연구동향 분석
박사

질산성질소가 함유된 소화액처리수를 이용한 소화조내 축적된 유기산 제어

이준상 2015년

논문상세정보
인용/피인용
' 질산성질소가 함유된 소화액처리수를 이용한 소화조내 축적된 유기산 제어' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • anaerobic digestion
  • food waste
  • nitrate
  • vfas' inhibition
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
219 0

0.0%

' 질산성질소가 함유된 소화액처리수를 이용한 소화조내 축적된 유기산 제어' 의 참고문헌

  • 황을 이용한 독립영양탈질에서 FNA농도에 의한 탈질 효율 저해 특성
    이우람 한양대학교 대학원 석사학위논문 [2013]
  • 혐기성 소화에 의한 돈분 슬러리의 바이오가스화
    박우균 충북대학교 박사학위 논문 [2008]
  • 혐기성 소화공정에 의한 바이오가스화의 기술 원리 및 응용
    김남천 김영준 배재근 안중우 유기영 정연구 허관 폐기물자원화 제10권 제1호,한국유기물폐자원학회,pp.7-23. [2002]
  • 혐기성 소화공정에 의한 바이오가스화의 기술 원리 및 응용
    김남천 한국 유기성 폐자원학회 편집위원회,pp.16 [2008]
  • 혐기성 소화 공정의 평가와 제어
    정윤철 한국산업미생물학회,pp.31-52 [1990]
  • 하수슬러지의 혐기성 소화에 미치는 가용화 전처리의 효과
    김대영 박기영 정태학 대한상하수도학회지,14(1),pp.301-310 [2000]
  • 박사
    질산화반응에 미치는 환경인자의 영향
    원성연 충북대학교 박사학위논문 [1999]
  • 이중주파수 초음파 전처리와 산발효공정에 의한 하수슬러지의자원화
    고현웅 동아대학교 [2003]
  • 음식물쓰레기의 구성 성분에 따른 산발효조의 거동 특성
    김상현 김현우 신항식 한선기 유기성자원학회지,10(2),65-70 [2002]
  • 음식물 자원화시설 폐수의 혐기성 소화=부유성 유기물 가수분해의최적화
    조민호 포항공과대학원 석사 학위 논문,pp.68-69 [2010]
  • 우리나라의 음식물쓰레기처리 방법의 개관
    박진서 서승직 차동원 대한설비공학회 2009하계학술발표대회 논문집,pp.427-432 [2009]
  • 박사
    우리나라의 음식물쓰레기 처리방법에 관한 연구
    이진성 인하대학교 석사학위논문 [2011]
  • 온도 공상 혐기성 소화공정을 이용한 하수슬러지와 음식물쓰레기의 합병소화:단상 혐기성 소화공정과 비료
    권상조 송영채 우정희 한국폐기물자원순환학회 추계학술발표논문집,pp.289-292 [2003]
  • 아질산화-탈질반응을 이용한 혐기성 소화조 상징액의 질소제거
    이영행 고려대학교 석사학위 논문 [1998]
  • 실험실 규모 2상 혐기성소화를 이용한음식물쓰레기 탈리액의 처리
    김희준 배재호 이은영 허안희 대한환경공학회지,30권,12호,pp.1231-1238 [2008]
  • 실규모 이상 혐기성 공정을이용한 양돈폐수로부터 메탄 회수
    강신현 김동임 정윤철 정진영 정형숙 대한상하수도학회 추계 학술발표회 논문집,pp.95-103 [2004]
  • 슬러지 가용화와 이상혐기성 소화공정을 통한 슬러지 저감과 바이오가스 생산에 관한 연구
    우미희 카톨릭대 대학원 석사학위논문,pp.10-12 [2010]
  • 수소 및 메탄 이단 혐기성 발효공정을 이용한 유기성 폐기물의에너지화
    유황룡 수원대학교 대학원 석사 학위 논문,pp.48-52 [2010]
  • 산-가스 혐기소화공정에서 온도에 따른 음식물 탈리액의 처리효율 평가
    배종훈 충북대학교 석사학위논문 [2012]
  • 국립환경연구원
    유기성폐기물 종합관리기술 구축(Ⅰ):유기성페기물 처리실태 및 특성조사 [2004]
  • 국내 폐기물 매립지 침출수의 질소제거 및 유기물 폐액과의병합처리 평가
    배영신 건국대학교 대학원,pp.18-19 [2009]
  • 박사
    광주지역 일부중학교의 잔반없는(날) 급식식단의 분석 및 음식기호도 조사
    박공덕 동신대학교 교육대학원 [2008]
  • 고율이단 혐기성 소화조를 이용한 음폐수 처리특성
    이영우 한밭대학교산업대학원 석사 학위 논문,pp.58-62 [2010]
  • 각종 혐기성 미생물 발효에 의한 유기산 및 수소생산
    김미선 박태현 심상준 윤영수 이정국 한국수소 및 신에너지학회지,13(4),pp.330-338 [2002]
  • Xiao,K.,Guo,C.,Zhou,Y.,Maspolim,Y.,Wang,J.,Ng,W.,2013.Acetic acid inhibition on methanogens in a two-phase anaerobicprocess.Biochem.Eng.J.75,1?.7.
  • Wyffels,S.,van Hulle,S.W.H.,Boeckx,P.,Volcke,E.I.P.,VanCleepmput,O.,Vanrolleghem,P.A.andVerstraete,W.,2004,Modelingandsimulation ofoxygen-limited partialnitritation in a membrane-assistedbioreactor(MBR),Biotechnol.Bioengrg.,86(5),pp.531-542.
  • Winogradsky, M. S.,1891, Recherches SurLes Organismes de laNitrification,AnnalsInstitutePasteur,5,pp.92.
  • William,P.B.and David,C.S.,2000,Nitrogen removalin a modifiedanaerobicbaffledreactor(ABR);1,Denitrification,Wat.Res.34(9),pp.2413-2422.
  • William P.,BarberM.and David C.S.,1999,Theuseoftheanaerobicbaffled reactor(ABR)forwastewatertreatment,Wat.Res.33(7),pp.1559-1578.
  • Wang,L,Zhou Q.,LiF.T.,2006,Avoiding propionicacid accumulation intheanaerobicprocessforbiohydrogenproduction,BiomassandBioenergy30,177?82.
  • Wang,J.andYang,N.,2004,Partialnitrificationunderlimiteddissolvedoxygenconditions,ProcessBiochemistry,39,pp.1223-1229.
  • Wang,D.D.,1983,Advances in Fuzzy sets,possibillity Theory,andApplications,NewYork.
  • Wang C.C.,Chang C.W.,Chu C.P.,LeeD.J.Chang J-V.andLiaoC.S.,2003,Producing hydrogen from wastewatersludgeby Clostridiumbifermentans,J.ofBiotech.,102(1),pp.83-92.
  • VolkmanJ.K.,2003,Sterolsinmicroorganisms,Appl.Microbio.Biotech.,60,pp.495-506.
  • Vigneron,V.,Ponthieu,M.Barina,G.,Audic,J-M.,Duquennoi,C.Mazeas, L., Bernet, N. and Bouches, T.,2007, Nitrate and nitriteinjection during municipalsolid wasteanaerobicbiodegradation,WasteManagement,27,pp.778-791.
  • Vavilin V.A.,Qu X.,Mazeas L.,LemunierM.,DuquennoiC.,He P.,Bouchez T.,2008, Methanosarcina as the dominant aceticlasticmethanogensduringmesophilicanaerobicdigestionofputresciblewaste,AntonieVanLeeuwenhoek94,593?.605.
  • VandeGraaf,A.A.,Mulder,A.,Slijkhuis,H.,Robertson,L.A.andKuenen,J.G.,1990,Anoxic ammonium oxidation,In:Proceedings ofthe 5th EuropeanCongressonBiotechnology(Christiansen,C.,Munck,L.andVilladsen,J.,Eds.),Vol.Ⅰ,pp.338-391.Munksgaard,Copenhagen.
  • Van Lier,J.B.,Groeneveld,N.and Lettinga,G.,1996,DevelopmentofThermophilic Methanogenic sludge in Compartmentalized UpflowReactors,Biotechnol.Bioeng.,50,pp.115.
  • Van Hulle,S.W.H.,Volcke,E.I.P.,Teruel,J.L.,Donckels,B.,vanLoosdrecht,M.C.M.and Van rolleghem,P.A.,2004,Influence oftemperatureandpH onthekineticsoftheSHARON nitritationprocess,IWA 4th World Water Congress,Nitrogen RemovalⅡ,19-24 Sep.,Marrakech,Morocco.
  • USB 반응조에서 NO3--N/COD비에따른 탈질과 메탄화 동시반응
    박노백 박상민 오규환 전항배 대한환경공학회지,27(11),pp.1174-1179 [2005]
  • UASB 법을 이용한 메탄발효
    신항식 한국미생물생명공학회지,pp.143-169 [1990]
  • U.S.Environmentalprotection agency,1993,Processdesign mannualfornitrogencontrol,Officeoftechnologytransfer,Washington,DC.
  • Tilche,A.,Bortone,G.,Forner,G.,Indulti,M.,Stante,L.and Tesini,O.,1994,Combinationofanaerobicdigestionanddenitrificationinahybridupflow anaerobicfilterintegrated in a nutrientremovaltreatmentplant,Wat.Sci.Tech.,30(12),pp.405-414.
  • Terai,H.and MoriT,1975,studies on phosphorylation coupled withdenitrificationandaerobicrespirationinpseudomonasdenitrificans,Bot.Mag.,38:231.
  • Tang J.,Yuan Y.,Guo N.Q.,2012,Inhibitory effects of acetate andethanolon biohydrogen production ofEthanoligenens harbinese,B49,Int.J.HydrogenEnergy37,741?47.
  • Tafdrup S.,1995,Viable energy production and waste recycling fromanaerobic digestion ofmanure and otherbiomass materials,BiomassandBioenergy.9(5),pp.030-014.
  • Symons,G.E.and Buswell,A.M.,1993,TheMethaneFermentation ofCarbohydrates,J.Am.Chem.Soc.,Vol.55,No.5,pp.2028~2036.
  • StandardMethodsfortheExaminationofWaterandWastewater,1995.19thedn,AmericanPublicHealthAssociation/AmericanWaterWorksAssociation/WaterEnvironmentFederation,WashingtonDC,USA.
  • Speece,R.E.,1996,Anaerobicbiotechnologyforindustrialwastewaters,ArchaePress,Nashville,pp.985-988.
  • Song,Y.C.,Kwon,S.J.,Woo,J.H.,2004,Mesophilicandthermophilictemperatureco-phase anaerobic digestion compared with single-stage mesophilic- andthermophilicdigestionofsewagesludge,WaterRes.,38,1653~1662.
  • Skerman,V.B.D.,and Macrae,I.C.1957,The influence ofoxygenavailability in the degree of nitrate reduction by pseudomonasdenitrificans,Can.J.Micobil..,506.
  • Shin,H.S.,Youn,J.H.,2005.Conversionoffoodwasteintohydrogenbythermophilicacidogenesis.Biodegradation16,33?4.
  • ShimadaT.,Morgenroth E.,TandukarM.,PavlostathisS.G.,Smith A.,Raskin L.,Kilian R.E.,2011,Syntrophicacetateoxidation in two-phase(acid-methane)anaerobicdigesters,Water.Sci.Technol.64,1812?820.
  • Shelton DR,Tiedje JM ,1984,Isolation and partialcharacterization ofbacteria in an anaerobic consortium that mineralizes 3-chlorobenzoicacid.ApplEnvironMicrobiol48:840-848.
  • Sawyer,C.,P.L.McCarty,and G.F.,Parkin.,1994,Chemistry forEnvironmentalEngineering,McGraw Hill,pp.76-82.
  • Robinson JA & TiedjeJM,1984,Competition between sulfate-reducingandmethanogenicbacteriaforH2underrestingandgrowingconditions.ArchMicrobiol137:26?32.
  • Pfeffer,J.T.,1974,Temperature effects on anaerobic fermentation ofdomesticrefuse,Biotech.andBioeng,Vol.16,pp.771.
  • Perot,C.andAmar,D.,1989,optimizationofsludgeanaerobicdigestionby separation ofhydrolysis-acidification and methanogenesis,Environ.Technol.Lett.,10(7),pp.633-644.
  • Pavlostathis, S., Giraldo-Gonez, G. E., 1991, Kinetics of anaerobictreatment,Wat.Sci.Tech.24,pp.35-39.
  • Owen,J.M.,Chynoweth,D.P.,1992,BiochemicalmethanepotentialofMSW components,Proc.Symp.onAnaerobicDigestionofSolidWaste,29~42.
  • Orhan Yenigun,Burak Demirel,2013,Ammonia inhibition in anaerobicdigestion:A review,ProcessBiochemixtry48(2013)901-911.
  • Muller,J.A.,Lehne,G.,Schwedes,J.,Battenverg,S.,Naveke,R.,Kopp,J.,Dichtl,N.,Scheminski,A.,Krull,R.,Hempel,D.C.,1998,Disintegrationofsewage sludges and influence on anaerobic digestion,Wat.Sci.Tech.,38(8~9),pp.425-433.
  • Muller,J.A.,2001,Prospects and problems of sludge pretreatmentprocess,Wat.Sci.Tech.,44(10),pp.121-128.
  • MironY.,ZeemanG.,JulesB.VanLierandLettingaG.,2000,Theroleofsludge retention time in the hydrolysis and acidification of lipids,carbohydratesand proteinsduring digestion ofprimary sludgein CSTRsystems,Wat.Res.,34(5),pp.1705-1713.
  • Michael,T.M.,John,M.M.andJack,P.,2000,BiologyofMicroorganisms,NinthEdn.PrenticeHallInternational,Inc.,pp.441-445.
  • Metcalfand Eddy,1979,WastewaterEngineering:Treatment,Disposal,andReuse(2nded.)McGraw-HillInc,New York,(Revisedby:Tchobanoglous,G).
  • MetcalfD.1979,Int.J.Cancer24,pp.616-623.
  • McCarty,1964,Anaerobicwastetreatmentfundamentals,PublicWorks,95(9),pp.91?99.
  • Mawson,A.J.,Earle,R.L.,Larsen,V.F.,1991, Degradationofaceticandpropionicacidsinthemethanefermentation,WaterRes.25,1549?554.
  • Martinez,J.R.,Garza,I.R.,Flores,E.P.,Balagurusamy,N.,Santillan,G.and Garcia,G.,2002 Kinetics of anaerobic treatment of slaughterhousewastewater in batch and upflow anaerobic sludge blanket reactor,BioresourceTechnology,85,pp.235-241.
  • Marchaim U, Krause C. 2000, Propionic to acetic acid ratios inoverloaded anaerobic digestion. Bioresour Technol 1993;43:195?03.MasseDI,DrosteRL.Comprehensivemodelofanaerobicdigestion ofswine manure slurry in a sequencing batch reactor. Water Res2000;34(12):3087?06.
  • Manuel,C.,Nicolas,B.,Jean-Philippe,D.and Rene,M.,1998 Effectofnitrogen oxides and dentirification by Pseudomonas stutzeri onacetotrophic methanogenesis by Methanosarcina mazei, FEMSMicrobiologyEcology,25,pp.271-276.
  • Mah,R.A.Xun,L.Y.Boone,D.R.andAhring,B,.1990,Methanogenesisfrom PropionateinSludgeandEnrichmentSystem.inproceedingoftheFEMS Symposium No.54.Plenum Press.New York.
  • Mackie, R.I. and Byrant, M.P., 1981, Metabolic Activity of FattyAcid-Oxidizing Bacteria and the Contribution ofAcetate,Propionate,Butyrate,andCO2 toMethanogenesisin CattleWasteat40and60℃.AppliedandEnvironmentalMicrobiology,41(6).1363.
  • Liu,Y.,Whitman,W.B.,2008.Metabolic,phylogenetic,and ecologicaldiversityofthemethanogenicarchaea.Ann.N.Y.Acad.Sci.1125,171?89.
  • Lin Y.F.and Chen K.C.,1995Denitrification and Methanogenesisin aCo-immobilizedMixedCultureSystem,Wat.Res.,29(1),pp.35-43.
  • Lin Y.,Wang D.,Wu S.,Wang C.2009,Alkalipretreatmentenhancesbiogasproductionintheanaerobicdigestionofpulpandpapersludge,J.Hazard.Mater.170,366?73.
  • Lettinga,G.,HulshoffPol,L.W.,Koster,I.W.,Wiegant,W.M.,deZeeuw,W.J.,Rinzema,A.,Grin,P.C.,Roersma,R.E.,and Hobma,S.W.,1984,High rate anaerobic wastewatertreatmentusing the UASBreactorunderawiderangeoftemperatureconditions,Biotechnol.Genet.Eng.Rev.,2,253-284.
  • Lawrence,A.W.,1971,Application of process kinetics to design ofanaerobicprocesses,AnericanChenicalSociety,Cleveland,Ohio,pp.10-15.
  • Kroeker,E.J.,etal.,1987,AnaerobicTreatmentProcessStability,WPCF,Vol.51,pp.718.
  • Komemoto,K.,Lim,Y.G.,Nagao,N.,Niwa,C.,Toda,T.,2009,EffectoftemperaturenVFA’sandbiogasproductioninanaerobicsolubilizationoffoodwaste,Wat.Sci.Tech.,29,2950~2955.
  • Kirsten, S. J. and James, M. T.,1993 Survival of denitrifiers innitrate-free,anaerobic environments,J.ofApplied and EnvironmentalMicrobiology,59(10),pp.3297-3305.
  • Kim, M., Gomec, C.Y., Ahn, Y., Speece, R.E.,2003, Hydrolysis andacidogenesisofparticulateorganicmaterialinmesophilicandthermophilicanaerobicigestion.EnvironmentalTechnology24,1183?.1190.
  • Kim, M., Ahn, Y., and Speece, R. E.,2002(c), Comparative processstabilityandefficiencyofanaerobicdigestion;mesophilicvs.thermophilic,WaterRes.,36,4369~4385.
  • Kim, J., Kim, W., Lee, C., 2013. Absolute dominance of hydrogenotrophicmethanogensinfull-scaleanaerobicsewagesludgedigesters.J.Environ.Sci.25,2272?.2280.
  • KaushalyaC.Wijekoon,2011,EffectoforganicloadingrateonVFA production,organic matter removaland microbialactivity ofa two-stage thermophilicanaerobicmembranebioreactor,BioresourceTechnology1025353?l5360.
  • Kaspar,H.F.andK.Wuhrmann.1978,KineticParametersand RelativeTurnovers ofSome ImportantCatabolic Reactions in Digesting Sludge.Appl.Environ.Microbiol,36,1.
  • Kapoor,A.and Viraraghavan T.,1997,Nitrate removalfrom drinkingwater-Review,J.ofEnviron.Eng.,123(4),371-380.
  • Kang,C.M.,Kin,B.K.,Kin,I.S.and Kim,B.T.,2001,Theeffectofpretreatmenton theanerobic digestion ofwaste activated sludge,J.ofKOWREC,9(1),pp.121-123.
  • JeongsikKim,2003,ChulhwanPark.,Effectsofvariouspretreatmentsforenhancedanaerobicdigestionwithwasteacivatedsludge,pp.271-275.
  • Henze,M.,Gujer,W.,Mino T.,Matsuo,T.,Wentzel,M.C.and Marais,G.R.,1995,ActivatedsludgemodelNo.2,ScientificandTechnicalReport3,IWAQ.
  • Harris, W. L. and Dague, R. R.,1993, Comparative performance ofanaerobic filters at mesophilic and thermophilic temperatures,WaterEnviron.Res.,65(6)764~771.
  • Harper,S.R.andPohland,F.G.,1987,EnhancementofAnaerobicTreatmentEfficiencyThroughProcessModification,J.WPCF,59(#),pp.152.
  • Harikishan,S.andSung,S.,2003,CattlewastetreatmentandclassA biosolidproductionusing temperature-phasedanaerobicdigestor,AdvenceinEnvironmentalresearch,7,pp.701~706.
  • Hanaki,K.,Matsuo,T.,and Nagase,M.,1981,Mechanism ofInhibitionCaused by Long-Chain Fatty Acids in Anaerobic Digestion Process,Biotech.andBioeng.,Vol.ⅩⅩⅢ,pp.1591-1619.
  • Hanaki,D.and Polprasert,C.,1989,Contribution ofMethanogenesis toDenitrificationwithanupflow filter,J.WPCF,61(9),pp.1604-1611.
  • Han,S,K.,Shin,H.S.,Y.C.,Lee,C.Y.and Kim,S.H.,2001.Novelanaerobic process forthe recovery ofmethane and compostfrom foodwaste,Wat.Sci.Tech.,45(10),pp.313~319.
  • Hall,N.G.,Schonfeldt,H.C.,2013.Totalnitrogenvs.amino-acidprofileasindicatorofproteincontentofbeef.FoodChem.140,608?12.
  • Gujer,W.and Zehnder,A.J.B.,1983Conversion Processin AnaerobicDigestion.Wat.Sci.Tech.,15,pp.127-167.
  • Guerrero, L., Omil, F., Mendez, R., and Lema, J.M.,1999, Anaerobichydrolysisandacidogenesisofwastewatersfrom foodindustrieswithhighcontentoforganicsolidsandprotein,WaterRes.,33(15),3281~3290.
  • Grady,Jr.C.P.L.,Daigger,G.T.and Lim,H.C.,1980,Biologicalwastewatertreatment,MarcelDekker.,pp.608-621,1980.
  • Gourdon R.,VermandeP.1987,Effectsofpropionicacidconcentration onanaerobicdigestionofpigmanure,Biomass13,1?2.
  • Gomec,C.Y.,Kim,M.,Ahn,Y.,Speece,R.E.,2002,The role ofpH inmesophilic anaerobic sludge solubilization. Journal of EnvironmentalScienceandHealthA 37,1871?.1878.
  • Ghosh,S.andPohland,G.G.,1974,Kineticsofsubstrateassimilationandproductformationinanaerobicdigestion,J.WaterPoll.ControlFed.,45,748~759.
  • Ghosh S.,Chynoweth D.P.,Tarman P.B.,1987,Two phase anaerobicdigestion,USPatent4,696~746.
  • Gamze,G.D.,Demirer,G.N.,2004,EffectofinitialCOD concentration.
  • Gallert,C.,Winter,J.2008,Propionic acid accumulation and degradationduring restartofa full-scale anaerobic biowaste digester,BioresourceTechnology,99,170~178.
  • Gallert,C.,Winter,J.,2005.Bacterialmetabolism in wastewatertreatmentsystems. In: Jordening, H.-J., Winter, J. (Eds.), EnvironmentalBiotechnology.ConceptsandApplications.Wiley-VCH,Weinheim,pp.1?8.
  • Erguder, T.H., Tezel, U., Guven, E., Demirer, G.N.,2001, Anaerobicbiotransformation and methane generation potentialofcheese whey inbatchandUASB reactors.WasteManagement21,643?.650.
  • Elefsiniotis,P.and Wareham,D.G.,2007 ,Utilization patterns ofvolatilefatty acids in the denitrification reaction, Enzyme and MicrobialTechnology,41,pp.92-97.
  • Effectoftemperatureandtemperaturefluctuationonthermophilicanaerobicdigestionofcattlemanure.BioresourceTechnology95,191?.201.
  • Edgar,F.C.M.,Diego,E.C.,Victor,A.A.,2006,Study ofthe operationalconditions for anaerobic digestion of urban solid wastes. WasteManagement26,546?.556.
  • Dinopoulou G.,RuddT.andLesterJ.N.,1988,Anaerobicacidogenesisofa complex waste-water,Ⅰ.The influence ofoperation parameters onreactorperformance,Biotechnol.Bioeng.,31(9),pp.958-968.
  • Detlef,K.H.andRalf,C.,1997,Effectofnitrate,nitrite,NO andN2O onmethanogenesis and other redox processes in anoxic rice field soil,FEMSmicrobiol.,25,pp.301-378.
  • Demirel, B., Scherer, P., 2008. The roles of acetotrophic andhydrogenotrophicmethanogensduringanaerobicconversionofbiomasstomethane:areview.Rev.Environ.Sci.Biotechnol.7,173?.190.
  • De Baere,L.,Verstraete,W.,1985,Anaerobic fermentation ofsemisolidandsolidsubstrates,LaboratoryofMicrobialEcology,pp.195-208.
  • Dawson and Murphy,1972,The temperature dependency ofbiologicaldenitrification,Wat.Res.,6,pp.71?83.
  • David B.Nedwelland Jeremy W.Abram,1979,Relative influence oftemperature and electron donor and electron acceptor concentration onbacterialsulfatereduction,MicrobialEcology,(5),pp.67-72.
  • Cui,Y.W.,Peng,Y.Z.,Peng,C.Y.,Gan,X.Q.and Ye,L.,2005,Achieving biologicalnitrigen removalvianitriteby saltinhibition,Proc.of1stIWA-ASPIRE Conference& Exhibition,Singapore10-15July.
  • Chiu Y.C.,Chang C.N.,Lin J.G.and Huang S.J.,1997,Alkalineandultrasonic pretreatmentofsludge before anaerobic digestion,Wat.Sci.Tech.,36(11),pp.115-162.
  • ChinK.J.andConradR.,1995,Intermediarymetabolism inmethanogenicpaddy soilandtheinfluenceoftemperature,FEMS Microbiol.Ecol.18,pp.85-102.
  • ChenT.H andShyuW.H,1996,Performanceoffourtypesofanaerobicreactorintreatingverydilutedairywastewater,BiomassandBioenergy.11(5),pp.4314.
  • Calli,B.,Mertoglu,B.,Inanc,B.and Yenigun,O.,2005,Effects ofhighfree ammonia concentrations on the performances of anaerobicbioreactors,ProcessBiochem.,40,pp.1285-1292.
  • Callaghan F.J.,Wase D.A.J.,Thayanithy K.and ForsterC.F.,1999,Co-digestion of waste organic solids: batch studies, BioresourceTechnology,67(2),pp.117-122.
  • COD/Nitrate-N비가 혐기성 슬러지에서 탈질과 메탄화에 미치는 영향
    박상민 이준상 전항배 최창옥 대한환경공학회지,27(7),pp.739-745 [2005]
  • Breal E.,1892,De la presence,dans la paille,d' un ferment ae'robiere'ducteutdesnitrates,ComptesRendusSciences,114,pp.681-684.
  • BorjaR.,Martin A.,SanchezE.Rincon B.and Raposo F.,2005,Kineticmodelling ofthe hydrolysis,acidogenic and methanogenic steps in theanaerobic digstion of two-phased olive pomace(TPOP), ProcessBiochem.,40,pp.1841-1847.
  • Boone,D.R.and Bryant,M.P.,1980,Propionate-Degrading Bacterium,Syntrophobacter wolinii sp. nov. gen. noe., from MethanogenicEcosystem.AppliedandEnvironmentalMicrobiology.,40(3).626.
  • Biogas회수를 위한 음식물 쓰레기와 하수슬러지의 고율 혐기성통화소화
    허남효 충남대학교 대학원 박사학위논문,pp.102-110 [2004]
  • Berardino S. D., Costa S. and Converti A.,2000, Semi-continuousanaerobicdigestion ofafoodindustry wastewaterin an anaerobicfilter,BioresourceTechnology,71(3),pp.261-266.
  • Bartlett K.B.,Harriss R.C.1993,Review and assessment of methaneemissionsfrom wetlands,chemosphere,89-91.
  • Barber,W.P.and Stuckey,D.C.,2000,Nitrogen removalin a modifiedanaerobic baffled reactor(ABR): 1. denitrification,Wat. Res., 34, pp.2413-2422.
  • BanisterS.S.andPretoriusW.A.,1998,Optimisation ofprimary sludgeacidogenicfermentation forbiologicalnutrientremoval.Wat.Res.24(1),pp.35-41.
  • BMP(BiochemicalMethanePotential)
    고태훈 김석구 송재홍 이준기 이태윤 한국지반환경공학회,제11권,제2호,pp.33-42 [2010]
  • Asinari Di San Marzano, C. M, Binot, R., Bol, T., Fripiat, J. L.,Hutschemakers,J.,Melchior,J.L.,Perez,Il,Naveru,H.and Nyns,E.J.,1981,Volatilefattyacids,andimportantststeparameterforthecontrolof reliability and the productivities of methane anaerobic digestion,Biomass,1,pp.47-59.
  • Anthonisen,A.C.,Loeth,R.C.,Prakasam,T.B.andSrinath,E.G.,1976,Inhibition ofnitrification by ammonia and nitrous acid,J.Wat.Pollut.ControlFed.,48(5),pp.835-852.
  • AngelidakiI.and Ahring B.K.,1994,Anaerobic digestion ofmanure atdifferentammonialoads:effectoftemperature,WaterRes.,28,pp.81-86.
  • AndrewsJ.F.and Pearson E.A.,1965,Kineticsand charactieristicsofvolatileacidproductioninanaerobicfermentationprocess,J.ofAirWat.Poll.,9,pp.439-469.
  • AndersonG.K.andYangG.,1992,Determinationofbicarbonateandtotalvolatileacidconcentrationinanaerobicdigestersusing asimpletitration,Wat.Environ.Res.64(1),pp.53-59.
  • Alexiou,I.E.,Anderson,G.K.and Evison,L.M.,1994,Design ofpre-acidification reactors for the anaerobic treatment of industrialwastewaters,Wat.Sci.Technol.,29(9),pp.199-204.
  • Akuzawa,M.,Hori,T.,Haruta,S.,Ueno,Y.,Ishii,M.,Igarashi,Y.,2011. Distinctive responses of metabolically active microbiota toacidification in a thermophilic anaerobic digester.M icrobialEcol.61,595?.605.
  • Akunna, J. C., Bizeau, C. and Moletta, R., 1992, Denitrification inanaerobic digesters: possibilities and influence of wastewaterCOD/N-NOxratio,Environ.Technol.,13,pp.825-836.
  • Akunna, J. C., Bizeau, C. and Moletta, R.(1993) “Nitrate and nitritereductions with anaerobic sludge using various carbon sources:glucose, glycerol, acetic acid, lactic acid and methanol.”, Wat.Res., 27(8), pp.1303-1312
  • AhringB.K.,SandbergM.andAngelidakiI.,1994,Volatilefattyacidasindicators of process imbalance in anaerobic digesters.Appl.Microb.Biotech.43,pp.559-565.
  • Ahn,J.H.and Forster,C.F.,2000,A comparison of mesophilic andthermophilicanaerobicupflow filters,Biores.Tech.,73,201-205.
  • (c),혐기성 슬러지의 탈질특성을 이용한 질소제거 공정개발
    박상민 충북대학교 박사학위 논문 [2005]