蒸氣回收系統 的英文怎麼說

中文拼音 [zhēnghuíshōutǒng]
蒸氣回收系統 英文
vapor recovery system
  • : Ⅰ動詞1. (蒸發) evaporate2. (利用水蒸氣的熱力使食物熟或熱) steam Ⅱ名詞[中醫] (將藥物隔水蒸熟) steaming
  • : Ⅰ名詞1 (氣體) gas 2 (空氣) air 3 (氣息) breath 4 (自然界冷熱陰晴等現象) weather 5 (氣味...
  • : 回構詞成分。
  • : Ⅰ動詞1 (把攤開的或分散的事物聚集、合攏) put away; take in 2 (收取) collect 3 (收割) harvest...
  • : 系動詞(打結; 扣) tie; fasten; do up; button up
  • : Ⅰ名詞1 (事物間連續的關系) interconnected system 2 (衣服等的筒狀部分) any tube shaped part of ...
  • 蒸氣 : steam; vapour蒸氣供暖 steam heating; 蒸氣管 steam pipe; 蒸氣管道 steam pipeline; 蒸氣渦輪機 steam...
  • 系統 : 1. (按一定關系組成的同類事物) system 2. (有條理的;有系統的) systematic
  1. A canister purge valve is opened periodically to vent the vapor back into induction system.

    集器的清除閥周期性地開啟,泄放使之返
  2. Evaporative recovery can be used on almost all process rinse water systems, with the exception of those which deteriorate with use.

    法可用於幾乎所有生產過程的漂洗水,那些因使用而變質的除外。
  3. This paper studies the structure optimization of 300mw unit thermodynamics system, including the drain - back system, the vacuum extractor system, the cooling spray system, the recovered system of the blow down water, and the accessory steam system

    本文從結構上對300mw級火電機組熱力進行了優化研究,主要包括:、真空抽、給水噴水減溫、排污利用以及輔助
  4. Based on the conclusions that have been admitted, the paper improves the drain - back system optimization theory, studies the different vacuum extractor system, builds a optimum model of the cooling spray system, optimizes the recovered system of the blow down water with a new structure, converts the accessory steam system and proves it in theory

    本文在總結已有研究的成果的基礎上,完善了結構優化的理論,研究了不同真空抽的優劣,建立了噴水減溫的優化模型,引入新的結構對排污利用進行優化,改造了輔助並從理論上進行證明。
  5. Abstract : the causes for low efficiency of the heater in no. 2 crude unit of jpc refinery are described and analyzed including water leaking of steam soot blower, dew point corrosion caused by steam, soot deposits in convection chamber owning to poor soot blowing, high flue gas temperature, no heat recovery of flue gas, and poor performance of insulation lining, etc. by using sonic soot removing system, flue gas recovery system, spray coating of fiber and rock wool, as well as adjustment of flow scheme accordingly in the technical revamping. the dew point corrosion is completely eliminated, the insulation performance is improved, the heat loss is reduced by 1. 25 %, the flue gas temperature is reduced to about 170, and the heater efficiency is increased from 83 % to more than 90 %

    文摘:分析了金陵石油化工公司煉油廠二套常減壓裝置加熱爐存在的因汽吹灰器漏水,汽引起露點腐蝕及吹灰效果差造成對流室積灰,排煙溫度高,煙熱量未利用以及爐子保溫襯里效果差等問題,提出採用聲波除灰、煙、纖維噴塗和巖棉噴塗及相應的流程調整等改造措施.測定結果表明,本次技術改造解決了因汽吹灰器漏水所造成的露點腐蝕問題,提高了保溫效果,減少散熱損失1 . 25 % ,排煙溫度降至170左右,裝置的爐效率由83 %左右提高到90 %以上
  6. The causes for low efficiency of the heater in no. 2 crude unit of jpc refinery are described and analyzed including water leaking of steam soot blower, dew point corrosion caused by steam, soot deposits in convection chamber owning to poor soot blowing, high flue gas temperature, no heat recovery of flue gas, and poor performance of insulation lining, etc. by using sonic soot removing system, flue gas recovery system, spray coating of fiber and rock wool, as well as adjustment of flow scheme accordingly in the technical revamping. the dew point corrosion is completely eliminated, the insulation performance is improved, the heat loss is reduced by 1. 25 %, the flue gas temperature is reduced to about 170, and the heater efficiency is increased from 83 % to more than 90 %

    分析了金陵石油化工公司煉油廠二套常減壓裝置加熱爐存在的因汽吹灰器漏水,汽引起露點腐蝕及吹灰效果差造成對流室積灰,排煙溫度高,煙熱量未利用以及爐子保溫襯里效果差等問題,提出採用聲波除灰、煙、纖維噴塗和巖棉噴塗及相應的流程調整等改造措施.測定結果表明,本次技術改造解決了因汽吹灰器漏水所造成的露點腐蝕問題,提高了保溫效果,減少散熱損失1 . 25 % ,排煙溫度降至170左右,裝置的爐效率由83 %左右提高到90 %以上
  7. The mathematical and physical dynamic models are given based on the adsorbent theory of porous medium. its running and parameters affecting its performance are numerically studied and the method that control the water content in the absorbent bed is recommended. the improvement on system configuration to recover heat is discussed and the operation scheme is given

    利用多孔介質吸附模型和平衡吸附壓力的概念建立了該工作過程的物理數學模型,數值模擬的方法模擬了其工作過程和影響因素,提出了控制吸附床含濕量的方案,驗證了改進流程能量的可行性並給出了操作方案,提出並分析了用熱電製冷器潛熱節約電能的方法。
  8. Rubber and plastic hoses and hose assemblies with internal vapour recovery for measured fuel dispensing systems - specification

    已測定的燃料分配用帶內部的橡膠和塑料軟管和軟管組件.規范
  9. Rubber and plastic hoses and hose assemblies with internal vapour recovery for measured fuel dispensing systems - specification ; german version en 13483 : 2005

    可測量的燃料分配用帶內部的橡膠和塑料
  10. Balance vapour recovery system

    平衡管道蒸氣回收系統
  11. Fuel vapor recovery system

    燃油蒸氣回收系統
  12. Vapor recovery system

    蒸氣回收系統
  13. The most advanced technology available has been used in the design of the terminal, providing the industry with a safe and environmentally sound alternative for storage and transhipment of all liquid products, hazardous and nonhazardous ones as well as those with demanding quality requirements

    本公司在設計中採用現有最先進最安全的技術,包括壓力儲罐、氮充填、產品和火炬設施。
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