散熱量 的英文怎麼說

中文拼音 [sǎnliáng]
散熱量 英文
heat dissipating capacity
  • : 散動詞1. (由聚集而分離) break up; disperse 2. (散布) distribute; disseminate; give out 3. (排除) dispel; let out
  • : 量動1. (度量) measure 2. (估量) estimate; size up
  • 熱量 : quantity of heat; heat quantity; amount of heat熱量測量 calorimetry; 熱量單位 thermal unit; heat ...
  1. Concept of basal metabolism, the mostly influencing factors of energy metabolism ; principles of heat production and heat loss of the body and mechanism of keeping body temperature relatively stability

    基礎代謝的概念、影響能代謝的主要因素;機體產的原理及維持體溫相對穩定的機制。
  2. Heat dissipation include printer controller : standby : 4, 454 btu, running : 32, 770 btu

    -散熱量英國單位表示:印表機控制器待機狀態時4 , 454 ,運行狀態時32 , 770
  3. Heat dissipation include printer controller : standby : 4, 454 btu, running : 28, 140 btu

    -散熱量英國單位表示:印表機控制器待機狀態時4 , 454 ,運行狀態時28 , 140
  4. On the basis of expound the theory of building exterior - protected construction energy consumption and the gene of influence the building energy, set up mathematics model, this article discuss the mechanism of dispelling the heat of the buildings " thermal bridge and the complication that influence it, and then synthetic analysis and calculate the influence range of building thermal bridge in exterior - protected construction column thermal bridge to the building outer wall get the conclusion that when the construction column can satisfy the building stress - area, in bulgy construction column dispel less heating than out bulgy construction column. but if the pole stuck out more than 100mm, in bulgy or out bulgy make no difference

    本文在闡述建築圍護結構耗原理以及影響建築能耗因子的基礎上,採用數值模擬方法,探討了建築橋傳的基本機理和影響建築橋傳的因素,進而對建築橋在圍護結構傳中的影響范圍進行了綜合分析和計算,研究了構造柱橋型式對建築外墻能耗的影響,得出了構造柱在滿足建築受力面積要求的情況下,內凸構造柱較外凸構造柱略能減少散熱量的結論,但是凸出過大( 100mm )無論內凸還是外凸對建築耗都沒有大的差別。
  5. It shows that the injection quantity and the difference of temperature distribute as a parabola which is at the same load, and the minimum of the parabola corresponds to the optimum quantity of injection ( g ). under the condition that the quantity of injected mass, the air speed and the heat quantity is respectively g, v and q, the research demonstrates that the pentium iv chip ' s temperature variation can be controlled under 40c and work normally when the wind speed overpass 1. 5m / s and the power dissipation of the chip is 60w. otherwise this paper calculates the flooding limit of thermosiphon with several different methods

    對其充灌散熱量、電子元件( cpu模擬晶元)表面與環境溫度之差及通風、流速的影響進行了系統的測試,發現充液與溫差的關系在負荷不變時呈拋物線分佈,其極小值點對應的充液是最佳充液g 。在充液為g時,對風速v 、散熱量q進行的研究表明,當風速超過1 . 5m / s后,奔騰晶元在60w發條件下晶元溫度小於40 ,能滿足長期正常工作。
  6. The average temperature of supply water and backwater only is single function of extraventricular temperature. so only it can reflect radiator ' s emitting heat, heat net supplying heat and user ' s heat load

    只有二次網供回水平均溫度是室外溫度的單值函數,即它能反映用戶負荷、散熱量網供的大小。
  7. The chosen controlled parameter must be single function of extraventricular temperature because extraventricular temperature affect immediately radiator ' s emitting heat, heat net supplying heat and user ' s heat load. but the sometime chosen controlled parameters all are ' t extraventricular temperature ' s single function

    室外溫度的變化直接影響用戶負荷、散熱量網供的大小,所以選擇的被控參數應與室外溫度有單值函數關系,而以往所選的被控參數與室外溫度之間都不是單值函數關系。
  8. The relations between the parameters of gas charging and exhausting, heat quantity through the shell of tube ( q ), the length of the tube ( l ), the ratio of gas charging time to gas exhausting time ( ), the frequency of the jet flow ( f ), the ratio of the expansion ( ), the nature of thermal separator and the unsteady flow in the tube were established

    建立了進、排氣參數、管壁散熱量( q ) 、管長( l ) 、充、排氣時間比( ) 、射流頻率( f ) 、膨脹比( )等參數與分離機性能及管內非定常流動的關系,並分析了有關因素對分離機性能的影響。
  9. Test method of thermal output of heat emittor

    採暖散熱量測定方法
  10. The optimized heat exchangers module was verified to be good based on wind tunnel test and road test

    改進方案的風洞實驗和實車路試結果表明,各器的散熱量達到設計指標,各系統工作正常。
  11. The heat quantity given off from floor surface with different floor materials and different floor structure is calculated

    摘要用數值計算的方法計算了不同地面層材料和不同地板層結構的地表散熱量
  12. And, on multiprocessor systems, threads are actually able to run simultaneously, just like two or more processes can

    Powerpc處理器有非常強的嵌入式表現,因為它具有優異的性能、較低的能損耗以及較低的散熱量
  13. Calculate the total length of electric heating cables needed acco - rding to total heat loss of pipes or tanks and the chosen power per meter

    根據管道或容器罐體總散熱量和選定的電帶米功率,計算所需電帶總長度。
  14. Note : when actually applying, choose suitable type cable according to the pipe lenght, heat loss, work voltage, number of core wires. and core wire ' s section areas

    注:實際選用時應根據管道長度、散熱量、工作電壓和芯線數,計算芯線截面而定。
  15. Only the heat gain from the heat source and the heat coming from lower part of the wall is taken into account, the heat gain of higher zone of the room isn " t calculated

    對置換通風其得計算時只考慮工作區散熱量及從下部墻體進入的,可不考慮房間上部區域的得
  16. Compared with the three row tubes and single wave belt which is the old production of the baling factory, the heat transfer capacity of the single row tube and double waves belt can increase 7

    單排雙波帶與八菱廠老產品三排單波帶相比散熱量q可增加到7 . 5左右,風阻減小到13 . 8左右。
  17. The author chose two typical rooms to study floor radiation heating system, analyzed change of temperature of every radiation surface in detail, and computed and analyzed the exchanged quantity of heat and room quality of room comfort. the paper analyzed the running parameters - temperature, flux, cop etc - of the gshp combined floor radiation heating system of four conditions which depend on the amounts of the turned on single vertical u - tube heat exchanger. the four conditions are as follows : condition that turning on 26 heat exchangers, condition that turning on 12 heat exchangers, condition that turning on 16 heat exchangers, condition that turning on 20 heat exchangers

    本論文選擇了兩個典型房間主要對地板輻射採暖房間的各輻射面的溫度變化情況進行了詳細的分析,並對地板的散熱量和房間的舒適性進行了計算分析;並且以開啟不同數的地源泵埋管換器進行了四個工況的測試並進行了詳細的分析和計算,分別為開啟全部地下埋管、開啟埋管12組、開啟埋管16組、開啟埋管20組。
  18. And also meet experiment result well. the heat release from floor thought radiation is validated about 70 % by analyzing the surface coefficient of heat transfer with convection and radiation

    隨后,對低溫輻射地板上表面的對流換系數和輻射換系數分析結果表明地板表面輻射散熱量約佔地板表面總散熱量的70 。
  19. Based on an actual project, tests and analyses the heat exchanging performances of the vertical u - shaped ground heat exchanger, and obtains the heat release in summer and the heat absorption in winter of ground heat exchanger for unit well depth and the optimal drilling depth

    摘要根據工程實際情況,對豎直u形地埋管換器的換性能進行了現場測試和分析,得出了單位井深地埋管的夏季散熱量、冬季取及最佳地埋管鉆孔深度。
  20. On the basis of theoretical analysis of the relation between the temprrature and volume of medium and results of numerical simulation, the authors detailedly discuss the themodymamic and hydrodynamic characters of there kinds of radiator connection methods which are used by heating measurement and fee system

    散熱量媒溫度和流關系的理論分析和工況模擬為基礎,對室內計採暖系統採用的不同器連接方式的力、水力工況進行理論分析計算模擬指出其各自不同的規律性。
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