RO 농축수의 칼슘이온이 생물학적 질소제거에 미치는 영향 및 흡착처리에 관한 연구 = A study on the effects of Ca2+ on biological nitrogen removal in RO concentrate and adsorption treatment
'
RO 농축수의 칼슘이온이 생물학적 질소제거에 미치는 영향 및 흡착처리에 관한 연구 = A study on the effects of Ca2+ on biological nitrogen removal in RO concentrate and adsorption treatment' 의 주제별 논문영향력
논문영향력 요약
주제
adsorption
calcium ion
nitrogen removal
ro concentrate
동일주제 총논문수
논문피인용 총횟수
주제별 논문영향력의 평균
396
0
0.0%
주제별 논문영향력
논문영향력
주제
주제별 논문수
주제별 피인용횟수
주제별 논문영향력
주제어
adsorption
366
0
0.0%
calcium ion
13
0
0.0%
nitrogen removal
14
0
0.0%
ro concentrate
3
0
0.0%
계
396
0
0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수
0
'
RO 농축수의 칼슘이온이 생물학적 질소제거에 미치는 영향 및 흡착처리에 관한 연구 = A study on the effects of Ca2+ on biological nitrogen removal in RO concentrate and adsorption treatment' 의 참고문헌
Zhou, T., Lim, T.-T., Chin, S.-S., Fane, A.G. (2011). Treatment of organics inreverse osmosis concentrate from a municipal wastewater reclamation plant:feasibility test of advanced oxidation processes with/without pre-treatment,Chemical Engineering Journal, 166 (3), pp.932-939.
Zheng, Y. M., Yu, H. Q., Sheng, G. P. (2005). Physical and chemicalcharacteristics of granular activated sludge from a sequencing batch airliftreactor. Process Biochem, 40, pp.645-650.
Yu, X., Wan, C., Lei, Z., Liu, X., Zhang, Y., Lee, D-J., Tay, J-H. (2014).Adsorption of ammonium by aerobic granules under high ammonium levels,Journal of the Taiwan Institute of Chemical Engineers, 45, pp.202-206.
Youssef, A. M., El-Nabarawy, Th., Samra, S. E. (2004). Sorption Properties ofChemically-activated Carbons 1. Sorption of Cadmium(II) Ions, Colloids andSurfaces A: Physicochemical Engineering, 235, pp.153-162.
Yogalakshmi, K. N., Joseph, K. (2010). Effect of transient sodium chloride shockloads on the performance of submerged membrane bioreactor, Bioresour.Technol., 101(18), pp.7054-7061.
Yao, L., Ye, Z. F., Wang, Z. Y., Ni, J. R. (2008). Characteristics of Pb2+biosorption with aerobic granular biomass, Chin. Sci. Bull., 53, pp.948.
Yang, P. Y., Nitisoravut, S., Wu, J. Y. S. (1995). Nitrate removal using amixed-culture entrapped microbial cell immobilization process under high saltconditions, Water Res., 29 (6), pp.1525-1532.
Xu, Y. H., Nakajima, T., Ohki, A. (2002). Adsorption and removal of arsenic(V)from dringking water by aluminium-loaded Shirasu-zeolite, J. Haz. Mat., 92(3),pp.275-287.
Xu, H., Tay, J. H., Foo, S. K., Yang, S. F., Liu, Y. (2004). Removal ofdissolved copper(II) and zinc(II) by aerobic granular sludge. Water SciTechnol, 50, pp.155-160.
Xu, H., Liu, Y., Tay, J-H. (2006). Effect of pH on nickel biosorption by aerobicgranular sludge, Bioresource Technology, 97, pp.359-363.
Xu, H, Liu, Y. (2008). Mechanisms of Cd2+, Cu2+ and Ni2+ biosorption by aerobicgranules. Purif. Technol. 58, pp.400-411.
Wuhrmann, K. (1995). Factors affecting efficiency and solids production in theactivated sludge process, Biol. Treat. of Sew. and I nd. Wastes. Vol. l,McCabe, J, and Eckenfelder, W.W., Jr., Reinhold.
Wong, K. K., Lee, C. K., Low, K. S., Haron, M. J., (2003). Removal of Cu andPb by tartaric acid modified rice husk from aqueous solutions, Chemosphere50, pp.23-28.
Wilen B. M., Keiding K., Nielsen P. H., (2000). Anaerobic deflocculation andaerobic reflocculation of activated sludge, Water research, 34(16),pp.3933-3942.
Westerhoff, P., Moon, H. Minakata, D., Crittenden, J. (2009) Oxidation oforganics in retentates from reverse osmosis wastewater reuse facilities, WaterRes., 43, pp.3992-3998.
Wei, X., Fang, L., Cai, P., Huang, Q., Chen, H., Liang, W. (2011). Influence ofextracellular polymeric substances (EPS) on Cd adsorption by bacteria, EnvironPollut, 159, pp.1369-1374.
Wang, Z., Gao, M., Wang, S., Xin, Y., Ma, D., She, Z., Wang, Z., Chang, Q.,Ren, Y. (2014). Effect of hexavalent chromium on extracellular polymericsubstances of granular sludge from an aerobic granular sequencing batchreactor, Chemical engineering journal, 251, pp.165-174.
Walters, C. (1966). Biochemical storage phenomena in activated sludge, Ph.DThesis, University of Illinois.
Volesky, B. (1990). Biosorption by fungal biomass, CRC press, Florida,pp.139-171.
Volesky B. (2001). Detoxification of metal-bearing effluents: biosorption for thenext century, Hydrometallurgy, 59, pp.203-216.
Vijayaraghavan, K., Yun, Y. S. (2008). Bacterial biosorbents and biosorption,Biotechnology Advances, 26, 266-291.
Van Houtte, E. and Verbauwhede, J. (2008). Operational experience with indirectpotable reuse at the Flemish Coast, Desalination, 218(1-3), pp.198-207.
Van Hege, K., Verhaege, M., Verstraete, W. (2004). Electro-oxidative abatementof low-salinity reverse osmosis membrane concentrates, Water Research, 38(6), pp.1550-1558.
Van Hege, K., Verhaege, M., Verstraete, W. (2002). Indirect electrochemicaloxidation of reverse osmosis membrane concentrates at boron-doped diamondelectrodes, Electrochemistry Communications, 4, pp.296-300.
Urbain, V., Block, J. C., Manem, J. (1993). Bioflocculation in activated sludge: ananalytical approach, Water Res., 27(2), pp.829-838.
Tenny, M. W., Stumm, W. (1965). Chemical flocculation of microorganisms inbiological waste treatment, J Water Pollut. Control Fed, 37, pp.1370-1388.
Tebbutt, H. Y. (1971). An investigation into tertiary treatment by rapid sandfiltration, Wat. Res., 5(3), pp.81-92.
Tchobanoglous, G., Eliassen, R. (1970). Filtration of treated sewage effluent, J.Sanitary Engineering Division, ASCE, 96, SA2, Proc, pp.7210,243.
Tay J. H., Liu Q. S., Liu Y. (2001). The effects of shear force on the formation,structure and metabolism of aerobic granules, Appl. Microbiol Biotechnol. 57,pp.227-233.
Taty-Costodes, V. C., Fauduet, H., Porte, C., Delacroix, A., (2003). Removal ofCd(II) and Pb(II) ions from aqueous solutions by adsorption onto sawdust ofPinus sylvestris. J. Hazard. Mater. B, 105, pp.121-142.
Tan, I. A. W, Ahmad, A. L., Hameed, B. H. (2008). Adsorption of basic dye onhigh-surface-area activated carbon prepared from coconut husk, J. Hazard.Mater., 154, pp.337-346.
Snoeyink, V.L., (1990). Adsorption of organic compounds in water quality andtreatment, A handbook of Community Water Supplies AWWA. McGraw-Hill,New York (Chapter 13).
Silversmit, G., Depla, D., Poelman, H., Marin, G. B. Gryse, R. D. (2004).Determination of the V 2p XPS binding energies for different vanadiumoxidation states (V5+ to V0+), J. Electron. Spectrosc. Relat. Phenom., 135(2-3), pp.167-175.
Shuttleworth, K. L. and Unz, R. F. (1988). Growth of filamentous bacteria in thepresence of heavy metals, Water Sci. Technol., 20, pp.485-487.
Shukla, S. R., Pai, R. S. (2005). Adsorption of Cu(II), Ni(II) and Zn(II) onmodified jute fibres. Bioresour. Technol., 96, pp.1430-1438.
Shon, H. K., Vigneswaran, S., Kim, I. S., Cho, J., Ngo, H. H. (2004). Effect ofpretreatment on the fouling of membranes: application in biologically treatedsewage effluent, J. Memb, sci., 234(1-2), pp.111-120.
Schulze, R. K., Hill, M. A., Field, R. D., Papin, P. A., Hanrahan, R. J. Byler, D.D. (2004). Characterization of carbonated serpentine using XPS and TEM,Energy Convers. Manage., 45, pp.3169-3179.
Salvi, A. M., Langerame, F., Macchia, A., Sammartino, M. P., Tabasso, M. L.(2012). XPS characterization of (copper-based) coloured stains formed onlimestone surfaces of outdoor Roman monuments, Chem. Cent. J., 6(2),pp.1-13.
Ricordel, S., Cisse, T., I., Dorange, G. (2001). Heavy metal removal by adsorptiononto peanut husks carbon, Separation Purification Technol., 24, pp.389.
Rensink, J. H., Donker, H. J. G. W. (1991). The effect of contact tank operationon bulking sludge and biosorbtion processes, Water Sci. Technol., 23,pp.857-866.
Regalbuto, J. R., Navada, A., Shadid, S., Bricker, M. L., Chen, Q. (1999). Anexperimental verification of the physical nature of Pt adsorption onto alumina,J. Catalysis, 184, pp.335.
Reddy, B. R., Mirghaffari, N., Gaballah, I. (1997). Removal and recycling ofcopper from aqueous solutions using treated Indian barks. Resour. Conserv.Recycl., 21, pp.227-245.
Randall, C. W., Barnard, J. L. and Stensel, H. D. (1992). Design and retrofit fowastewater treatment plants for biological nutrient removal, Water QualityManagement Library, Vol. 5, Technomic Publishing Company, Inc., Lancaster,PA.
Radjenovic, J., Bagastyo, A., Rozendal, R. A., Mu, Y., Keller, J., Rabaey, K.(2011). Electrochemical oxidation of trace organic contaminants in reverseosmosis concentrate using RuO2/IrO2-coated titanium anodes, Water Res., 45,pp.1579-1586.
Pujol, R., Canler, J. P. (1992). Biosorption and dynamics of bacterial populationsin activated sludge, Water Res., 26(2), pp.209-212.
Perez-Gonzalez, A., Urtiaga, A. M., Ibanez, R., Ortiz, I. (2012). State of the artand review on the treatment technologies of water reverse osmosisconcentrates, Water Res., 46(2), pp.267-283.
Park, Y. J., Yang, J. K., Choi, S. I. (2007) Evaluation of industrial byproduct forthe Adsorption of Arsenic(V), Journal of KOSSGE, 12(4), pp.75-82.
Park, Y. J., Suh, M. Y., Park, K. K., Choi, K. S., Jee, K. Y., Kim, W. H.(2000). Adsorption studies of nickel(II) ions onto amorphous alumina, Anal.Sci. Tech., 13, pp.433
Panswad, T., Anan, C. (1999). Specific oxygen, ammonia, and nitrate uptake ratesof a biological nutrient removal process treating elevated salinity wastewater,Bioresour. Technol., 70(3), pp.237-243.
Palit, D., Moulik, S. P. (2001). Adsorption behaviors of L-histidine andDL-tryptophan on cholesterol, sillica, alumina and graphite, J. Colloid InterfaceSci., 239, pp.105.
Ong, S. A., Toorisaka, E., Hirata, M., Hano, T. (2004). Effects of nickel(II)addition on the activity of activated sludge microorganisms and activatedsludge process, J. Hazard. Mate., 113(1), pp.111-121.
Oliveira, R. C., Hammer, P., Guibal, E., Taulemesse, J., M., Garcia Jr, O. (2014).Characterization of metal?biomass interactions in the lanthanum(III)biosorption on Sargassum sp. using SEM/EDX, FTIR, and XPS: Preliminarystudies, Chem. Engineering J., 239, pp.381-391.
Namasivayam, C., Kadirvelu, K., (1997). Agricultural solid wastes for the removalof heavy metals: adsorption of Cu(II) by coirpith carbon, Chemosphere 34,pp.377-399.
Nagasaki, K., Tomaru, Y., Katanozaka, N., Shirai, Y., Nishida, K., Itakura, S.,Yamaguchi, M. (2004). Isolation and characterization of a novel singlestrandedRNA virus infecting the bloom-forming diatom Rhizosolenia setigera,Applied and Environ. Microbiol., 70(2), pp.704-711.
Memon, S. Q., Memon, N., Shah, S. W., Khuhawar, M. Y., Bhanger, M. I.(2007). Sawdust?a green and economical sorbent for the removal ofcadmium(II) ions, J. Hazard. Mater. B139, pp.116-121.
Mazyck, D. W., Cannon, F. S., Bach, M. T., Radovic, L. R. (2005). The role ofcalcium in high pH excursions for reactivated GAC, Carbon, 43, pp.511-518.
Mack, C., Wilhelmi, B., Duncan, J. R., Burgess, J. E. (2007). Biosorption ofprecious metals, Biotechnology Advances, 25, pp.264-271.
Liu, Y., Wang, Z. W., Qin, L., Liu, Y. Q., Tay, J. H. (2005) Selectionpressure-driven aerobic granulation in a sequencing batch reactor, Appl.Microbiol Biotechnol, 67, pp.26-32.
Liu, Y., Tay, J. H. (2002). The essential role of hydrodynamic shear force in theformation of biofilm and granular sludge, Water Res., 36, pp.1653-1665.
Lin, C. F., Huang, Y. J., and Hao, I. J. (1999). Ultrafiltration processes forremoving humic substances: Effect of molecular weight fractions and PACtreatment. Water Res., 33(5), pp.1252-1264.
Li, Q., Zhai, J., Zhang, W., Wang, M., Zhou, J., (2006). Kinetic studies ofadsorption of Pb(II), Cr(III) and Cu(II) from aqueous solution by sawdust andmodified peanut husk. J. Hazard. Mater., B141, pp.163-167.
Li, H., Wena, Y., Cao, A., Huang, J., Zhou, Q., Somasundaran, P. (2012). Theinfluence of additives (Ca2+, Al3+, and Fe3+) on the interaction energy andloosely bound extracellular polymeric substances (EPS) of activated sludge andtheir flocculation mechanisms, Bioresource Technology, 114, pp.188-194.
Lee, Y. J., Kim, M. S., Chung, J. G. (2001) Adsorption characteristics of Pb(II)on rutile-type titanium dioxide and a-type alumina in aqueous solutions, J.Korean Ind. Chem., 12, pp.744.
Lee, M. E., Lee, C. Y., Chung, J. W. (2014). Adsorption characteristics of Pb(II)by manganese oxide coated activated carbon in fixed bed column study,Journal of the Korean Geo-Environmental Society, 15(8), pp.39-44.
Lee, L. Y., Ng, H. Y., Ong, S. L., Tao, G., Kekre, K., Viswanath, B., Lay, W.,Seah, H. (2009b). Integrated pre-treatment with capacitive deionization forreverse osmosis reject recovery from water reclamation plant, Water Research,43(18), pp.4769-4777.
Lee, L. Y., Ng, H. Y., Ong, S. L., Hu, J. Y., Tao, G., Kekre, K., Viswanath, B.,Lay, W., Seah, H. (2009a). Ozone-biological activated carbon as apretreatment process for reverse osmosis brine treatment and recovery, WaterResearch, 43(16), pp. 3948-3955.
Lee, J. J. (2014). Study on equilibrium, kinetic and thermodynamic for adsorptionof quinoline yellow by granular activated carbon, CLEAN TECHNOLOGY,20(1), pp.35-41.
Lee, J. J. (2010). Adsorption Removal of Eosin Y by Granular Activated Carbon,CLEAN TECHNOLOGY, 16(4), pp.277-283.
Lee, D. B., Hong, L. S., Kim, Y. J. (2008). Effect of Ca and CaO on the HighTemperature Oxidation of AZ91D Mg Alloys, Mater. Transactions, 49(5),pp.1084-1088.
Kumar, U., Bandyopadhyay, M. (2006). Sorption of cadmium from aqueoussolution using pretreated rice husk, Bioresour. Technol. 97, pp.104-109.
Kumar, M., Badruzzaman, M., Adham, S., Oppenheimer, J. (2007). Beneficialphosphate recovery from reverse osmosis (RO) concentrate of an integratedmembrane system using polymeric ligand exchanger (PLE), Water Research,41 (10), pp.2211-2219.
Kujawa, K. and Klapwijk, B. (1999). A method to estimate denitrificationpotential for predenitrification system using NUR batch test, Wat. Res., Vol.33(10), pp. 2291-2300.
Kosmulski, M. (1997). Standard enthalpies of adsorption of di-and tri-valentcations on aluminam J. Colloid Interface Sci., 192, pp.215.
Kim, J. M., Chung, C. K., Lee, T. R., Min, B. H., Kim, H. J., Kwon, Y. S.(2009). A study on the adsorption characteristics of benzene using activatedcarbon from sewage sludge, CLEAN TECHNOLOGY, 15(4), pp.265-272.
Keiding K., Nielsen, P. H., (1997). Desorption of organic macromolecules fromactivated sludge: Effect of ionic composition. Water res., 31(7), pp.1665-1672.
Kefir, C. E., Merse (1950). Activated sludge studies, II. Efficiency andperformance under various operating conditions, Sew. and Ind. Waste, 22(12),pp.1518.
Kawasaki, N., Ogata, F., Takahashi, K., Kabayama, M. Kakehi, K., Tanada, S.(2008) Relationship between anion adsorption and physicochemical propertiesof aluminum oxide, Journal of Health Science, 54(3), pp.324-329.
Kadirvelu, K., Thamaraiselvi, K., Namasivayam, C. (2001). Adsorption ofnickel(II) from aqueous solution onto activated carbon prepared from coirpith.Sep. Purif. Technol., 24, pp.497-505.
Jiang, H. L., Tay, J. H., Liu, Y., Tay, S. T-L. (2003). Ca2+ augmentation forenhancement of aerobically grown microbial granules in sludge blanketreactors. Biotechnol Lett., 25(2), pp.95-99.
Ives, K. J. (1980). Deep bed filtration: Theory and Practice, Filtration andSeparation, 17, pp.157-166.
Huang, J. and Pinder, K. L. (1995). Effects of calcium on development ofanaerobic acidogenic biofilms, Biotechnology and Bioengineering, 45(3),pp.212-218.
Hu, L., Wang, J., Wen, X., Qian, Y. (2005). The formation and characteristics ofaerobic granules in sequencing batch reactor (SBR) by seeding anaerobicgranules, Process Biochem., 40, pp.5-11.
Howe, K. J. and Clark, M. M. (2002). Coagulation pre-treatment for membranefiltration, AWWA Research Foundation, Denver, AWWARF & AWWA.
Horsfall Jr., M., Abia, A. A., Spiff, A. I. (2006). Kinetic studies on theadsorption of Cd2+, Cu2+ and Zn2+ ions from aqueous solutions by cassava(Manihot sculenta Cranz) tuber bark waste. Bioresour. Technol., 97,pp.283-291.
Hong, K. M., Kim, M. S., Chung, J. G. (2002). Adsorption characteristics of NiIon(II) γ-type alumina surface in aqueous solutions, J. Korean Ind. Eng.Chem., 14(3), pp.281-286.
Hill, M. R., Bastow, T. J., Celotto, S. Hill, A. (2007) Integrated study of thecalcination cycle from gibbsite to corundum, Chem. Mater., 19, pp.2877-2883.
Henze, M. (1991). Capabilities of biological nitrogen removal processes from wastewater. Water Sci. Tech, 23, pp. 669-679.
Henze, M. (1989). The influence of raw wastewater biomass on activated sludgeoxygen respiration rates and denitrification rates, Water Sci. Tech., 21, pp.603-607.
Henze, M. (1986). Nitrate vs oxygen utilisation rates in wastewater and activatedsludge systems, Water Sci. Tech., 18(6), pp.115-122.
Henze, M and Harremoёs, P. (1990). Chemical-biological nutrient removal: theHYPRO concept, Proceedingd of the 4th Gothenburg Symposium Chemicalwater and wastewater treatment, Madrid.
Gogate, P. R., Pandit, A. B. (2004) A review of imperative technologies forwastewater treatment I: oxidation technologies at ambient conditions, Adv.Environ. Res., 8, pp.501-551.
Gai, L. H., Wang, S. G., Gong, W. X., Liu, X. W., Gao, B. Y., Zhang, H. Y.,(2008). Influence of pH and ionic strength on Cu(II) biosorption by aerobicgranular sludge and biosorption mechanism, J. Chem. Technol. Biot. 83,pp.806-813.
Fitzpatrick, J. A. and Swanson, R. (1980). Evaluation of full-scale tertiary wastewater filters, EPA/600/2-80-005: USEPA.
Fernandez-Nava, Y., Maranon, E., Soons, J., Castrillon, L. (2008). Denitrificationof wastewater containing high nitrate and calcium concentrations, Bioresour.Technol., 99(17), pp.7976-7981.
Feng, H. J., Hua, L. F., Mahmood, Q., Long, Y., Shen, D. S. (2008). Study onbiosorption of humic acid by activated sludge, Biochemical EngineeringJournal, 39, pp.478-485.
Farahbakhsh, K., and Smith D. W. (2002). Performance comparison andpretreatment evaluation of three water treatment membrane pilot plants treatinglow turbidity water. J. Environ. Eng. Sci., 1, pp.113-122.
Esparza-Soto, M., Westerhoff, P. (2003). Biosorption of humic and fulvic acids tolive activated sludge biomass, Water Res., 37(10), pp.2301-2310.
Ersever, I., Ravindran, V., Pirbazari, M. (2007). Biological de-nitrification ofreverse osmosis brine concentrates: II. Fluidized bed adsorber reactor studies,Journal of Environmental Engineering and Science 6 (5), pp.519-532.
El Shafei, G. M. S., Moussa, N. A., Philip, C. A. (2000). Association ofmolybdenum ionic species with alumina surface, Colloid Interface Sci., 228,pp.105.
Dykes, G. M. and Conlon, W. J. (1989). Use of membrane technology inFLORIDA, J. AWWA, 81(11), pp.43-46.
Demirbas, E., Kobya, M., Senturk, E., Ozkan, T. (2004). Adsorption kinetics forthe removal of chromium (VI) from aqueous solutions on the activatedcarbons prepared from agricultural wastes. Water SA 30(4), pp.533-539.
Crittenden, J. C., Sanongraj, S., Bulloch, J. L., Hand, D. W., Rogers, T. N.,Speth, T. F., Ulmer, M. (1999). Correlation of aqueos-phase adsorptionisotherms, Environ. Sci. Technol., 33(17), pp.2926-2933.
Conlon, W. J. and Mcclellan, S. A. (1989). Membrane softening: A treatmentprocess comes of age, J. AWWA, 81(11), pp.47-51.
Comte, S., Guibaud, G., Baudu, S. M. (2008). Biosorption properties ofextracellular polymeric substances (EPS) towards Cd, Cu and Pb for differentpH values, Journal of Hazardous Materials, 151, pp.185-193.
Comte, S., Guibaud, G., Baudu, S. M. (2006). Biosorption properties ofextracellular polymeric substances (EPS) resulting from activated sludgeaccording to their type: solubleor bound, Process Biochemistry, 41(4),pp.815-823.
Clifford, D. and Lin, C. (1991). Arsenic and arsenic removal from drinking waterin San Ysidro, New Mexico, US EPA, Cincinnati, OH.
Cikurel, H., Rebhun, M., Amirtharajah, A., Adin, A. (1996). Wastewater effluentreuse by in-line flocculation filtration process, Water Science and Technology,33(10-11), pp.203-211.
Chiu, Y C., Lee, L. L., Chang, N. C. and Chao, A. C. (2007). Control of carbon and ammonium ratio for simultaneous nitrification and denitrification in a sequencing batch bioreactor. International Biodeterioration & Biodegradation, 59, pp. 1-7.
Chesters, S. P., Darton, E. G., Gallego, S., and Vigo, F. D. (2009). The safe useof cationic flocculants with reverse osmosis membranes. Desalin. Water Treat.,6, pp.144-151.
Chapman, H., Vigneswaran, S., Ngo, H. H., Dyer, S., Aim, R. B. (2002)Pre-flocculation of secondary treated wastewater in enhancing the performanceof microfiltration, 146(1-3), pp.367-372.
Chaplin, B. P., Schrader, G., Farrell, J. (2010). Electrochemical destruction ofN-nitroso dimethylamine in reverse osmosis concentrates using boron-dopeddiamond film electrodes, Environmental Science and Technology, 44 (11),pp.4264-4269.
Burgess, J. E., Quarmby, J., Stephenson, T. (1999). Micronutrient supplements foroptimisation of the treatment of industrial wastewater using activated sludge,Water Res., 33(18), pp.3707-3714.
Burdick, C. R., Refling, D. R., Stensel, H. D. (1982) Advanced biologicaltreatment to achieve nutrient removal, Journal of Water Pollution ControlFederation, 54(7), pp.1078-1086.
Bulut, Y., Tez, Z. (2003). Removal of heavy metal ions by modified sawdust ofwalnut. Fresen. Environ. Bull, 12, pp.1499-1504.
Bruus, J. H., Nielsen, P. H., Keiding, K. (1992). On the stability of activatedsludge flocs with implications to dewatering. Water Res. 26, pp.1597-1604.
Brdjanovic, D., Hooijmans, C. M., Loosdrecht, M. C. M., Alaerts, G. J., Heijnen,J. J. (1996). The dynamic effects of potassium limitation on biologicalphosphorus removal, Water Res., 30(10), pp.2323-2328.
Bench, B. I., Middlebrooks, E. J., George, D. B. and Reynolds, J. H. (1981)Evalution of wastewater filtration, water quality series, No. UWRL /Q-81/ 01,Utah water research laboratory.
Bellona, C., Drewes, J. E., Xu, P., Amy, G. (2004). Factors affecting the rejectionof organic solutes during NF/RO treatment - a literature review, Water Res.,38, pp.2795-2809.
Baumgarten, E., Dick, P. (1999). Infrared spectroscopic charaterization of thealumina surface, J. Colloid Interface Sci., 209, pp.16.
Baumann, E. R. and Cleasby, J. L. (1974). Wastewater filtration: designconsiderations, technology transfer, series No. EPA-625/4-74-007a: US EPA.
Bassin, J. P., Pronk, M., Kraan, R., Kleerebezem, R., van Loosdrecht, M. C. M.(2011). Ammonium adsorption in aerobic granular sludge, activated sludge andanammox granules, Water Res., 45, pp.5257-5265.
Bartels, C. R., Wilf, M., Andes, K., Iong, J. (2005). Design considerations forwastewater treatment by reverse osmosis, Water Science and Technology, 51(6-7), pp.473-482.
Baral, S. S., Das, S. N., Rath, P. (2006). Hexavalent chromium removal fromaqueous solution by adsorption on treated sawdust. Biochem. Eng. J. 31,pp.216-222.
Bagastyo, A. Y., Keller, J., Poussade, Y., Batstone, D.J. (2011). Characterisationand removal of recalcitrants in reverse osmosis concentrates from waterreclamation plants, Water Res., 45, pp.2415-2427.
Baeza, J. A., Gabriel, D. and Lafunte, J. (2004). Effect of internal recycle on the nitrogen removal efficiency of an anaerobic/anoxic/oxic(A2O) wastewater treatment plant (WWTP). Process Biochemistry, 39, pp. 1615-1624.
Badruzzaman, M., Oppenheimer, J., Adham, S., Kumar, M. (2009). Innovativebeneficial reuse of reverse osmosis concentrate using bipolar membraneelectrodialysis and electrochlorination processes, Journal of Membrane Science,326 (2), pp.392-399.
Asano. T. (1998). Wastewater reclamation and reuse, CRC press, USA: Technomicpublishing company.
Andersson, S., Dalhammar, G., Rajarao, G. K. (2011). Influence of microbialinteractions and EPS/polysaccharide composition on nutrient removal activity inbiofilms formed by strains found in wastewater treatment systems, Microbial.Res., 166, pp.449-457.
An, S. W., Choi, J. Y., Park, J. W. (2010). Kinetics and equilibrium adsorptionstudies of Cd adsorption by the activated carbon containing hydroxyapatite,Journal of the Korean Geo-Environmental Society, 11(1), pp.45-51.
Adin, A. and Elimelech, M. (1989). Particle Filtration for Wastewater Irrigation, J.Irrig. Drain Eng., 115(3), pp.474-487.
Adin, A. and Asano T. (1998). The role of physical-chemical treatment inwastewater reclamation and reuse, Wat. Sci. Tech, 37(10), pp.79-90.
Acar, F. N., Eren, Z. (2006). Removal of Cu(II) ions by activated poplar sawdust(Samsun Clone) from aqueous solutions. J. Hazard. Mater. B137, pp.909-914.
Abughararah, Z. H., Sherrard, J. H. (1993). Biological nutrient removal in highsalinity wastewaters, J. Environ. Sci. Health., 28(3), pp.599-613.
APHA. (2005). Standard methods for the examination of water and wastewater,21st Edition, American Public Health Association, Washington D.C. USA, Part5000.
'
RO 농축수의 칼슘이온이 생물학적 질소제거에 미치는 영향 및 흡착처리에 관한 연구 = A study on the effects of Ca2+ on biological nitrogen removal in RO concentrate and adsorption treatment'
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