燒結過濾器 的英文怎麼說
中文拼音 [shāojiēguòlǜqì]
燒結過濾器
英文
sintered filter- 燒 : Ⅰ動詞1 (使東西著火) burn 2 (加熱或接觸某些化學藥品、放射性物質等使物體起變化) cook; bake; hea...
- 結 : 結動詞(長出果實或種子) bear (fruit); form (seed)
- 過 : 過Ⅰ動詞[口語] (超越) go beyond the limit; undue; excessiveⅡ名詞(姓氏) a surname
- 濾 : 動詞(除去液體雜質) filter; strain
- 器 : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
- 過濾器 : absorber
- 過濾 : [工業] filter; filtrate; screening; colation; filtration; filtering; lautering; colating; straini...
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Laboratory glassware. sintered fritted glass filters
實驗室用玻璃器皿.燒結玻璃過濾器Specification for laboratory sintered or fritted filters including porosity grading
實驗室燒結或熔結過濾器Sintered polymolecular microporous tubular filter
高分子燒結微孔管式過濾器Sintered metal materials ; werkstoff - leistungsbl ? tter sint - material specifications ; part 2 : materials for filters
燒結金屬材料. wlb燒結材料規范.第2部分:過濾器用材Sintered metal materials ; sint - testing procedures ; part 6 : determination of filter properties
燒結金屬材料.燒結試驗程序.第6部分:過濾器性能測定This article discusses the metal filter core regeneration of the hydroxylamine catalyst filter from various aspects such as filtering precision, fluid infiltration function, filtering efficiency, filtering mechanism, by link up with the hpo process of caprolactam production, and provides a generalized regeneration approach
摘要主要從過濾精度、流體透過性能、過濾效率、過濾機理等方面結合hpo法生產己內酰胺工藝羥胺反應過濾器金屬芯的再生問題,通過對金屬燒結濾芯一般特性的過濾性能的分析,結合實驗數據,提供了一種綜合性再生方法,該方法處長了濾芯的使用周期,滿足了生產高負荷生產要求,再生效果較好。In order to study the regeneration mechanism of dpf in detail, we still need a mathematical model of the channel unit, which present temperature field and the soot reaction rate of the channel. finally, it points out the influences of various factors to the regeneration process by computing the numerical solution of model under different boundary conditions and geometry parameters, such as the initial temperature, the gas flow rate, the oxygen concentration, the sediment quantity and the wall thickness of the filters, and so on. in this way, the paper provides theoretical guidance for optimization design of the dpf
首先研究了干凈壁流式過濾體的加熱特性,然後在加熱和燃燒理論的基礎上建立了微粒捕集器再生過程的數學模型,並對模型進行了數值計算,得到了捕集器內部的三維溫度場分佈以及溫度梯度分佈,結果與實驗值吻合較好,驗證了模型的正確性;為了詳細的研究微粒捕集器的再生機理,建立了孔道單元數學模型,得到了孔道內的溫度場分佈和微粒反應速率分佈;最後,通過求解模型在不同邊界條件和不同幾何參數下的數值解,分析了各種因素對再生過程的影響,如過濾體初始溫度、過濾體內氣流的流動速率、氧濃度、微粒沉積量以及過濾體壁面厚度,為微粒捕集器的優化設計提供理論指導。分享友人