表面式減溫器 的英文怎麼說

中文拼音 [biǎomiànshìjiǎnwēn]
表面式減溫器 英文
indirect-contact desuperheater
  • : Ⅰ名詞1 (外面;外表) outside; surface; external 2 (中表親戚) the relationship between the child...
  • : Ⅰ名詞1 (頭的前部; 臉) face 2 (物體的表面) surface; top 3 (外露的一層或正面) outside; the ri...
  • : 名詞1 (樣式) type; style 2 (格式) pattern; form 3 (儀式; 典禮) ceremony; ritual 4 (自然科...
  • : Ⅰ形容詞(不冷不熱) warm; lukewarm; hot; gentle; mild Ⅱ名詞1 (溫度) temperature 2 (瘟) acute ...
  • : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
  • 表面 : surface; superficies; boundary; face; rind; sheet; skin; outside; appearance
  • 溫器 : thermoscope
  1. Of the currently available coolers for electronic products with a high heat flux, microchannel heat sinks have been proved to be able to provide the best heat transfer performance and are one of the most promising coolers. the manifold microchannel ( mmc ) heat sink has many advantages such as low thermal resistance, compact structure, little amount of coolant, low flow rate, uniform temperature distribution along the flow direction and many others, so it is able to provide the best heat transfer performance : lowering the maxmal temperature and the temperature difference

    在目前高熱通量電子產品冷卻中,微通道熱沉已被證實是傳熱性能最佳且最具應用潛力的冷卻方之一,而歧管微通道熱沉因具有低熱阻、結構緊湊、所需冷卻液量小、沿流動方向度分佈均勻等優點則成為小電子元件換熱最高度、降低度變化的一種有效方法。
  2. Abstract : the in servie tubular heaters built early in refineries and chemical plans have low thermal load and low heat efficiency, therefore measures for technical reform are offered, including ( 1 ) enlarging the surface area of convection tubes to increase the thermal load of rhe convection section ; ( 2 ) increasign the heat interchanging area of radiant tubes ; ( 3 ) changing the height of the chimney ; ( 4 ) using new burner with forced air supply to increase calorific capacityu ; ( 5 ) adding air preheater between the convection section and chimney to enhence the temperature of the air entering the furnace ; ( 6 ) adopting high temperature radiant coating to improve the effect of radiant heat interchanging

    文摘:針對早期建造的煉油廠和化工廠在役管加熱爐熱負荷和熱效率低的狀況,提出了若干技術改造措施包括,增大對流管積以增大對流段的熱負荷;增加輻射管的換熱積;修正煙囪高度;換用新型燃燒,變自然通風為強制供風,以增大燃燒的發熱量,小過剩空氣系數,節省燃料2 % 3 % ;在對流段和煙囪之間增設空氣預熱以提高空氣入爐度;採用高輻射塗料增強輻射換熱效果,從而增加熱源對爐壁的輻射傳熱量和爐管的傳熱量等。
  3. The in servie tubular heaters built early in refineries and chemical plans have low thermal load and low heat efficiency, therefore measures for technical reform are offered, including ( 1 ) enlarging the surface area of convection tubes to increase the thermal load of rhe convection section ; ( 2 ) increasign the heat interchanging area of radiant tubes ; ( 3 ) changing the height of the chimney ; ( 4 ) using new burner with forced air supply to increase calorific capacityu ; ( 5 ) adding air preheater between the convection section and chimney to enhence the temperature of the air entering the furnace ; ( 6 ) adopting high temperature radiant coating to improve the effect of radiant heat interchanging

    針對早期建造的煉油廠和化工廠在役管加熱爐熱負荷和熱效率低的狀況,提出了若干技術改造措施包括,增大對流管積以增大對流段的熱負荷;增加輻射管的換熱積;修正煙囪高度;換用新型燃燒,變自然通風為強制供風,以增大燃燒的發熱量,小過剩空氣系數,節省燃料2 % 3 % ;在對流段和煙囪之間增設空氣預熱以提高空氣入爐度;採用高輻射塗料增強輻射換熱效果,從而增加熱源對爐壁的輻射傳熱量和爐管的傳熱量等。
  4. In this system, mean velocity pipe is applied to transform the air velocity signal into pressure difference signal, and then the pressure difference signal is input into pressure difference transmitter to realize the transform of the pressure difference signal from non - electricity signal to electric current, and through the resistance in the corresponding sampling circuit the electric current is transformed into voltage signal ; the thermocouple is used as the primary element to realize the transform from temperature signal to the voltage signal ; under the control of communication agreement module, diversified voltage signal is transported into computer by way of a / d conversion module, and then the monitoring software compiled beforehand is transferred to deal with all the voltage signals relatively, the result of which is conveyed to relative interface to display

    該裝置具有三個特點:一是採用方法,有效地少了元件的維護與損耗;二是採用工業控制計算機及信息就地採集、數據總線傳輸的方,充分利用計算機和數據自動採集方的技術,實現各種參數的在線測量,監測指標全,能與dcs系統聯用,具有技術先進性和一定的前瞻性;三是採用顯示配工業觸摸屏的顯示方,為現場運行人員提供了簡單、易學、方便的操作模。本裝置自2001年8月投入運行以來,有效地幫助、指導運行人員進行燃燒調整,對于鍋爐和機組的安全、經濟運行發揮了重要作用。
  5. Evaporative cooling can keep a low and uniform wall temperature. it can reduce the volume, the weight of the electrical equipments. meanwhile, it is safe and reliable even in short - time emergency overloads, so this cooling method really shows great promise on the application of large electrical equipment

    採用此種冷卻方的大型變壓等電氣設備換熱效率高、能耗少;發熱度均勻;結構緊湊、製造所需材料少、製造成本下降;壽命延長;重量輕、體積小;安全可靠。
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