熱力循環 的英文怎麼說

中文拼音 [xúnhuán]
熱力循環 英文
heat cycle
  • : Ⅰ名1 (力量; 能力) power; strength; ability; capacity 2 [物理學] (改變物體運動狀態的作用) forc...
  • : 循動詞(遵守; 依照; 沿襲) follow; abide by
  • : Ⅰ名詞1 (環子) ring; hoop 2 (環節) link 3 (姓氏) a surname Ⅱ動詞(圍繞) surround; encircle;...
  • 熱力 : [機械工程] heating power
  • 循環 : circulate; circle; round; repeat; loop; period; recurrence; cycling; circulating; mixing; circula...
  1. New analysis of irreversible thermodynamic cycle for heat engine

    機不可逆熱力循環新析
  2. Research on heat transfer inevitable exergy loss in heat engine cycle

    熱力循環溫差傳不可避免損失研究
  3. The carnot cycle can be thought of as the most efficient heat engine cycle allowed by physical laws

    該卡諾可以被看作是最有效的熱力循環所允許的物理規律。
  4. Jack, were you able to recreate the thermal cycle

    傑克,你能重建熱力循環嗎?
  5. The most efficient heat engine cycle is the carnot cycle, consisting of two isothermal processes and two adiabatic processes

    最有效的熱力循環是卡諾,由兩個等溫過程和兩個絕過程。
  6. Ceramic fuel cells are electrochemical devices that directly convert fuels such as gasified coal or natural gas into electricity without the limitation of the carnot cycle ( an ideal thermodynamic cycle in which heat is taken onto a working fluid at a constant upper temperature and rejected at a constant lower temperature )

    陶瓷燃料電池是一種電氣化學裝置,能直接將煤氣、天然氣等燃料直接轉化為電能而不會受到卡諾(一種理想的熱力循環量在恆定高溫下轉化成工作流體,在恆定低溫下被釋放)的限制。
  7. The thermal efficiecy of traditional heat engine cycle with the low temperature is very low

    學原理看,傳統中低溫源模式熱力循環功轉換率很低。
  8. The air thermal cnergy water heater creates the new generation hot water cquipments. it makes use of the negative card promise successfully, drieing a hot pump with the elcctrie power. equiping through a hot pump medium of compesing parts evaporate a machine. hot pump, congealed machine and inflate valve, urge the work quality completes evaporationt absorb calories within air continuously compress compress congealed reduce expenses evaporate of the thermody name energy cirenlation proess, transfer the calories in the environment to the water thus in, transfer the in great quantities free calories in the air to the life to use a water in

    空氣節能水器是創新一代水設備,它成功地運用逆卡諾原理,用電能驅動泵,通過泵裝置中的構成部件-蒸發器,泵,冷凝器和膨脹閥,促使工質不斷完成蒸發(吸收空氣中的量)壓縮冷凝節流蒸發的熱力循環過程,從而境的量轉移到水中,將空氣中大量免費的量轉移到生活中水中
  9. These deviations are not acceptable for typical calculations in hat. similar problems occur for caes plants. in order to meet the demands of engineering design, the humid air must be regarded as a kind of real gas and more accurate thermodynamic properties of the humid air are acquired at high temperature and high pressure

    本文針對新型熱力循環中對高溫高壓濕空氣學性質參數的需求,以濕空氣透平和壓縮空氣蓄能系統中的工質為研究對象,在維里狀態方程的框架下,運用對應態原理,提出一個適合計算高溫高壓濕空氣學性質的對應態維里方程,並利用兩種方法對濕空氣的汽液相平衡進行計算。
  10. Based on detailed analyze on turbine engine and ramjet, a new conceptive internal - rotor burnt rotating ramjet ( irbrr ) with an rotating cylinder in the center of rotor in which the revolved stream can be ram - compressed and burnt has been proposed and some primary research have been done as below : the scheme of structure, principles, thermodynamic cycle and performances of the new conceptive engine has been studied in the paper

    本文通過對燃氣渦輪發動機和航空沖壓發動機的原理結構進行詳細分析並進行融合創新,提出了一種利用內置旋轉汽缸進行旋轉氣流沖壓壓縮和旋流燃燒的新概念內置燃燒室旋轉沖壓發動機,並進行了一些前期的基礎性探索研究,具體研究內容有:對旋轉沖壓發動機進行了總體方案設計、工作原理分析、氣動熱力循環和性能分析等概念性研究。
  11. The new results obtained here can not only make progress in modern thermodynamics but also develop some new applications of finite - time thermodynamics in chemical cycle engineering, especially in chemical pump cycle engineering. they can also provide some new theoretical bases for the optimal design and the performance improvement of real thermodynamic cyclic equipments

    所得新理論不僅使現代學理論獲得進展,而且還開拓了有限時間學在化學工程,特別是化學泵工程中的新應用,為實際熱力循環設備的優化設計或性能改善提供理論指導。
  12. Characteristics of cycle and mechanism analysis on wet compression gas turbine

    濕壓縮燃氣輪機熱力循環的特點與機理分析
  13. On - line monitoring the effect of efficiency of thermal cycle caused by condenser vacuum

    在線監測凝汽器真空對熱力循環經濟性的影響
  14. Due to crisis emergences in power engineering and environment pollution all of the world, high efficient gas turbine is urgent needed

    世界性的能源危機和境污染對燃氣輪機裝置的有效性和合理性提出了更高的要求,由此產生了一系列新型熱力循環
  15. The thermodynamic cycle equipments considered in this dissertation include absorption refrigerators, solar refrigerators, two classes of three - source chemical pumps and so on

    本文所考慮的三源熱力循環設備包括:吸收式製冷機、太陽能製冷機和兩類三源化學泵等。
  16. Thermodynamic analysis of closed brayton cycle based on integration of cryogenic exergy of lng and waste - heat utilization at the present time, much waste - heat is discharged and it is difficult to convert it into power because its temperature is not high

    本論文主要內容包括: lng在超臨界汽化過程中,對其冷(火用)利用方案的探索和分析;某些特殊燃氣輪機熱力循環分析。
  17. This thesis gives a fundamental quantitative analysis of the cycle of recuperative gas turbine cogeneration with water injection and mainly discusses the influence of water injection ratio and pressure ratio on the specific power and the amount of heating

    本論文對功並供回注水燃氣輪機熱力循環進行了基本定量分析。主要分析了注水率和壓比對比功和供量的影響。
  18. It is shown that when the exit area of secondary nozzle and the fuel / oxidizer ratio is fixed, the increase of mass flow rate of secondary flow lead to the decrease of velocity of mixed flow, and increase of total mass flow rate. the synthetical result of these two phenomenon cause the increase of thrust of rocket ejector, but the increasing magnitude is relatively small, indicating that these is no necessary to claim large bypass ratio in rocket ejector design. in the comparison between two configurations, the typical one has better performance, indicating the importance of pressure ratio

    結果表明:在固定二次噴管出口面積和氧燃比的條件下,二次流(引射空氣流)流量的增加引起混合氣體出口速度的下降和總流量的增加,二者綜合作用使發動機推增加,但增幅不大,表明在設計發動機結構和工作參數時,不必過分追求大的引射系數;兩種結構的性能對比分析表明了增壓比對引射火箭性能的提高具有重要意義;對引射火箭的熱力循環分析同樣表明,增壓比對于提高發動機性能非常關鍵。
  19. In this dissertation, the influences of the irreversibilities of heat and mass transfer, the irreversibility inside a cyclic working fluid, heat leakage and otlier irreversible effects on the performances of three - source thermodynamic cycles are studied. by using the methods of finite - time thermodynamics and optimal control theory, the fundamental optimal relations and a series of performance bounds for the concerned thermodynamic cycles are derived

    本文研究傳不可逆性、傳質不可逆性、工質內部不可逆性及漏等不可逆因素對三源熱力循環性能的影響,應用有限時間學和最優控制論等方法,導出相關熱力循環的基本優化關系和一系列性能界限。
  20. How to utilize this latent heat will lead to different system conception, therefore, becoming the key point for the innovation of thermodynamic cycle system

    這一部分量如何加以有效利用將會帶來不同的系統構思,因而也成為熱力循環系統革新的關鍵。
分享友人
分享到 Line

分享到臉書