板式凝結器 的英文怎麼說

中文拼音 [bǎnshìníngjiē]
板式凝結器 英文
tabular condenser
  • : Ⅰ名詞1 (片狀硬物體) board; plank; plate 2 (專指店鋪的門板) shutter 3 [音樂] (打拍子的樂器) ...
  • : 名詞1 (樣式) type; style 2 (格式) pattern; form 3 (儀式; 典禮) ceremony; ritual 4 (自然科...
  • : 動詞1. (凝結) congeal; curdle; coagulate 2. (注意力集中) fix
  • : 結動詞(長出果實或種子) bear (fruit); form (seed)
  • : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
  1. For the leakage often occured on condenser brass pipe of hanchuan power plant, using differential inner insert detecting coil the on - line multi - frequency eddy current check technology effectively restrains interferance source signal from support board, etc, improves measuring sensitivity and the measuring result gets more reliable

    摘要針對漢川電廠銅管在運行中多次發生泄漏,利用差分內插檢測線圈,通過多頻渦流檢測技術對進行渦流在役檢測,有效地抑制了支撐等干擾源信號,提高了檢測靈敏度,使得檢測果更可靠。
  2. Based on the overview of former researches on the bond - slip performance between reinforced bar and concrete in rc structures as well as between steel shape and concrete in src structures, a new type of slip transfer named " the embedded electronic steel - concrete slip transfer " ( patent authorization no. zl - 02 - 2 - 61881. 3 ) was manufactured, by which the interior slip between the steel shape and concrete along the embedment length could be directly measured, the most difficult problem of experimental research was consequently solved

    在前期試驗方法研究中,設計發明了一種實用新型的內置鋼-混土電子滑移傳感(專利授權號: zl - 02 - 2 - 61883 . 3 ) ,基本上實現了型鋼與混土連接面上內部滑移的測量,解決了型鋼混土粘滑移試驗研究的一個關鍵難題;採用組合h型鋼的方法測量了型鋼翼緣、型鋼腹應變,較好地實現了型鋼混土粘應力的測試。
  3. Based on the experiments, the simulation of the heat exchanger and scroll compressor was accomplished which also offered a favorable condition to the establishment of the whole gwshp methods were used to improve the veracity and astringency of the model, such as : dividing the condenser into several tiny segment with equal area ; separating the condensing process into single - phase region and double - phase region ; the comparing result showed that most of the error between the data of simulation and experiment was within 5 % while the maximal error was 8. 35 %

    在建模過程中,從大量蒸發和冷的換熱關聯中,通過與實驗數據的比較找出了與實驗果最為接近的換熱關聯在建模過程中,針對冷換熱的特點,採取將冷按面積分成若干個微元段,並將冷過程分成單相區和兩相區的方法。同時對渦旋壓縮機進行建模和分析同時在熱力學平衡基礎上與實驗數據比較,經過驗證,對于換熱模型,模擬計算與實驗果的誤差一般都在5以內,最大為12 。
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