condensation pressure 中文意思是什麼

condensation pressure 解釋
凝結氣壓
  • condensation : n. 1. 濃縮;【物理學】冷凝(作用),凝聚(作用);壓縮;縮合;凝塊。2. (著作等的)壓縮;壓縮后的形式,節本。
  • pressure : n 1 壓;按;擠;榨。2 【物理學】壓力,壓強;大氣壓力;電壓。3 精神壓力,政治[經濟、輿論等]壓力。4...
  1. The results of experimental investigation on heat transfer and fluid pressure drop of spirally fluted titanium - tubes for steam condensation are reported and analyzed

    摘要介紹了鈦螺紋槽管傳熱及流動阻力的實驗結果,並對結果進行了分析。
  2. The results indicate that the qualitative behavior in this process is similar to that observed in condensation of vapor at or above atmosphere pressure, the coefficient of heat transfer for condensation in tube, the coefficient of heat transfer in total increase with the increasing of heat flux density and vapor pressure. however, heat flux density and vapor pressure have a more significant effect on them

    發現水平管內低壓蒸汽冷凝過程與常壓條件下蒸汽冷凝過程相同,管內冷凝傳熱膜系數、總傳熱系數隨熱流密度、蒸汽壓力的增大而增大,但熱流密度、蒸汽壓力對低壓蒸汽冷凝有著更為顯著的影響,管外冷卻水流量對其影響並不明顯。
  3. 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

    在相同的冷凝溫度和蒸發溫度下,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。
  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溫度下,單純復疊循環性能最為優越,但發生器的熱負荷也最大;中壓雙效循環性能最差,而且發生器的熱負荷要比基本gax循環大,運行的經濟性差。
  5. Measurement of fluid flow by means of pressure differential devices - condensation chambers

    用壓差裝置測量流體流量.冷凝室
  6. On the basis of that, this paper investigates the saturated temperature of hc600a - oil mixtures, condensation heat transfer and pressure drop characteristics in a horizontal micro - fin tube for it

    在此基礎上,對純天然工質異丁烷( hc600a )與潤滑油suniso3gs的混合物飽和溫度、水平微肋管內凝結過程的傳熱及流阻特性進行了實驗研究分析。
  7. On the basis of the investigation on the related literature of new refrigerant substitutes, the in - tube condensation of refrigerant and refrigerant - oil mixtures, this paper investigates the saturated temperature of hc290 - oil mixtures, condensation heat transfer and pressure drop characteristics in a horizontal micro - fin tube for it

    本文在分析研究國內外有關替代工質、製冷工質及其含油混合物管內凝結性能研究現狀的基礎上,對純天然工質丙烷( hc290 )與潤滑油suniso3gs的混合物飽和溫度、水平微肋管內凝結過程的傳熱及流阻特性進行了實驗研究分析。
  8. The characteristic curves and diagrams which described the pressure, velocity, and concentration of the indirect evaporative cooler were presented by the software of tecplot and smartdraw. the differences between the condensation condition and non - condensation condition were compared and analyzed

    對比考慮與不考慮冷凝情況下的速度、溫度、濃度等分佈的差異,分析了模擬參數的變化對冷凝的影響。
  9. The project studied the direct contact condensation behavior of saturated steam on the subcooled liquid in passive gravity injection system. the experiment parameters were as follows : the initial pressure of prz ranged from 0. 2 0. 6mpa and the initial fluid temperature of core makeup tank ranged from 10 80. condensation phenomenon in cmt was observed

    本課題進行了非能動重力補水系統中飽和蒸汽在過冷液面上直接接觸冷凝的實驗研究,研究了在加裝遮流板時,系統壓力0 . 2 0 . 6mpa , cmt初始溫度為10 80條件下壓力容器cmt中飽和蒸汽在過冷液面上冷凝的瞬態特性。
  10. The effects of the flow rate, the inlet temperature, the inlet concentration and the system pressure, the temperature of cooling wall and the radius on the features of condensation process with binary ( tfe / nmp ) vapor were gained

    同時,也得出了進口流量、進口溫度、進口濃度、體系壓力、冷卻壁溫和管徑等參數對垂直管內部分膜狀冷凝過程參數分佈的影響規律。
  11. At the beginning of this article, we give the analysis about the principle of external condensation. we find out that the most important factor in the condensation is the temperature of the air in the system. and we point out the factors which can make influence in the external condensation, such as the temperature and the humidity of the environment, the temperature and the pressure of the supplying air, the load of the system, the area of passage of speed control valve, and so on. next, we give the mathematics model of the pneumatic system using the knowledge of aerodynamics and heat transfer theory. and using the finite difference method and the numerical analysis we can get the solutions of the model. we use c program to simulate the model

    本文首先對氣動系統外部結露的原理進行了分析,指出了氣動系統內部氣體溫度下降是氣動系統外部結露根本原因,提出了影響氣動外部結露的主要因素,包括環境溫度、環境濕度、供氣壓力、供氣溫度、氣缸負載和調速閥開度等。然後應用氣體動力學、氣體熱力學和傳熱學對氣動系統建立數學模型,用逆步進有限差分法和數值分析演算法對所建模型進行求解,利用c語言編製程序對氣動系統模型進行模擬,給出了氣管及氣缸內氣體的各個時刻的狀態參數。
  12. A concise physical picture is furnished by chemical potential curve about the law of phase equilibrium, saturated vapour pressure of curved liquid surface, evaporation and condensation etc

    通過曲線描述,提供了關于相平衡、彎曲液面飽和蒸氣壓以及蒸發、凝結等規律比較直觀的物理圖像。
  13. The vapour pressure is moving up slowly as the vapour of prz coagulates on uppercooling water surface at first and all the vapour can be coagulated ; with the process of condensation, the vapour pressure between cmt and prz will approach gradually till balance

    凝結剛開始時, cmt汽空間壓力上升比較慢,從prz中來的蒸汽基本上全被過冷水凝結,隨著凝結不斷進行, cmt和prz汽空間壓力逐漸接近,直到平衡為止。
  14. And the heat of condensation phase reaction was determined by dsc experiment. the experimental results indicate that the formulae of high content fine ap and coated boron with 20 % ap is of a stable combustion in the air, while having a rate of 2. 94 mm / s under the combustion pressure of 0. 5 m pa

    結果表明:調整ap級配使細粒ap含量增加和用20 ap包覆硼的配方,燃燒穩定,殘雜分散性好,燃速在低壓( 0 . 5mpa )下為2 . 94mm s 。
  15. The phenomenon of condensation of low - pressure vapor in a horizontal tube is studied

    結合蒸發式冷凝器的設計,對水平管內低壓蒸汽冷凝現象進行了實驗研究。
  16. There will be a hot water layer in the water of cmt when vapour spews to uppercooling water surface vertically and coagulates directly. the higher of the vapour pressure of prz and the initial water temperature of cmt are, the deeper the hot water layer is. and obtaining the experience formula of the hot water layer is as follows : the condensation coefficient is high when vapour coagulate at first, then it will lessen with the process of coagulation, the higher of the vapour pressure of prz and the initial water temperature of cmt are, the higher of condensation coefficient is

    蒸汽垂直噴入過冷水表面凝結時, cmt中水有明顯熱分層現象, prz中飽和蒸汽壓力越高, cmt中水初始溫度越高,熱分層厚度越大,熱分層厚度的經驗關聯式為:凝結剛開始時,凝結換熱系數非常大, ,隨著凝結的進行,凝結換熱系數越來越小, prz中飽和蒸汽壓力越高, cmt中水初始溫度越高,凝結換熱系數越大。
  17. Measurements were made of system pressure, mass flow rate of steam, air, and cooling water, temperatures of condensing flow and cooling flow, and the water level of boiler. the major phenomena observed in the present experiment are similar to those by other investigators. the mass flow rate of steam, the system pressure and air content are the most important factors affecting steam condensation

    實驗結果表明,維持二次側冷卻水流量不變,無論對于純凈蒸汽還是含有空氣的蒸汽冷凝,隨著蒸汽發生器加熱功率的增大(即蒸汽流量增大) ,有效冷凝段長度將加長;當蒸汽中含有少量空氣,有效冷凝段長度也會明顯加長;提高系統壓力,有效冷凝段長度將縮短。
  18. Abstract : based on the analysis and finding out the cause of the condensation of gas, we add an absorber in the system which absorbs condensate, taking the mixture of cocker gasoline - diesel as the medium and accomplish the separating and recovering of condensate in the gas. by this way we get good effect in the utilization of the low - pressure gas in the refinery and create the conditions for eliminating the torch

    文摘:在分析和查找瓦斯凝液成因的基礎上,通過增設吸收塔等技術措施,以焦化汽柴油為介質吸收凝液,實現了瓦斯中凝液的分離和回收,在煉油廠低壓瓦斯利用上收到了良好效果,為熄滅火炬創造了條件。
  19. When the condensation of water increases, the bucket loses buoyancy and makes the machinery reversely seal to generate differential pressure, the main valve opens and obtains large displacement, steam equipment prompt starts to maximize the thermal efficiency of steam equipment

    當凝結水量增大時,吊桶失去浮力使得機構反向密封而產生壓差,主閥開啟而獲得大排量,用汽設備迅速啟動,最大限度地發揮出用汽設備的熱效率。
  20. The retrograde condensation impact tends to be unavoidable because the phenomenon that bottomhole producing pressure is lower than dew point pressure is easy to be found in productivity well test

    而在產能試井中很容易出現井底流壓低於露點壓力的情況,因此反凝析現象不可避免。
分享友人
分享到 Line

分享到臉書