gas recovery 中文意思是什麼

gas recovery 解釋
氣體回收
  • gas : n (pl gases )1 氣,氣體,氣態 〈cf fluid; solid〉 2 可燃氣,煤氣,沼氣;【礦物】瓦斯。3 【軍事...
  • recovery : n. 1. 重獲;復得;恢復,收回,回收。2. 還原,復原;痊癒;蘇生;矯正。3. 回縮。4. 填地。5. 【法律】勝訴。
  1. The pulse pneumatic conveying system has been a important transporting method for grain material, because of lower velocity, higher ratio of blend and a littler gas, as well as shattering less materiel, abrasing pipeline and easy recovery

    脈沖氣力輸送裝置以其低速、高混合比、低耗氣量等一系列持點,並由此帶來的被輸送物料破碎少、管道磨損小、產生粉塵少並且易於回收等優點,成為新一代粉粒料氣力輸送設備,並且被廣泛使用。
  2. Surplus heat recovery of gas engine driven water to water heat pump

    水燃氣機熱泵的余熱回收
  3. The result is that this gas pool has simple structure, only forms a little nose - like structure at the district of fenghuangshan ; this pool belongs to delta front sub - facies sedimentary model, the underwater distributary channel and mouth bar is the better sedimentary microfacies ; the physical property of the reservoir is poor, the type of pore of the reservoir rock mostly are intergranular pore, intergranular solution hole and little are intercrystalline micropore ; the influential factors of pore structure and physical property are lithofacies, lithologic character and diagenesis ; the off - take potentia of all the testing well are deadly shortness, the wells have the worth of industrial recovery only under the condition of going through sand fracturing, and in the early of binging into production, the oil and sheath pressure drop rapidly, the production of the well drop rapidly

    研究認為該氣藏構造簡單,只在鳳凰山形成了一個小型的鼻狀構造;屬於三角洲前緣亞相沉積模式,水下分流河道和河口壩是有利的沉積微相;儲層物性差,儲層巖石的孔隙類型主要有粒間孔、粒間(內)溶孔及少量晶間微孔;影響蓬萊鎮組氣藏儲層孔隙結構及儲集性的因素有巖相、巖性條件及成巖作用;所有測試井自然產能都極低,必須經加砂壓裂后才有工業開采價值,且投產初期,油套壓下降較快,氣井產量下降迅速。
  4. Numerical simulation of pinnate horizontal multilateral well for coalbed gas recovery

    煤層氣羽狀水平井開采數值模擬研究
  5. Correction of the gas reservoir recovery factor and recoverable reserves estimated by volumetric method

    對容積法計算氣藏採收率和可采儲量的修正
  6. Some changes are needed in the configuration of the plant to reflect the changes that have occurred on the site, primarily that both the hydrogen recovery plant that was fed with purge gas and supplied instrument air and the site auxiliary boilers that provide low pressure steam have been dismantled

    裝置布局發生了一些變化,主要的兩項就是拆除了氫回收裝置和輔助鍋爐,氫回收裝置消耗吹掃氣和儀表空氣,輔助鍋爐曾經用來提供低壓蒸汽。
  7. Aim at the present condition that the permeability of high rank coal reservoirs and its dynamic change regulation have been rarely studied, based on the modern testing technologies and actual measure data of coalbed methane ( cbm ) well with better drainage effect in qinshui basin, using the international advanced cbm well numerical simulation software ( comet2 ), the dynamic change regulation of the permeability of high rank coal reservoirs during gas recovery has been discussed, using the gas and water recovery process in divided stage is matched

    摘要針對高煤級煤儲層滲透率尤其是其動態變化規律極少開展研究的現狀,基於現代測試技術和沁水盆地排采效果較好的煤層氣井實測排采數據,利用目前國際上較為先進的煤層氣數值模擬軟體comet2 ,採用分段擬合的方法對煤層氣井的產氣、產水過程進行歷史擬合和修正,進而對高煤級煤儲層滲透率在開采中的動態變化規律進行了探討。
  8. Landfill gas recovery and utilization

    垃圾填埋場沼氣收集和發電利用
  9. Terminology of air separation plant - rare gas recovery equipment

    空氣分離設備術語稀有氣體提取設備
  10. Evaluation method for foaming agent of draiinaging gas recovery

    泡沫排水采氣用起泡劑評價方法
  11. Aim at high pressure high temperature well practice engineering question in field development engineering, especially cnpc southwest oil gas branch gas recovery academy project ' s concretion demand, based upon in existence measuring and testing techniques foundation, the dissertation produce a sort of new optical fiber downhole high pressure high temperature test system, and finish downhole fibre optic pressure sensor ' s design

    本文針對油氣田開發工程中高溫高壓井的實際工程問題,特別是cnpc西南油氣田分公司采氣工程研究院科研項目的具體要求,在分析研究現代測試技術基礎上,提出一種新型的光纖式井下高溫高壓測試系統,並主要完成了井下光纖壓力傳感器的設計。
  12. 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蒸汽吹灰器漏水,蒸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,煙氣熱量未回收利用以及爐子保溫襯里效果差等問題,提出採用聲波除灰系統、煙氣回收系統、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蒸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
  13. 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蒸汽吹灰器漏水,蒸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,煙氣熱量未回收利用以及爐子保溫襯里效果差等問題,提出採用聲波除灰系統、煙氣回收系統、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蒸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
  14. Taking oil - gas recovery enterprises as studying object, a quantitative model of its industrial value - chain and internal value - chain was set up and the relevant positive analysis was carried on

    以油氣開采企業為研究對象,建立了油氣開采企業行業價值鏈和內部價值鏈的數量模型,並進行了相應的實證分析。
  15. Numerical simulation on dynamic variation of the permeability of high rank coal reservoirs during gas recovery

    高煤級煤儲層滲透率在煤層氣排采中的動態變化數值模擬
  16. Numerical simulation of temperature decrease and fluid flow with water spraying in venturi tube of converter coal gas recovery system

    轉爐煤氣回收系統文氏管噴淋降溫與流動數值模擬
  17. Heat and mass transfer with spraying in venturi tube is very complex in converter coal gas recovery system

    摘要在轉爐煤氣回收系統中,文氏管內部有噴射行為的傳熱傳質非常復雜。
  18. Landfill gas recovery and utilization as energy for clean development mechanism application

    城市垃圾填埋場的沼氣回收與發電利用技術
  19. 4. land gas recovery and reuse from canada and here below are eight projects of technology introduction and other aspects we are now impimplementing

    其技術方案是在負荷集中的小區採用小型燃氣輪機組或燃料電池來統一供電供熱水供冷氣,大大提高熱電效率。
  20. The results indicate that oil - gas recovery enterprises value - chain is a system composed of interdependent value - activities, in which there is optimizing space between each value - activity

    結果表明,油氣開采企業價值鏈是由相互依存的價值活動構成的一個系統,這個系統中各個價值活動之間存在著優化空間。
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