粉末活性炭 的英文怎麼說

中文拼音 [fěnhuóxìngtàn]
粉末活性炭 英文
pac - powdered activated carbon
  • : Ⅰ名詞1 (粉末) powder 2 (用澱粉製成的粉條或粉絲) noodles or vermicelli made from bean potato o...
  • : Ⅰ名詞1 (東西的梢;盡頭) tip; terminal; end 2 (非根本、非重要的事物) nonessentials; minor detai...
  • : Ⅰ動詞1 (生存; 有生命) live 2 [書面語](救活) save (the life of a person):活人無算 (of a goo...
  • : Ⅰ名詞1 (性格) nature; character; disposition 2 (性能; 性質) property; quality 3 (性別) sex ...
  • : 名詞1. (木炭的通稱) charcoal 2. (像炭的東西) sth. resembling charcoal3. [方言] (煤) coal4. (姓氏) a surname
  • 粉末 : powder; flour; stive; smalls
  • 活性 : [化學] activity; active; activated活性肥料 active fertilizer; 活性酵母 active dry yeast; 活性粘土...
  1. The convential wate treatment process do n ' t work very well to this kind of water, the effluent of which have lots of thms that may cause cancer. the powered activated carbon ( pac ) was welcomed by most water sciticists for its flexible application, particularly to the water changing much duo to the season

    粉末活性炭以其應用靈、基建投資省而受到人們的歡迎,尤其適合於季節變化大的源水的凈化。本文針對黃河微污染源水較系統的研究了粉末活性炭在處理微污染源水中投加條件和處理效果。
  2. In light of various pollution situations and various water treatment processes of two water factories, better solved the problems about throwing doses, throwing localities, throwing forms of composite potassium permanganate and powder activated carbon, as well as compared the enhanced coagulation efficacy of combined process of composite potassium permanganate and powder activated carbon, composite potassium permanganate pre - oxidation and pre - chlorination

    針對兩水廠不同的源水污染狀況和現有的水處理工藝,通過室內和生產試驗,很好地解決了高錳酸鉀復合藥劑、粉末活性炭最佳投加點、投加量和投加方式的確定問題,並對兩者聯用的強化混凝效果與預氯化、單獨高錳酸鉀復合藥劑預氧化進行了對比。
  3. The addition of pac has no obvious effect on resistance of membrane filtration

    粉末活性炭的投加對膜過濾阻力影響不大。
  4. Moreover, the investigation for the ma of cu - cr indicates that : with using of protective atmosphere, active carbon has a good effect on the oxidation control during milling ; the structure refining and increasing of interface and defect result in the formation of non - equilibrium phase

    此外,對cu - cr難互溶體系的ma研究表明:的結構細化及界面、缺陷的產生導致了ma過程中亞穩相(氧化物非晶、過飽和固溶體)的轉變與形成;與保護氣氛相比較,對ma過程中的氧化現象有良好的控製作用。
  5. The authour investigate the dosing conditions and effect of the pac to the huanghe water - source, which includes the following four parts : the selection of the pac ; the confirmation of dosing scheme and effect of the pac ; the research of application of potassium permanganate in combination with pac ; the research of the pac ' s modification and the modified effectiveness. the experiment is mainly carried out on the pilot system in the jieyuan water plan of tianjin. the results of the reseach include the following : l ) the pac from zunhua plant is selected as the better carbon for the source water of tianjin through the experiment ; 2 ) through the pilot experiment we conclude that the pac ' s best adding point is the mixing tank and the better dose is 10mg / l, on which the codmn of filtered water can be decreased to 40 % and the effluent have no problem of odour and color ; 3the adsorbing experiment show that pac mainly adsorb the organic matters which molecular wt., distribution between 500 and 3000, and can adsorb organic matters whose molecular wt., distribution are bigger than 6000 if the dose of it is adequent ; 4 ) pac together with potassium permanganate can remove the organic matter more effectively than each of them alone, and reduce the rising trend of turbidity of the flotation ' s effluent due to adding pac ; 5 ) the thesis made a research on the surface properties and the adsorbing capability of the modified carbon by oxidizer : the modified carbon with 20 % h2o2 can remove more organic pollutants than the untreated one by 12 % when we add a higher dose of coagulant ; 6 ) the modification of reduction and loading metal ions are also sttldied, and drow the following conclusions : the modified carbon with 5 % ammonia can enhance the organic matter ' s removal effectiveness by 10 % to the tianjin source water than the untreated one, and the modified one with loading metal ion remove the organic matters from the tianjin source water better ( 8 % ) than the untreated one due to the strong affinity betwween the humic acid and copper ion

    本文的實驗主要是在天津芥園水廠的中試系統上完成的,論文的成果和結論主要包括: 1 )通過靜態實驗選定河北遵化廠生產的煤質為適合天津原水的種; 2 )中試實驗確定粉末活性炭的較佳投加點為混合池投加,較佳投加量為10mg l ,此時可使濾后水的cod _ ( mn )降低40 ,且可較好地控制濾后水的嗅味和色度; 3 )初步確定粉末活性炭對原水中有機物的吸附主要集中在分子量在500 - 3000范圍內,投量增大時可吸附部分分子量大於6000的有機物4 )中試實驗表明:粉末活性炭與高錳酸鉀聯用可取得較兩者單獨應用時對有機物更好的去除效果,且對因投加粉末活性炭而造成的氣浮出水濁度升高有一定的改善作用; 5 )研究並初步確定氧化改粉末活性炭表面質和有機物的去除效果的影響:粉末活性炭的氧化改會使其表面的酸官能團大量增強,表面極增加;經20的過氧化氫改在增大混凝劑投加量( fecl _ 3投量為15mg l )時對有機物的總體去除效果較原提高12 , 1次氯酸鈉改對有機物的去除效果較原提高6 ; 6 )研究並初步確定還原改、負載金屬離子對原水中有機物的去除效果的影響:經5氨水改可提高天津源水中有機物的去除率達到10 ;負載銅離子后的可提高對腐殖酸類物質的去除能力,一般可提高8左右。
  6. Study on treatment of micro - pulluted raw water with powdered activated carbon

    粉末活性炭除微污染試驗研究
  7. So far composite potassium permanganate is one of the advanced water treatment technology in domestic. based on the systematically analyzing the enhanced coagulation mechanism of composite potassium permanganate and powder activated carbon, the author carried on the laboratory and plant scale research on organic polluted yellow river in baotou two water factories with the combined process of composite potassium permanganate and powder activated carbon

    高錳酸鉀復合藥劑強化混凝是目前採用的一種較為先進的水污染治理技術之一,本文在系統分析高錳酸鉀復合藥劑強化混凝機理、粉末活性炭強化混凝機理的基礎上,進行了高錳酸鉀復合藥劑與粉末活性炭聯用對黃河包頭段兩水廠有機微污染源水強化混凝的室內及生產試驗的應用研究。
  8. The effect of prechlorination on powdered activated carbon for removing odor

    預氯化對粉末活性炭除嗅的影響
  9. The optimization experimental investigation of pac against the source of songhua river polluted by nitrobenzene

    粉末活性炭吸附去除水源水中硝基苯的優選試驗
  10. Pilot experiment of coke - plant wastwater treatment with highly effective bacteria immobiling by powdered active carbon

    粉末活性炭固定高效菌降解焦化廢水的中試研究
  11. The results showed that activated charcoal and zeolite worked much better than others, and the content of purine compounds was fallen to 85 % and 65 % respectively than control

    結果表明, 100目粒度的粉末活性炭和人造沸石對啤酒中的嘌呤類物質的吸附能力很強,嘌呤類物質的含量較對照分別下降了85 %和65 % 。
  12. Pac pre - treatment technology prove to be an economical, convinent and efficient technology for micro - pollutant water source, and it can. be used with other pre - treatment technologies. in the nowdays " enconomic condition, the pac technology has a promising prospect of application

    粉末活性炭預處理技術是一種經濟、簡便、高效的除污染技術,可與多種預處理工藝聯用,沉澱污泥可以考慮回用,在中國目前的經濟水平下有較好的實用
  13. The result of experiment shows : the combined process of composite potassium permanganate and powder activated carbon has excellent efficiency of enhanced coagulation and is more advanced than pre - chlorination, which can completely replace pre - chlorination and is not only feasible in technology but also remarkable in economic benefit

    試驗研究結果表明:高錳酸鉀復合藥劑與粉末活性炭聯用具有優異的強化混凝效能,能夠完全取代預氯化並獲得比其更佳的混凝效果;該項強化混凝工藝不僅技術上可行,而且具有明顯的經濟效益。
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