Evsel ve agro-endüstriyel atıklardan organik asit eldesi

N. Göksel DEMİRER (Orta Doğu Teknik Üniversitesi, Çevre Mühendisliği Bölümü, Ankara, Türkiye)
Uludağ Sibel DEMİRER, (Orta Doğu Teknik Üniversitesi, Çevre Mühendisliği Bölümü, Ankara, Türkiye)
H. Tuba ERGÜDER, (Orta Doğu Teknik Üniversitesi, Çevre Mühendisliği Bölümü, Ankara, Türkiye)
Vedat YILMAZ, (Orta Doğu Teknik Üniversitesi, Çevre Mühendisliği Bölümü, Ankara, Türkiye)
S. TÜRKMENOĞLU, (Orta Doğu Teknik Üniversitesi, Çevre Mühendisliği Bölümü, Ankara, Türkiye)
Evrim DOĞAN, (Orta Doğu Teknik Üniversitesi, Çevre Mühendisliği Bölümü, Ankara, Türkiye)
Eylem DOĞAN, (Orta Doğu Teknik Üniversitesi, Çevre Mühendisliği Bölümü, Ankara, Türkiye)
Emrah ALKAYA, (Orta Doğu Teknik Üniversitesi, Çevre Mühendisliği Bölümü, Ankara, Türkiye)
Leyla ÖZKAN, (Orta Doğu Teknik Üniversitesi, Çevre Mühendisliği Bölümü, Ankara, Türkiye)
Timur DUNAEV, (Orta Doğu Teknik Üniversitesi, Çevre Mühendisliği Bölümü, Ankara, Türkiye)
Serkan KAPTAN (Orta Doğu Teknik Üniversitesi, Çevre Mühendisliği Bölümü, Ankara, Türkiye)
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Proje Grubu: ÇAYDAG Sayfa Sayısı: 167 Proje No: 104I127 Proje Bitiş Tarihi: 15.10.2008 Metin Dili: Türkçe İndeks Tarihi: 29-07-2022

Evsel ve agro-endüstriyel atıklardan organik asit eldesi

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Konular: Çevre Mühendisliği
Erişim Türü: Erişime Açık
  • Angenent, L. T., Karim, K., Al-Dahhan, M. H., Wrenn, B. A., and Domiguez-Espinosa, R., Production of bioenergy and biochemicals from industrial and agricultural wastewater, Trends Biotechnol., 22(9), 477-485, 2004.
  • Banks C.J., Borja R, Comparison of an anaerobic filter and a anaerobic fluidized bed reactor treating palm oil mill effluent, Process Biochemistry, 30(1), 511-521,1995.
  • Batstone D. J., Keller J., Angelidaki I., Kalyuzhnyi S. V., Pavlosttahis S. G., Rozzi A., Sanders W. T. M., Siegrist H., Vavilin V. A., Anaerobic digestion model No.1 (ADM 1), Water Science and Technology, 45(1), 65-73, 2002.
  • Borja, R. et al, 2003. Study and optimisation of the anaerobic acidogenic fermentation of two-phase olive pomace.
  • Bouallagui H., Torrijos M, Godon J.J., Moletta R., Cheikh R. Ben, Touhami Y., Delgenes J.P., Hamdia M., Two-phases anaerobic digestion of fruit and vegetable wastes: bioreactors performance, Biochemical Engineering Journal, 21,193–197, 2004.
  • Bouallagui, H., Touhami, Y., Cheikh, R. B., Hamdia, M.,Bioreactor performance in anaerobic digestion of fruit and vegetable wastes, Process Biochemistry, 40, 989- 995,2005.
  • Bremner, J. M., and Shaw, K.,Denitrification in soil. I. Methods of investigation. Journal of Agricultural Science, 51,22-39,1958.
  • Chugh S., Chynoweth D. P., Clarke W., Pullammanappallil P., Rudolph V., Degradation of unsorted municipal solid waste by a leach-bed process, Biores. Technol., 69, 103- 115,1999.
  • Cohen, A., Breure, A. M., van Andel, J. G., van Deursen, A., Influence of phase separation on the anaerobic digestion of glucose-II Stability, and kinetic responses to shock loadings, Water Research, 16: 449-455, 1982.
  • Demirel B. and Yenigun O., Anaerobic acidogenesis of dairy wastewater: the effects of variations in hydraulic retention time with no pH control, J Chem. Technol. Biotechnol,. 79, 755-760, 2004.
  • Demirer G.N., Duran M., Ergüder T.H., Güven E., Ugurlu Ö. Tezel U., Anaerobic treatability and biogas production potential studies of different agro-industrial wastewaters in Turkey, Biodegradation, 11, 6, 401-405, 2000.
  • Demirer N. G., Chen S., Effect of retention time and organic loading rate on anaerobic acidification and biogasification of dairy manure, J. Chemical Tech. Biotech., 79,1381- 1387, 2004.
  • Dinopoulou G, Rudd T. and Lester J.N. Anaerobic acidogenesis of a complex wastewater: 1. The influence of operational parameters on reactor performance. Biotechnol. Bioeng. 31:958–968, 1998.
  • Eastmann, J. A., Ferguson, J. F., Solubilization of particulate organic carbon during the acid phase of anaerobic digestion, Journal of WPCF, 53, 352-366,1981.
  • Efstathiou, E., Mamais, D., Tsourtis, S., Tridimas, P., Mathematical Modelling of Primary Sludge Anaerobic Hydrolysis, 2003.
  • Eggeman, T., and Verser, D., Recovery of organic acids from fermentation broths. Appl. Biochem. Biotech., 122(1-3), 605–618, 2005.
  • Eyal, A. M., and Canari, R., pH dependence of carboxylic and mineral acid extraction by amine based extractants: Effect of pKa amine basicity, and diluent properties, Ind. Eng. Chem. Res., 34, 1789–1798,1995.
  • Fang H. H. P., and Yu H. Q., Acidification of lactose in wastewater, Journal of Environmental Engineering,127 (9), 825-881,2001.
  • Gerardi M.N., The Microbiology of Anaerobic Digesters, Wiley- Interscience, 2003.
  • Gluszcz, P., Jamroz, T., Sencio, B., and Ledakowicz, S., Equilibrium and dynamic investigations of organic acids adsorption onto ion-exchange resins, Bioprocess Biosyst. Eng., 26, 185–190, 2004.
  • Golob, J., Grllc, V., and Zadnlk B., Extraction of acetic acid from dilute aqueous solutions with trioctylphosphine oxide, Ind. Eng. Chem. Process Des. Dev., 20, 433– 435,1981.
  • Gosh S., Improved sludge gasification by two-phase anaerobic digestion, 1987.
  • Gu, Z., Rickert, D. A., Glatz, B. A., and Glatz C. E., Feasibility of propionic acid production by extractive fermentation, Lait, 79, 137–148,1999.
  • Gu, Z., Glatz, B. A., and Glatz C. E., Propionic acid production by extractive fermentation. I. Solvent considerations.” Biotechnol. Bioeng., 57(4), 454–461,1998.
  • Guerrero L., Omil F., Mendez R., Lema J.M., Anaerobic hydrolyis and acidogenesis of wastewaters from food industries with high content of orgsanic solids and protein, Water Sci. Technol., 33, 15, 3281-3290,1999.
  • Hobson P.N., The treatment of agricultural wastes, In Anaerobic Digestion: A Waste Treatment Technology, ed. Wheatley A., pp.93-138, Elsevier Applied Science, London,1991.
  • Huang, C., Xu, T., Zhang, Y., Xue, Y., and Chen, G., Application of electrodialysis to the production of organic acids: State-of-the-art and recent developments. J. Membrane Sci., 288, 1–12, 2007.
  • Hutnan, M., Mrafkova, L., Drtil, M. and Derco, J., Methanogenic and Nonmethanogenic Activity of Granulated Sludge in Anaerobic Baffled Reactor, Chem. Papers, 53(6)374- 378,1999.
  • Joglekar, H. G., Rahman, I., Babu, S., Kulkarni, B. D., and Joshi, A., Comparative assessment of downstream processing options for lactic acid, Sep. Purif. Technol., 52, 1–17,2006.
  • Kanat, G., Şeker sanayi atıksularının arıtımı ve su yönetimi, Ekoloji, 5: 30-34, 1992.
  • Kanicky, J. R., and Shah, D. O., Effect of premicellar aggregation on the pKa of fatty acid soap solutions, Langmuir, 19, 2034–2038, 2003
  • Yang, Youngseob Yu, Seokhwan Hwang, Selective optimization in thermophilic acidogenesis of cheese-whey wastewater to acetic and butyric acids: partial acidification and methanation, Water Research, 37, 2467–2477, 2002.
  • Kissalita, W.S., Pinder, K.L. and Lo, K.V., Acidogenic fermentation of lactose, Biotechnol Bioeng, 30, 88-95,1987.
  • Kisaalita, W.S., Pinder, K.L., Lo, K.V., Acidogenic fermentation of Lactose, 1987.
  • Klemedtsson, L., B. H. Svensson, T. Lindberg, and T. Rosswall, The use of acetylene inhibition of nitrous oxide reductase in quantifying denitrification in soils, Swedish Journal of Agricultural Resources, 7:179–185, 1977.
  • Kusminski, C., Palecia, J.I, Fernandez-Polonca F, Garcia, P ve Iza, J. Wastewater reclamation and reuse at the sugarbeet factory Acor-1, Water Science and Technology, 24, 9, 1991.
  • Lai, T. E., Nopharatana, A., Pullammanappallil, P. C., Clarke, W., Cellulolytic activity in leachate during leach-bed anaerobic digestion of municipal solid waste, Bioresource Technology, 80, 205-210,2001.
  • Lane AG, Laboratory scale anaerobic digestion of fruit and vegetable solid waste, Biomass, 5, 245–259, 1984.
  • Linke B., 2006. “Kinetic study of thermophilic anaerobic digestion of solid wastes from potato processing”, Biomass and Bioenergy, Vol.30, pp. 892–896.
  • Liu D., Liu D., Zeng R. J., Irini A., Hydrogen and methane production from household solid waste in the two-stage fermentation process, Water Research, 40(11), 2230-2236, 2002
  • Lusk P., Methane Recovery from Animal Manures The Current Opportunities Casebook, National Renewable Energy Laboratory, NREL/SR-580-25145, September,1998.
  • Maharaj, I., Elefsiniotis, P., The role of HRT and low temperature on the acid-phase anaerobic digestion of municipal and industrial wastewaters, Bioresource Technology, 76, 191-197, 2001.
  • Malmary, G., Albert, J., Putrano, A. M. H., and Molinier, J., Recovery of carboxylic acids from aqueous solutions by liquid–liquid extraction with a triisooctylamine diluent system, Braz. J. Chem. Eng., 18(4), 441–447, 2001.
  • Matsumoto, M., Otono, T., and Kondo, K., Synergistic extraction of organic acids with tri-n-octylamine and tri-n-butylphosphate, Sep. Purif. Technol., 24, 337–342, 2001.
  • Mawson A. J., Bioconversion for whey utilization and waste abatement. Biores. Technol., 47, 195-203,1994.
  • McCarty, P.L. ve McKinney, R.E.,. Volatile acid toxicity in anaerobic digestion. J. WPCF, 33, 223-232. 1961.
  • McCarty, P.L. ve Smith D.P., Anaerobic wastewater treatment. Environ. Sci. Technol., 1200-1206,1986.
  • Montgomery R., Development of biobased products, Biores. Technol., 91, 1-29, 2004.
  • Mostafa, N. A., Production and recovery of volatile fatty acids from fermentation broth, Energ. Convers. Manage., 40, 1543–1553,1999.
  • Oktem Y. A., Ince O., Donnelly T., Sallis P., Ince- Kasapgil B., Determination of optimum operating conditions of an acidification reactor treating a chemical synthesis-based pharmaceutical wastewater, Process Biochemistry, 41, 2258– 2263,2006.
  • O'Keefe, D.M., Chynoweth, D.P., Infuence of phase separation, leachate recycle and aeration on treatment of municipal solid waste in simulated landfill cells, Bioresource Technology,72, 55-66, 2000.
  • Parawira W.; Murto M.; Read J.S.; Mattiasson B., Volatile fatty acid production during anaerobic mesophilic digestion of solid potato waste, 2004.
  • Prashanth S., Kumar P., Mehrotra I., Anaerobic Degradability: Effect of Particulate COD, Journal of Environmental Engineering, 132 (4), 488-496, 2006.
  • Punal, A., Mendez-Pampin, R.J., Lema J.M., Characterization and comparison of biomasses from single- and multi-fed upflow anaerobic filters, Rioresource Technology 68, 293-300,1999.
  • Raynal J., Delgenes J.P., Moletta R., Two-phase anaerobic digestion of solid waste by multiple liquefaction reactors process”, Bioresource Technology, 65, 97-103,1998.
  • Ren, N., Wang, B., Ma, F., Hydrogen bio-production of carbohydrate fermentation by anaerobic sludge process, Proc 68th Annual Water Environment Fed. Conf., Miami, WEF, 145-152,1995.
  • Rittmann, B., McCarty, P., Environmental Biotechnology: Principles and Applications, MacGraw-Hill International Editions, 2001.
  • Rodriguez, J., Kleerebezem, R., Lema, Juan, M., Loosdrecht, M. C. M., Modeling product formation in anaerobic mixed culture fermentations”, Biotechnology and Bioengineering, 93, 3, 593-606, 2005.
  • Rustrian E., Delgenes J.P., Bernet N.and Moletta R., Acidogenic activity: Process of carbon source generation for biological nutrient removal. Wat Sci Technol. 40, 25- 32,1999.
  • Senol, A., and Dramur, U. Predicting liquid–liquid equilibria of amine extraction of carboxylic acid through solvation energy relation, Solvent Extr. Ion Exc., 25(5), 865– 883, 2004.
  • Sharma V.K., Testa C., Castelluccio G., Anaerobic treatment of semi-solid organic waste, Energy Conversion & Management , 40, 369-384,1999.
  • Shore,M., Broughton,N. W., Bumstead,N., Anaerobic Treatment of Waste Waters in the Beet Sugar Industry, Water Pollution Control, 83, 4, 499-506,1984.
  • Siso Gonzales, M.I., The biotechnological utilization of cheese-whey: A review, Biosource Technology, 57 1-11, 1996.
  • Soto, M., Méndez, R. and Lemai J.M., Methanogenic and non-methanogenic activity tests: Theroetical basis and experimental set up, Water Res., 27, 8, 1361-1376,1993.
  • Speece, R. E., Anaerobic Biotechnology for Industrial Wastewaters. Vanderbilt University, Arachae Press,1996.
  • Storry D. J., The importance of various parameters in the anaerobic treatment of beet sugar wastewater, North Dakota State University, 1996.
  • Şentürk, F., Sayman, Y., Yalçın, H. ve Dumlu, G. Şeker Fabrikası Atıkları, Enerji ve Tabii Kaynaklar Bakanlığı, Devlet Su İşleri Genel Müdürlüğü, Ankara, 1977.
  • Tamada, J. A., and King, C. J. (1990). “Extraction of carboxylic acids with amine extractants. 2. Chemical interactions and interpretation of data.” Ind. Eng. Chem. Res., 29, 1327–1333.
  • Taygun, N.,Şeker Fabrikalarında Kullanılan Suların Cinsleri ve Atıksulann Biyolojik Arıtımı, T.Ş.F.A.Ş. Şeker Enstitüsü, Etimesgut, 1980.
  • Traverso, P., Pavan, P., Bolzonella, D., Innocenti, L., Cecchi F., Mata-Alvarez, J., Acidogenic fermentation of source separated mixtures of vegetables and fruits wasted from supermarkets, Biodegradation, 11, 407-414, 2000.
  • U.S. Environmental Protection Agency, Managing Manure with Biogas Recovery Systems: Improved Performance at Competitive Costs, EPA-430-F-02-004,2002.
  • Uzal N., Gökçay C. F., Demirer G.N., Sequential (anaerobic/aerobic) biological treatment of malt whisky wastewater, Process Biochemistry, 39, 279-286,2003
  • Ülkü, G., Water Used in Sugar Factory and The Sugar Factory Wastewater Treatment Methods, Şeker Enstitüsü, Ankara 1990.
  • Wang, BZ., Sui, J; Liu, RF; Yang, G; Qi, PS, Anaerobic Reactors Treating Beet Sugar Effluents, Effluent and Water Treatment Journal, 26, 5/6, 150-151, 154-162, 1986.
  • Wang, Z., Luo, Y., and Yu. P., Recovery of organic acids from waste salt solutions derived from the manufacture of cyclohexanone by electrodialysis, J. Membrane Sci., 280, 134–137, 2006.
  • Wardell, J. M., and King, C. J., Solvent equilibria for extraction of carboxylic acids from water, J. Chem. Eng. Data., 23(2), 144–148,1978.
  • Weiland P., One- and two-step anaerobic digestion of solid agroindustrial residues, Water Sci. Technol. 27: 145–151, 1993.
  • Wheatley, A., Anaerobic Digestion: A Waste Treatment Technology, Elsevier Applied Science, 31, 2-31,1990.
  • Wu J. H., Lin C.Y., Biohydrogen poduction by mesophilic fermentation of food wastewater, Water Science and Technology, 49 (5-6), 223-228,2004.
  • Wu, M., Sun, K., Zhang, Y., Influence of temperature fluctuation on thermophilic anaerobic digestion of municipal organic solid waste, Journal of Zhejiang University, Science B, 7, 3, 180-185, 2005.
  • Wu, Z., and Yang, S. T., Extractive fermentation for butyric acid production from glucose by clostridium tyrobutyricum, Biotechnol. Bioeng., 82(1), 93–102, 2003.
  • Vandak, D., Zigova, J., Sturdik, E., and Schlosser, S., Evaluation of solvent and pH for extractive fermentation of butyric acid, Process Biochem., 32(3), 245–25,1997.
  • Veeken A., Hamelers B., Effect of temperature on hydrolysis rates of selected biowaste components”, Bioresource Technology, 69(3), 249-254,1999.
  • Vieitez E.R., Mosquera J., and Ghosh S., Kinetics of accelerated solid-state fermentation of organic rich municipal solid waste, Wat.Sci. & Tech., 41, 231-238, 2000.
  • Vigneron V., Ponthieu M., Barina G., Audic J.M., Duquennoi C., Mazéas L., Bernet N. and Bouchez T., Nitrate and nitrite injection during municipal solid waste anaerobic biodegradation, Waste Management, In Press, Corrected Proof, 2006.
  • Viturtia A. Mtz., Mata-Alvarez J., Cecchi F., Two-phase anaerobic digestion of fruit and vegetable wastes, Recourses, Conversion and Recycling,13, 257-267,1995.
  • Vonder Emd, W. ve Kroiss, H., A low-Cost and High- Efficiency Solution For Sugar Factory Wastewater Treatment, Water Science and Technology, 24,1, 1991.
  • Yang, S., White, S. A., and Hsu, S., Extraction of carboxylic acids with tertiary and quaternary amines: Effect of pH, Ind. Eng. Chem. Res., 30, 1335–1342,1991.
  • Yilmaz, V., and Demirer, G. N., Improved anaerobic acidification of unscreened dairy manure, Environ. Eng. Sci., 25(3), 309–317, 2008.
  • Yu, H. Q., Fang, H. H. P., Acidification of mid- and high-strength dairy wastewaters, Water Resources, 35, 15, 3697-3705, 2001.
  • Yu, H. Q., Fang, H. H. P., Acidogenesis of dairy wastewaters at various pH levels, Water Sci. Technol., 45, 10, 201-206, 2002.
  • Zall, R.R., Whey treatment and utilization In: Food Processing Waste Management, AVI. Publishing Company, Connecticut, pp. 175-201,1979
APA DEMİRER N, DEMİRER U, ERGÜDER H, YILMAZ V, TÜRKMENOĞLU S, DOĞAN E, DOĞAN E, ALKAYA E, Özkan L, DUNAEV T, KAPTAN S (2008). Evsel ve agro-endüstriyel atıklardan organik asit eldesi. , 1 - 167.
Chicago DEMİRER N. Göksel,DEMİRER Uludağ Sibel,ERGÜDER H. Tuba,YILMAZ Vedat,TÜRKMENOĞLU S.,DOĞAN Evrim,DOĞAN Eylem,ALKAYA Emrah,Özkan Leyla,DUNAEV Timur,KAPTAN Serkan Evsel ve agro-endüstriyel atıklardan organik asit eldesi. (2008): 1 - 167.
MLA DEMİRER N. Göksel,DEMİRER Uludağ Sibel,ERGÜDER H. Tuba,YILMAZ Vedat,TÜRKMENOĞLU S.,DOĞAN Evrim,DOĞAN Eylem,ALKAYA Emrah,Özkan Leyla,DUNAEV Timur,KAPTAN Serkan Evsel ve agro-endüstriyel atıklardan organik asit eldesi. , 2008, ss.1 - 167.
AMA DEMİRER N,DEMİRER U,ERGÜDER H,YILMAZ V,TÜRKMENOĞLU S,DOĞAN E,DOĞAN E,ALKAYA E,Özkan L,DUNAEV T,KAPTAN S Evsel ve agro-endüstriyel atıklardan organik asit eldesi. . 2008; 1 - 167.
Vancouver DEMİRER N,DEMİRER U,ERGÜDER H,YILMAZ V,TÜRKMENOĞLU S,DOĞAN E,DOĞAN E,ALKAYA E,Özkan L,DUNAEV T,KAPTAN S Evsel ve agro-endüstriyel atıklardan organik asit eldesi. . 2008; 1 - 167.
IEEE DEMİRER N,DEMİRER U,ERGÜDER H,YILMAZ V,TÜRKMENOĞLU S,DOĞAN E,DOĞAN E,ALKAYA E,Özkan L,DUNAEV T,KAPTAN S "Evsel ve agro-endüstriyel atıklardan organik asit eldesi." , ss.1 - 167, 2008.
ISNAD DEMİRER, N. Göksel vd. "Evsel ve agro-endüstriyel atıklardan organik asit eldesi". (2008), 1-167.
APA DEMİRER N, DEMİRER U, ERGÜDER H, YILMAZ V, TÜRKMENOĞLU S, DOĞAN E, DOĞAN E, ALKAYA E, Özkan L, DUNAEV T, KAPTAN S (2008). Evsel ve agro-endüstriyel atıklardan organik asit eldesi. , 1 - 167.
Chicago DEMİRER N. Göksel,DEMİRER Uludağ Sibel,ERGÜDER H. Tuba,YILMAZ Vedat,TÜRKMENOĞLU S.,DOĞAN Evrim,DOĞAN Eylem,ALKAYA Emrah,Özkan Leyla,DUNAEV Timur,KAPTAN Serkan Evsel ve agro-endüstriyel atıklardan organik asit eldesi. (2008): 1 - 167.
MLA DEMİRER N. Göksel,DEMİRER Uludağ Sibel,ERGÜDER H. Tuba,YILMAZ Vedat,TÜRKMENOĞLU S.,DOĞAN Evrim,DOĞAN Eylem,ALKAYA Emrah,Özkan Leyla,DUNAEV Timur,KAPTAN Serkan Evsel ve agro-endüstriyel atıklardan organik asit eldesi. , 2008, ss.1 - 167.
AMA DEMİRER N,DEMİRER U,ERGÜDER H,YILMAZ V,TÜRKMENOĞLU S,DOĞAN E,DOĞAN E,ALKAYA E,Özkan L,DUNAEV T,KAPTAN S Evsel ve agro-endüstriyel atıklardan organik asit eldesi. . 2008; 1 - 167.
Vancouver DEMİRER N,DEMİRER U,ERGÜDER H,YILMAZ V,TÜRKMENOĞLU S,DOĞAN E,DOĞAN E,ALKAYA E,Özkan L,DUNAEV T,KAPTAN S Evsel ve agro-endüstriyel atıklardan organik asit eldesi. . 2008; 1 - 167.
IEEE DEMİRER N,DEMİRER U,ERGÜDER H,YILMAZ V,TÜRKMENOĞLU S,DOĞAN E,DOĞAN E,ALKAYA E,Özkan L,DUNAEV T,KAPTAN S "Evsel ve agro-endüstriyel atıklardan organik asit eldesi." , ss.1 - 167, 2008.
ISNAD DEMİRER, N. Göksel vd. "Evsel ve agro-endüstriyel atıklardan organik asit eldesi". (2008), 1-167.
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