and the realization of the analyses and calculations of the main parameters, such as, the wind speed of air - side and specific humidity etc, which affect the function of evaporators

    本文重點是對器建立動態模擬模型,並對製冷劑側和空氣側參數進行穩態和動態模擬,同時對器在不同下的製冷量進行了動態模擬,而且對影響器性能的主要參數(空氣側入口風速、入口含量等)進行了分析和算。
  3. The key items influent on the characteristics of spraying have been also studied in the dissertation, we can get a good spraying result by adjusting the related parameters efficiently. ( 3 ) the theoretical model of the dynamical parameters such as temperature, moisture, pressure and contour for hot medium and particle inside the drying chamber were obtained by model, utilized the computational fluid dynamics technique to solve the problem between spraying droplets medium by arranging the double grid dispersing structure and rotary outlet structure and the developed structure improved the drying efficiency and product quality

    ( 3 )採用-模型實現了壓力噴霧乾燥塔的溫場、場、流場的理論建模,利用算流體力學( cfd )技術來解決噴霧乾燥過程中熱介質與霧滴間的傳熱傳質以及動量傳遞和湍流擾動等問題,避免了乾燥過程中的設不合理狀況;通過增加雙格柵均風裝置和旋轉出風裝置,改善了乾燥塔內的熱質傳遞,提高了乾燥塔的體積
  4. Thermodynamic analysis on wet compression process is done in this thesis and studies are done on ideal wet compression process, actual wet compression process, water droplet evaporative rate, wet compression work, inlet evaporative cooling, wet compression efficiencies and water droplet breaking. and thermodynamic model of wet compression process is established, which gives out rules of and methods to calculate wet compression parameters

    本文從熱力學的角壓縮過程進行了分析,分別對理想壓縮過程、實際壓縮過程、水滴的速率、壓縮功、進氣冷卻、壓縮效率和水滴的破碎等進行了研究,建立了壓縮過程的熱力學模型,給出了壓縮過程狀態參數的變化規律和算方法。
  5. Two typical examples analyses are conducted for the average conditions both of winter and summer climates under vapor diffusion and air leakage. a further discussion is set forth to determine the main factors that the moisture accumulation in wall is affected. it is found that the factors are the relative humidity at the wall surface, indoor temperature, permeability, air pressure difference and rate of the infiltrative or exfiltrative airflow

    本文首先研究了墻體內的氣遷移過程,詳細分析了積累現象形成的原因,通過對夏、冬兩季平均氣候下墻內溫、水氣壓力、相對積累在僅有擴散、擴散與空氣滲透同時存在等情況所作的具體算,現墻內、外表面的相對、室內溫、滲透率、空氣壓差以及空氣的滲流速是影響墻內積累的主要因素。
  6. Ln chapter 4, imbalanced counterflow of indirect evaporative cooling is simulated while taking into account the non - linearity of the saturation line of moist air. four diagrams are provided to assist in determination of the optimum heat capacity ratio

    第四章針對冷卻過程中飽和空氣比熱容隨溫的非線性變化關系,研究了非平衡流逆流間接冷卻過程(火用)損失及最佳熱容量比的算線圖。
分享友人
分享到 Line

分享到臉書