水道港口
水道港口
수도항구
JOURNAL OF WATERWAY AND HARBOR
2015年
1期
65-71
,共7页
周晓朋%李怡%李艳坤%孙雨涵%谭再坤%范玮佳
週曉朋%李怡%李豔坤%孫雨涵%譚再坤%範瑋佳
주효붕%리이%리염곤%손우함%담재곤%범위가
吹填土%絮凝%Zeta电位
吹填土%絮凝%Zeta電位
취전토%서응%Zeta전위
dredger fill%flocculation%Zeta potential
研究了天津、连云港两地高浓度淤泥质吹填土泥浆,在添加高分子量的阳离子(CPAM)、阴离子(APAM)、非离子(NPAM)聚丙烯酰胺、聚合氯化铝(PAC)及有机、无机混合溶剂后,胶体颗粒表面Zeta电位变化过程。试验结果表明,两地吹填土电位变化过程相似,各类絮凝剂都可以使吹填泥浆形成胶体并发生沉降,且CPAM、PAC、PAC+CPAM、PAC+NPAM都能使吹填土颗粒表面Zeta电位发生正负改变,泥水分离现象明显,PAC+NPAM组合絮凝效果最为理想。Zeta电位位于0~4.927区间内时,最有利于泥浆絮凝。
研究瞭天津、連雲港兩地高濃度淤泥質吹填土泥漿,在添加高分子量的暘離子(CPAM)、陰離子(APAM)、非離子(NPAM)聚丙烯酰胺、聚閤氯化鋁(PAC)及有機、無機混閤溶劑後,膠體顆粒錶麵Zeta電位變化過程。試驗結果錶明,兩地吹填土電位變化過程相似,各類絮凝劑都可以使吹填泥漿形成膠體併髮生沉降,且CPAM、PAC、PAC+CPAM、PAC+NPAM都能使吹填土顆粒錶麵Zeta電位髮生正負改變,泥水分離現象明顯,PAC+NPAM組閤絮凝效果最為理想。Zeta電位位于0~4.927區間內時,最有利于泥漿絮凝。
연구료천진、련운항량지고농도어니질취전토니장,재첨가고분자량적양리자(CPAM)、음리자(APAM)、비리자(NPAM)취병희선알、취합록화려(PAC)급유궤、무궤혼합용제후,효체과립표면Zeta전위변화과정。시험결과표명,량지취전토전위변화과정상사,각류서응제도가이사취전니장형성효체병발생침강,차CPAM、PAC、PAC+CPAM、PAC+NPAM도능사취전토과립표면Zeta전위발생정부개변,니수분리현상명현,PAC+NPAM조합서응효과최위이상。Zeta전위위우0~4.927구간내시,최유리우니장서응。
In this paper, the Zeta potential change process on colloid particles′surface of mud with high con?centration and muddy dredger fill in Tianjin and Lianyungang was studied after adding high molecular weight CPAM, APAM, NPAM, PAC, organic and inorganic mixed solvent. The test results show that potential changes of dredger fill in the two places are similar. All kinds of flocculants can make hydraulic fill slurry form colloid and cause settlement, and CPAM, PAC, PAC+CPAM, PAC+NPAM can make Zeta potential on colloid particles′surface of dredger fill change between positive and negative. Slurry separation is obvious, and the combined flocculation of PAC+NPAM is the most ideal. When the Zeta potential is between 0 and 4.927, it is beneficial to slurry flocculate.