refrigeration capacity 中文意思是什麼

refrigeration capacity 解釋
製冷能力
  • refrigeration : n. 消熱,清涼;冷卻(法);冷藏(法),冰凍,致冷;致冷學。
  • capacity : n 1 包容力,吸收力,收容力。2 容積,容量;【電學】電容,負載量。3 能力,才幹,本領;性能,機能。4...
  1. Adsorbent bed is the core component of adsorption refrigeration system, its heat and mass transfer performance has a direct influence on the refrigerating capacity of the system

    摘要吸附床是吸附式製冷系統的核心部件,其傳熱傳質性能的好壞直接影響到系統的製冷量。
  2. According to a series of experimental data, the effect of following factors on the temperature in the ultra - low temperature box and cop are analyzed : the mixture composition, the pressure ratio and the return fluid extraction ratio of the rectifying column, the refrigeration capacity and the flow rate through throttle valve

    並根據一系列實驗結果,分析了工質配比、循環壓比及精餾柱迴流液的抽取率、加熱量和節流元件對低溫箱內溫度和系統cop的影響,為今後的進一步研究指明了方向。
  3. ( 1 ) for the first time, compositing the chemical compounds of alkaline - earth metal with the adsorption material, 13x molecular sieve, silica gel, and activated alumina to gain a series of composite adsorbents with good performance that higher adsorption capacity and lower regeneration temperature and suitable for adsorption refrigeration systems that can be driven by low - grade thermal energy

    首次將堿土金屬化合物及其鹽類與傳統吸附材料13x分子篩、硅膠和活性氧化鋁等復合,制取具有較高吸附量和較低再生溫度的適合於以低溫熱能驅動的吸附製冷過程的一系列優良復合吸附劑。分別在自製的吸附製冷、除濕製冷模擬實驗裝置上,測得該系列復合吸附劑與水和乙醇組成的吸附製冷工質對的吸附製冷性能以及除濕製冷性能均優于傳統吸附劑( 13x ,硅膠和活性炭) 。
  4. Formula for refrigerating capacity of two - stage compression refrigeration cycle based on piston displacement of high pressure stage

    基於高壓級活塞排量的雙級壓縮製冷循環製冷量計算式
  5. The experimental results showed that : in the summer operating mode, the refrigerating capacity and coefficient of performance of the system decreased with the increase of the temperature difference between supply and return ground - water and the water supply temperature ; in the winter operating mode, the refrigerating capacity and coefficient of performance of the system increased with the decrease of the temperature difference between supply and return ground - water and the increase of the water supply temperature. it also showed that, change the are of heat exchanger has great influence of refrigeration system

    本課題通過實驗測試井水進口溫度、進出口溫差以及在不同溫差下換熱器面積匹配對系統性能的影響。實驗結果表明,夏季工況下,隨著井水進口溫度的升高,進出口溫差的增大,系統製冷量減小,機組cop降低,系統運行性能惡化。冬季工況下,隨著井水進口溫度的升高,進出口溫差的減小,系統的制熱量增加,機組cop提高,系統運行性能優化。
  6. The operation result showed that with a solar collector of 20 square - meter, the cooling capacity of the solar ejector refrigeration system could meet the demand of a living house of 60 to 70 square - meter ( when the booster was present ) or of 20 to 30 square - meter ( when the booster was absent ) from 10am to 4 pm

    模擬運行結果表明,採用20m ~ 2平板真空管集熱器,太陽能噴射式製冷系統從上午10點運行到下午4點期間,可以滿足供60 ? 70m ~ 2 (採用增壓器)或者20 ? 30m ~ 2 (不採用增壓器)住宅空間製冷空調要求。
  7. The change of the revolution of compressor by using the frequency conversion technology while the outside burthen alters, enables that refrigerant discharge changes along with the alteration of head load, and therefore refrigerating capacity will change respectively so that refrigeration system can match the variety in heat load

    在外界負荷變化的時候通過變頻技術改變壓縮機的轉速,使製冷劑流量隨著負荷的變化而變化,從而改變系統的製冷量,達到製冷系統與負荷變化的匹配。
  8. The compressor performance test system can be used to test the refrigeration capacity and other parameters related

    壓縮機性能測試系統可以對壓縮機的製冷量以及相關的性能參數進行測量。
  9. The analyzing result indicates that when the ambient temperature of compressor rises, the compressor works in an unfavorable ambient and the shell temperature and discharge temperature rise, while the performance and refrigeration capacity reduce. sealing the compressor can reduce the

    分析結果表明:壓縮機環境溫度升高時壓縮機工作在一個十分不利的環境中,環境溫度的升高導致壓縮機的殼溫和排氣溫度升高,性能降低,製冷量減小。
  10. Refrigeration process, refrigeration capacity, refrigeration effect, refrigeration efficiency, etc

    製冷製冷程序、冷凍能量、冷凍效果、冷凍效率等
  11. In order to compare the influence of the initial refrigerant and the new refrigerant to test system better, the volume refrigeration capacity per unit, cop and the ratio of pressure were calculated and compared from the basic refrigerant loop

    為了更好的比較原有製冷工質和新型替代工質對測試系統的影響,本文從基本的製冷循環出發,對循環的單位容積製冷量、 cop以及循環壓比等參數進行了計算比較。
  12. The maximum cooling capacity was 1. 8kw with cop of 0. 259 when the booster was absent, or the maximum cooling capacity was 5. 2kw with cop of 0. 777 when the booster was present. 4. an experiment set of solar ejector refrigeration system was built, in order to study its performance characteristics and the key influence factors, in which r123 was taken as the refrigerant

    系統最大製冷能力1 . 8kw 、平均cop為0 . 259 (不採用增壓器)或者最大製冷能力5 . 2kw 、平均cop為0 . 777 (採用增壓器) ( 4 )建立了以電加熱模擬太陽能輻射的噴射式空調系統實驗臺,研究了噴射式製冷系統的工作特性和影響因素,以及製冷劑r123的運行性能。
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