蒸發溫度 的英文怎麼說

中文拼音 [zhēngwēn]
蒸發溫度 英文
evaporating temperature
  • : 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(不冷不熱) warm; lukewarm; hot; gentle; mild Ⅱ名詞1 (溫度) temperature 2 (瘟) acute ...
  • : 度動詞[書面語] (推測; 估計) surmise; estimate
  • 蒸發 : [物理學] [化學] evaporation; evaporate蒸發計 evaporometer; evaporimeter; atmidometer; atmometer; ...
  • 溫度 : [物理學] temperature
  1. 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,同時對器在不同蒸發溫度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、入口含濕量等)進行了分析和計算。
  2. In the condition of same condensation temperature and evaporating temperature, the cop of the basic gax cycle is lower than that of the simplicity cascade cycle, but it is greatly better than the mid - pressure double - effect cascade cycle, on the other hand, the work condition is not as rigor as the simplicity cascade cycle, so the ratio of performance and cost is relatively high

    在相同的冷凝蒸發溫度下,基本gax循環的性能系數( cop )雖然比單純復疊循環的低,但要遠遠優于中壓雙效復疊循環,而且運行的條件不象單純復疊循環那樣苛刻,故基本gax循環的性價比較高。
  3. Eev should be selected for various refrigeration systems according to the thermal properties of refrigerants ; the discharge coefficient of eev is sensitive to the aperture and impulse quantity of eev ; when the eev structure is made, the discharge coefficient goes up with the lowering of evaporation temperature or goes down with the hoisting of the condensation temperature. it is le

    對于不同工質的冷藏集裝箱製冷系統,電子膨脹閥應該根據具體製冷劑的熱力性質選取;電子膨脹閥流量系數對孔徑和脈沖數比較敏感;在結構固定時,流量系數隨蒸發溫度的降低而升高,隨冷凝的增加而增大,受過冷變化的影響較小;電子膨脹閥的容量受孔徑影響最大。
  4. The analysis indicates that in the absorbing refrigeration cycle using tfe - tegdme working fluid under the same evaporating temperature and condensation temperature, the performance of the simplicity cascade cycle is the best while the heat burden of the generator is the maximum, the performance of the mid - pressure double - effect cascade cycle is the worst while the heat burden of the generator is higher than the basic gax cycle

    分析結果表明,採用以tfe - tegdme為工質吸收式製冷循環,在同樣的蒸發溫度和冷凝下,單純復疊循環性能最為優越,但生器的熱負荷也最大;中壓雙效循環性能最差,而且生器的熱負荷要比基本gax循環大,運行的經濟性差。
  5. C ) the evaporation temperature has negligible effect on the average evaporation heat transfer coefficient at the same oil concentration

    C )同一含油率下,蒸發溫度對平均換熱系數影響不大。
  6. Tests the operation status of an air - cooled heat pump air conditioner under defrosting conditions, and records the evaporation temperature and exhaust fan current at different voltages

    摘要實驗測定了一臺空氣源熱泵空調機組除霜工況下的運行狀況,記錄了蒸發溫度和不同電壓下的排風機電流。
  7. As we all know, the back - pressure valve ( also called evaporating pressure regulator ) is often used to regulate the evaporating temperature of every high - temperature refrigeratory in the system containing many different temperatures but single engine of the ship. but it is neglected that the energy of the system is lost and the efficiency of the system becomes low

    眾所周知船舶單機多庫(簡稱為高、低冷庫)系統中,常用背壓閥(壓力調節閥)來調節各高庫的蒸發溫度,但忽略了系統無形損耗的能量,效率也有所下降。
  8. Basis is the principle of fiow - levitation method and combination the needs of actual work, have led into instant infrared measure temperature system make evaporate temperature show and control more visual, have expanded the scope of speed adjustment for material supply installation to make consumed power be with production efficiency combine, besides, has still increased the installation of stabilized press of water - cooling system makes the operation of equipment more safe with stabilize

    根據自懸浮定向流技術原理,結合實際工作的需要,引入了即時紅外測系統使蒸發溫度的顯示與控制更加直觀,擴展了供料裝置的調速范圍使功耗與生產效率有機結合起來,此外,還增加了水冷系統的穩壓裝置使設備的運行更加安全與穩定。
  9. For all refrigeration and air - conditioning appliances : domestic, commercial and industrial systems with high, moderate or low evaporation temperatures

    適合一般冷藏及空氣調節設備的廣泛應用,如家庭式、商業及工業用的設備,操作于高、中或低的蒸發溫度
  10. Abstract : in this paper, via analysis and research on the actual working situation of jk3 - type vacuum concentrating equipment we have found that reasons of the reduced function of working are the result of that the vacuum degree of work cuts down and isn ' t suitable with the temperature of heating and the heat cycle in each evaporator

    文摘:本文通過對jk3型真空濃縮設備工作性能的研究分析表明:導致其生產能力和量減少,能耗增加,蒸發溫度升高,產品質量下降的主要原因是各效器工作真空下降,加熱和熱循環與其不相匹配所致。
  11. In this paper, the main purpose is to study different refrigerants and different refrigeration systems at lower evaporating temperature in ideal cycle

    本文主要研究不同製冷劑及不同的製冷循環在較低蒸發溫度下對製冷性能的影響。
  12. On the basis of orthogonal test, the optimum procedure parameters were determined. it is evaporating temperature of 750, reaction pressure of 4000pa and o2 content of 50 %

    以此為指標對制備工藝優化,其最佳工藝為:蒸發溫度750 、反應壓力4000pa和o _ 2在混合氣體中的比例50 。
  13. The results are significant. the change of evaporating temperature and control precision influence the temperature fluctuation of the air, which is relevant to the heat - load matching of warehouse and refrigerating units

    場的波動主要是兩個原因引起的:蒸發溫度的波動及控制的精,也就是氣調庫的熱負荷要與機器的負荷相匹配。
  14. A new auto - cascade absorption refrigeration cycle was proposed in this thesis to get low temperatures by utilizing low thermal potential energy based on an overall reviews of innovations in absorption cycles during the past decade

    本文在研究國內外吸收式製冷循環最新展動態的基礎上,首次提出了一種新型的自行復疊吸收製冷循環,以達到降低吸收製冷機的蒸發溫度,利用低品位熱能來進行深冷凍的目的,拓寬吸收製冷機的工程應用范圍。
  15. The typical summer and winter performances of gshp system are analyzed by the exergy analysis method. and some conclusions about 3 refrigerants selection for gshp and the determination of evaporating temperature and condensing temperature are made. it is useful for optimization of the gshp system performance

    對熱泵系統冬夏典型工況利用(火用)分析,得出地源熱泵機組製冷劑選擇、冷凝蒸發溫度的確定、系統優化以及參數匹配等方面的基礎數據。
  16. A ejector for is applied in this theory. it can not only regulate the evaporating temperature of each high - temperature refrigeratory but also reduce the back - pressure of the compressor when a system applies this theory. at the same time, the exhaust temperature of the compressor becomes low and the refrigerating capacity per unit of swept volume becomes high

    鑒于目前這種現狀,本文提出了以噴射器為基礎的船舶高、低冷庫製冷新循環,不但可調節高庫的蒸發溫度,而且也可使壓縮機的回氣壓力得到提高,壓縮機排氣降低,單位容積製冷量上升,製冷系數提高,火用效率提高。
  17. This paper offers some performance data calculate with computer program and figures which variation of performances of refrigeration in different refrigerants and circle with evaporating temperature. it shows that it is feasible to calculate thermodynamic properties of refrigerants with equation of state pr in ideal circle and new refrigerants sfuch as r134a, r152a have not more coefficient of performance ( cop ) than r22 in single - press circle but still have preferable practical value in freezing refrigeration ; the results also demonstrate the importance and need for applying mixed - refrigerant in freezing

    本文給出了幾種製冷工質在單級和雙級壓縮製冷循環下的一些性能數據及各性能隨蒸發溫度變化比較圖。結果表明,利用pr方程得出的製冷工質物性,可用於計算製冷循環性能;在單級製冷循環中, r12和r22仍具有較高的製冷系數,但新工質如r134a 、 r152a在較低製冷中具有很高的研究價值;計算也表明,在較低製冷中,混合工質的研究是極有價值的。
  18. The relationship of the heat transfer coefficient with tea liquid concentration, heat transfer different temperature, vapor temperature, liquid flow rate, particle volume percent and different particle were studied. and analyzed the effect of liquid flow rate, particle volume percent on pressure drop. based on the character of inert particle fluidized bed evaporator, used the theorem, a mathematical model of inert particle fluidized bed evaporator heat transfer was proposed

    設計和建立了惰性粒子流化床實驗裝置,進行了傳熱性能和流體力學的理論分析和實驗研究;研究了物料濃c _ e 、傳熱差t 、蒸發溫度t _ v 、液體流量i 、惰性粒子體積分率_ s等操作參數對流化床器傳熱性能的影響,文中還分析了液體流量i 、惰性粒子體積分率_ s等參數對床層壓力降的影響。
  19. In this paper, we applied the vapor - liquid - solid three - phase circulating fluidized bed evaporator to condense glucose solution considering its advantage. in the experiment, we changed the parameters such as evaporation temperature, difference in temperature of the fluid heating and heated, liquid flux, liquid thickness and the ratio of inert particles to analyze and study this kind of equipment ' s heat transfer properties in different operational conditions

    通過改變蒸發溫度、傳熱差、料液流量、料液濃以及惰性粒子的體積分率等參數,研究了其在不同操作條件下的傳熱性能,並給出了汽-液-固三相循環流化床器沸騰傳熱的數學模型,模型預測值與實驗值吻合較好。
  20. The results show that the exhaust fan current increases with frosting enhancement, while the increasing speed gets slower in the end of frosting, and the curves of current are slightly different at different voltages ; that the evaporation temperature decreases with frosting enhancement, and the decreasing speed becomes increasingly faster ; and that misoperation of defrosting can be avoided by using the intelligent defrosting control method based on exhaust fan current combined with evaporation temperature presented according to the experimental results

    結果表明,排風機電流隨結霜厚的增加而增大,增加速率在結霜後期趨緩,不同電壓下電流變化曲線略有不同;蒸發溫度隨結霜厚的增加而降低,下降速越來越快;使用根據實驗結果提出的基於排風機電流和蒸發溫度聯合控制的智能除霜方法可以基本避免誤除霜動作。
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