'
광산배수에 용존하는 금속의 선택적 침전 회수 및 활용에 관한 연구 = Recovery of Dissolved Metals in Acid Mine Drainage by Selective Precipitation and Its Utilization' 의 주제별 논문영향력
논문영향력 요약
주제
기타 공학
광산배수
산화
선택적 침전 회수
슬러지
응집
자철석
동일주제 총논문수
논문피인용 총횟수
주제별 논문영향력의 평균
180
0
0.0%
주제별 논문영향력
논문영향력
주제
주제별 논문수
주제별 피인용횟수
주제별 논문영향력
주제분류(KDC/DDC)
기타 공학
1
0
0.0%
주제어
광산배수
8
0
0.0%
산화
53
0
0.0%
선택적 침전 회수
1
0
0.0%
슬러지
31
0
0.0%
응집
67
0
0.0%
자철석
19
0
0.0%
계
180
0
0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수
0
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광산배수에 용존하는 금속의 선택적 침전 회수 및 활용에 관한 연구 = Recovery of Dissolved Metals in Acid Mine Drainage by Selective Precipitation and Its Utilization' 의 참고문헌
Wei,X.and Viadero Jr.R.,2007,“Synthesis ofmagnetite nanoparticles with ferric iron recovered from acid mine drainage: Implications for environmental engineering”,ColloidsandsurfacesA:Physicochem.Eng.Aspects.,Vol.294,No. 1-3,pp.280-286.
Wei,X.,Viadero,R.and Buzby,K.M.,2005,“Recovery ofiron and aluminum from acidminedrainageby selectiveprecipitation”,Environmentalengineering science, Vol.22,No.6,pp.745-755.
Wang,Y.,Wang,L.,Tian,T.,Hu,X.,Yang,C.and Xu,Q.2012,“Automated solid-phase extraction hyphenated to voltammetry for the determination of quercetin using magnetic nanoparticles and sequential injection lab-on-valve approach,”Analyst,Vol.137,pp.2400-2405.
Ucar,D.,Bekmezci,O.K.,Kaksonen,A.H.and Sahinkaya,E.,2011,“Sequential precipitaion ofCu and Feusing a three-stagesulfidogenicfluidized-bed reactor system,”MineralsEngineering,Vol.24,No.11,pp.1100-1105.
US EPA,2002,Edition of drinking water standard and health advisories,EPA 822-Z-99-001,WashingtonDC
Tang,Y.,Zhang,F.,Cao,Z.,Jing,W.andChen,Y.,2012,CrystallizationofCaCO3 in the presence of sulfate and additives:Experimental and molecular dynamics simulationstudies,JournalofColloidandInterfaceScience,Vol.377,pp.430-437
Tabak, H.H., Scharp, R., Burckle, J., Kawahara1, F.K. and Govind, R., 2003, “Advances in biotreatmentofacid mine drainage and biorecovery ofmetals:1. Metalprecipitation forrecovery and recycle,”Biodegradation,Vol.14,No.6,pp. 423–436.
Stumm,W.,and Morgan,J.J.1996.Aquaticchemistry:an introduction emphasizing chemicalequilibria in naturalwaters,3rd Edition.John Wiley and Sons,New York
Silva,R.A.,Castro,C.D.,Viganico,E.M.,Petter,C.O.and Schneider,I.A.H.,2012, “Selective precipitation/UV production ofmagnetite particles obtained from the ironrecoveredfrom acidminedrainage,”MineralEngineering,Vol.29,pp.22-27
Roh,Y.,Gao,H.,Vali,H.,Kennedy,D.W.,Yang,Z.K.,Gao,W.,Dohnalkova,A.C., Stapleton,R.D.,Moon,J.W.,Phelps,T.J.,Fredrickson,J.K.andZhou,J.,2006, Metal reduction and iron biomineralization by psychrotolerant Fe(II)-reducing bacterium,Shewanella sp.strain,PV-4.Appl.Environ.Microbiol.,Vol.72,pp. 3236-3244
Riveros,P.A.,2004,“The extraction of Fe(Ⅲ) using cation-exchange carboxylic resins,”Hydrometallurgy,Vol.72,No.3-4,pp.279-290.
Rao,S.R.,N.Kuyucak,T.,Sheremata,M.,Leroux,J.A.Finch,andWheeland,K.G., 1994, Prospect of metal recovery/ recycle from acid mine drainage. In: Proceedings,InternationalLandReclamationandMine,pp.223-232
Rao,S.R.,Leroux,M.and Finch,J.,1996,“Resource recovery from acid mine drainage. Metals removal from acidic drainage—chemical methods (Part I),” MEND Project3.21.2a,Pointe-Claire,PQ:NorandaTechnologyCenter.
Park,S.M.,Shin,S.Y.,Yang,J.S.,Ji,S.W.,Baek,K.T.,2015,Selectiverecovery of dissolved metals from mine drainage using electrochemical reations, Electrochimicaacta,Vol.181,pp.248-254
Oh,C.T.,Han,Y.S.,Park,J.H.,Bok,S.M.,Cheon,Y.W.,Yim,G.J.,Ji,S.W., 2016,Field application of selective precipitation for recovering Cu and Zn in drainage discharged from an operating mine,Science ofthe totalenvironment, Vol.557-558,pp.212-220
Nascimento,M.R.L.,Fatibello-filho,O.and Teix-eira,L.A.,2004,Recovery of urinium from acidminedrainagewatersbyionexchange,MineralProcessingand ExtractiveMetallurgyReview,Vol.25,No.2,pp.129-142
Morgan,B.E.,Lahav,O.,Hearne,G.R.and Loewenthal,R.E.,2003,A seeded ambient temperature ferrite process for treatment of AMD waters:Magnetite formation in the presence and absence of calcium ions under steady state operation,WaterSa,Vol.29,No.2,pp.117-124
Moon,J.W.,Roh,Y.,Lauf,R.J.,Vali,H.,Yerary,L.W.,Phelps,T.J.,2007, Microbial preparation of metal-substituted magnetite nanoparticles.Journal of MicrobiologicalMethods,Vol.70,pp.150-158
McGinnss,S.and Johson,D.B.,1993,Seasonalvariations in the microbiology and chemistry of an acid mine drainage stream, The Science of the Total Environment,Vol.132,pp.27-41
Macingova, E. and Luptakova, A., 2012, Recovery of Metals from Acid Mine Drainage,TheItalianAssociationofChemicalEngineering,Vol.28,pp.109-114.
Lenter,C.M.,Mcdonald,L.M.,Skousen,J.G.andZiemkiewicz,P.F.,2002,“TheEffects ofSulfate on the Physicaland ChemicalProperties ofActively Treated Acid Mine Drainage Floc,” Mine Water and the Environment,Vol.21,No.3,pp. 114-120.
Kim,D.K.,Zhang,Y.,Voit,W.,Rao,K.V.,Muhammed,M.,2001,Synthesis and characterization ofsurfactant-coated superparamagneticmonodispersed iron oxide nanoparticles.JournalofMagnetism andMagneticMaterials.Vol.225,pp.30-36
Johnson C.A.,1986,The regulations oftrace elementconcentrations in river and estuarine waters contaminated with acid mine drainage:The adsorption ofCu andZn onamorphousFeoxyhydroxide,GeochemicaetCosmochemicaActa,Vol. 50,No.11,pp.2433-2438
Jenke,D.R.and Diebold,F.E.,1983,“Recovery ofvaluable metals from acid mine drainagebyselectivetitration,”WaterResearch,Vol.17,No.11,pp.1585-1590.
Hounslow,A.W.,1995,WaterQuality Data:Analysis and interpretation,Oklahoma StateUniversityStillwater,Oklahoma,LewisPublishers
Hem,J.D.,1981,“Ratesofmanganeseoxidation in aqueoussystems,”Geochimca et CosmochimcaActa,Vol.45,No.8,pp.1369-1374.
Hedin,R.S.,2003,“Recovery ofmarketable iron oxide from mine drainage in the USA,”LandContaminationandReclamation,Vol.11,No.2,pp.93–98.
Beck,J.V.,1960,A ferrous-iron-oxidizing bacterium.I.Isolation and some general physiologicalcharacteristics,J.Bacteriology,Vol.79,pp.502-509
Balintova, M. and Petrilakova, A., 2011, Study of pH Influence of Selective Precipitation ofHeavy Metals from Acid Mine Drainage,ChemicalEngineering Transactions,Vol.25,pp.1-6.
Armenante,P.M.,1997,Precipitation ofheavy metals from wastewaters,NJIT,New Jersey,p.1-43.
Anderson S.L.F.,Flores,R.G.,Madeira,V.S.,Jose,H.J.and Moreira,R.F.P.M.,2012, Synthesisand characterization ofaciculariron oxideparticlesobtainedfrom acid mine drainage and theircatalytic properties in Toluene oxidation,Industrial& EngineeringChemistryresearch, Vol.51,No.2,pp.767-774.
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광산배수에 용존하는 금속의 선택적 침전 회수 및 활용에 관한 연구 = Recovery of Dissolved Metals in Acid Mine Drainage by Selective Precipitation and Its Utilization'
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