References

ahmadi, m., vahabzadeh, f., bonakdarpour, b., mofarrah, e. and mehra-nian, m. (2005), Application of the central composite design and response surface methodology to the advanced treatment of olive oil processing wastewater using Fenton's peroxidation. Journal of Hazardous Materials, B123, 187-195. andreottola, g., foladori, p., nardelli, p. and denicolo, a. (2005), Treatment of winery wastewater in a full-scale fixed bed biofilm reactor. Water Science Technology, 51 (1), 71-79. artiga, p., ficara, e., malpei, f., garrido, j. m. and méndez, r. (2005), Treatment of two industrial wastewaters in a submerged membrane bioreactor. Desalination, 179 (1-3), 161-169. aspé, e., marti, m. c. and roeckel, m. (1997), Anaerobic treatment of fishery wastewater using a marine sediment inoculum. Water Research, 31 (9), 2147-2160.

austermann-haun, u. and seyfried, c. f. (1994), Experiences gained in the operation of anaerobic treatment plants in Germany. Water Science Technology, 30 (12), 415-424.

austermann-haun, u., seyfried, c. f. and rosenwinkel, k. h. (1997), UASB-reactor in the fruit juice industry. Water Science and Technology, 36 (6-7), 407-414.

austermann-haun, u., meyer, h., seyfried, c. f. and rosenwinkel, k. h. (1999), Full scale experiences with anaerobic/aerobic treatment plants in the food and beverage industry. Water Science and Technology, 40 (1), 305-312. azbar, n. and yonar, t. (2004), Comparative evaluation of a laboratory and full-scale treatment alternatives for the vegetable oil refining industry wastewater (VORW). Process Biochemistry, 39 (7) 869-875. bae, t. h., han, s. s. and tak, t. m. (2003), Membrane sequencing batch reactor system for the treatment of dairy industry wastewater. Process Biochemistry, 39 (2), 221-231.

baick, s., gough, r. and adkinson, r. (1992), Use of a 3-stage aerated lagoon system for disposal of dairy plant-processing wastes. Journal of Environmental Science and Health, Part A, A27 (2), 329-346. beck, c., prades, g. and sadowski, g. (2005), Activated sludge wastewater treatment plants optimisation to face pollution overloads during grape harvest periods. Water Science Technology, 51 (1), 81-88. becker, p., koèster, d., popov, m. n., markossian, s., antranikian, g. and maè rkl, h. (1999), The biodegradation of olive oil and the treatment of lipid-rich wool scouring wastewater under aerobic thermophilic conditions, Water Research, 33 (3), 653-660. beltrán, f. j., González, m. and González, j. f. (1997), Industrial wastewater advanced oxidation. Part 1. UV radiation in the presence and absence of hydrogen peroxide. Water Research, 31 (10), 2405-2414. bloor, j. c., anderson, g. k. and willey, a. r. (1995), High rate aerobic treatment of brewery wastewater using the jet loop reactor. Water Research, 29 (5), 1217-1223.

boardman, g. d., tisinger, j. l. and gallagher, d. l. (1995), Treatment of clam processing wastewaters by means of upflow anaerobic sludge blanket technology. Water Research, 29 (6), 1483-1490. bolzonella, d., innocenti, l., pavan, p. and cecchi, f. (2001), Denitrification potential enhancement by addition of anaerobic fermentation products from the organic fraction of municipal solid waste. Water Science and Technology, 44 (1), 187-194.

bolzonella, d., fatone, f., pavan, p. and cecchi, f. (2005), Anaerobic fermentation of organic municipal solid wastes for the production of soluble organic compounds. Industrial & Engineering Chemistry Research, 44 (10), 3412-3418.

bolzonella, d., battistoni, p., susini, c. and cecchi, f. (2006), Anaerobic codigestion of waste activated sludge and organic waste: the experiences of Viareggio and Treviso plants. Water Science and Technology, in press. brucculeri, m., bolzonella, d., battistoni, p. and cecchi, f. (2005), Treatment of mixed municipal and winery wastewaters in a conventional activated sludge process: A case study. Water Science and Technology, 51 (1), 89-98. burgoon, p., kadlec, r. and Henderson, m. (1999), Treatment of potato processing wastewater with engineered natural systems. Water Science and Technology, 40 (3), 211-215.

carawan, r. e., chambers, j. v., zall, r. r. and wilkowske, r. h. (1979), Water and Wastewater Management in Seafood Processing. Pollution Prevention Pays Program, North Carolina State University, Cornell University and Purdue University.

carucci, g., carrasco, f., trifoni, k., majone, m. and beccari, m. (2005), Anaerobic digestion of food industry wastes: Effect of codigestion on methane yield. Journal of Environmental Engineering-ASCE, 131 (7), 10371045.

cecchi, f., battistoni, p., pavan, p., fava, g. and mata-alvarez, j. (1994), Anaerobic-digestion of OFMSW and BNR processes - a possible integration -preliminary-results. Water Science and Technology, 30 (8), 65-72. cheryan, m. (1998), Ultrafiltration and Microfiltration Handbook. Technomic

Publishing Co., Lancaster, Pennsylvania, USA. chudoba, p. and pujol, r. (1996), Activated sludge plant facing grape harvest period - a case study. Water Science and Technology, 34 (11), 25-32. clara, m., strenn, b., gans, o., martinez, e., kreuzinger, n. and kroiss, h. (2005), Removal of selected pharmaceuticals, fragrances and endocrine disrupting compounds in a membrane bioreactor and conventional wastewater treatment plants. Water Research, 39 (19), 4797-4807. colin, t., bories, a., sire, y. and perrin, r. (2005), Treatment and valorisation of winery wastewater by a new biophysical process (ECCF®). Water Science Technology, 51 (1), 99-106. costa-pierce, b. a. (1998), Preliminary investigation of an integrated aquaculture-wetland ecosystem using tertiary-treated municipal wastewater in Los Angeles County, California. Ecological Engineering, 10 (4), 341-354. demirel, b., yenigun, o. and onay, t. t. (2005), Anaerobic treatment of dairy wastewaters: a review. Process Biochemistry, 40 (8), 2583-2595. dinsdale, r. m., hawkes, f. r. and hawkes, d. l. (1997), Comparison of mes-ophilic and thermophilic upflow anaerobic sludge blanket reactors treating instant coffee production wastewater. Water Research, 31 (1), 163-169. driessen, w. and yspeert, p. (1999), Anaerobic treatment of low, medium and high strength effluent in the agro-industry. Water Science and Technology, 40 (8), 221-228.

el-gohary, f. a., nasr, f. a. and aly, h. i. (1999), Cost-effective pre-treatment of food-processing industrial wastewater. Water Science Technology, 40 (7), 17-24.

eusebio, a., mateus, m., baeta-hall, l., almeida-vara, e. and duarte, j. c. (2005), Microflora evaluation of two agro-industrial effluents treated by the JACTO jet-loop type reactor system. Water Science and Technology, 51 (1), 107-112.

fang, h. and chui, h. (1993), Maximum COD loading capacity in UASB reactors at 37 °C. Journal of Environmental Engineering, 119 (1), 103-119. farizoglu, b., keskinler, b., yildiz, e. and nuhoglu, a, (2004), Cheese whey treatment performance of an aerobic jet loop membrane bioreactor. Process Biochemistry, 39 (12), 2283-2291. fatone, f., bolzonella, d., battistoni, p. and cecchi, f. (2005), Removal of nutrients and micropollutants treating low loaded wastewaters in a membrane bioreactor operating the automatic alternate-cycles process. Desalination, 183 (1-3), 395-405.

fonade, c., rols, j. l., goma, g., doubrovine, n., bermejo, m. and grasa, j. p. (2000), Improvement of industrial wastewater treatment by aerated lagoon: case studies. Water Science and Technology, 42 (5-6), 193-200. gavrilescu, m. and chisti, y. (2005), Biotechnology - a sustainable alternative for chemical industry. Biotechnology Advances, 23 (7-8), 471-499. ginkel van, s. w., oh, s. e. and logan, b. e. (2005). Biohydrogen gas production from food processing and domestic wastewaters. International Journal of Hydrogen Energy, 30 (15), 1535-1542. houbron, e., torrijos, m. and moletta, r. (1998), Application du procede SBR aux effluentes viticoles: resultats de trois annee de suivi. In Proceedings 2nd Congres International sur le traitment des effluents vinicoles, Bordeaux, May 5-7, 1998.

inan, h., dimoglo, a., simsek, h. and karpuzcu, m. (2004), Olive oil mill wastewater treatment by means of electro-coagulation. Separation and Purification Technology, 36, 23-31. innocenti, l., bolzonella, d., pavan, p. and cecchi, f. (2002), Effect of sludge age on the performance of a membrane bioreactor: influence on nutrient and metals removal. Desalination, 146 (1-3), 467-474. johns, m. r. (1995), Development in wastewater treatment in the meat processing industry: a review. Bioresource Technology, 54, 203-216. johnson, c. h., page, m. w. and blaha, l. (2000), Full scale moving bed biofilm reactor results from refinery and slaughter house treatment facilities. Water Science and Technology, 41 (4-5), 401-407. kadlec, r. h., burgoon, p. s. and Henderson, m. e. (1997), Integrated natural systems for treating potato processing wastewater. Water Science and Technology, 35 (5), 263-270.

katayon, s., noor, m. j. m. m., ahmad, j., ghani, l. a. a., nagaoka, h. and aya, h. (2004), Effects of mixed liquor suspended solid concentrations on membrane bioreactor efficiency for treatment of food industry wastewater. Desalination, 167 (1-3), 153-158.

kosaric, n. and velikonja, j. (1995), Liquid and gaseous fuels from biotechnology - challenge and opportunities. FEMS Microbiology Reviews, 16 (2-3), 111-142.

kurian, r., acharya, c., nakhla, g. and bassi, a. (2005), Conventional and thermophilic aerobic treatability of high strength oily pet food wastewater using membrane-coupled bioreactors. Water Research, 39 (18), 4299-4308. lettinga, g. (1995), Anaerobic-digestion and waste-water treatment systems. Antonie Van Leeuwenhoek, 67 (1), 3-28.

liu, v. l., nakhla, g. and bassi, a. (2004), Treatability and kinetics studies of mesophilic aerobic biodegradation of high oil and grease pet food wastewater. Journal of Hazardous Materials, 112 (1-2), 87-94. ma, f. r. and hanna, m. a. (1999), Biodiesel production: a review. Bioresource

Technology, 70 (1), 1-15. mata-alvarez, j., mace, s. and llabres, p. (2000), Anaerobic digestion of organic solid wastes. An overview of research achievements and perspectives. Bioresource Technology, 74 (1), 3-16. mauret, m., ferrand, f., boisdon, v., sperandio, m. and paul, e. (2001), Process using DO and ORP signals for biological nitrification and denitrification: Validation of a food-processing industry wastewater treatment plant on boosting with pure oxygen. Water Science and Technology, 44 (2-3), 163-170. metcalf and eddy (2002), Wastewater Engineering: Treatment and Reuse. 4th

Edition, McGraw-Hill International Columbus, Ohio. mishra, b. k. and arora, a. l. (2004), Optimization of a biological process for treating potato chips industry wastewater using a mixed culture of Aspergillus foetidus and Aspergillus niger. Bioresource Technology, 94 (1), 9-12. mohammadi, t. and esmaeelifar, a. (2004), Wastewater treatment using ultrafiltration at a vegetable oil factory. Desalination, 166 (1-3), 329-337. moletta, r. (2005), Winery and distillery wastewater treatment by anaerobic digestion. Water Science and Technology, 51 (1), 137-144. moresi, m. and lo presti, s. (2003), Present and potential applications of membrane processing in the food industry. Italian Journal of Food Science, XV (1), 3-34.

nakhla, g., lugowski, a., patel, j. and rivest, v. (2006), Combined biological and membrane treatment of food-processing wastewater to achieve dry-ditch criteria: Pilot and full-scale performance. Bioresource Technology, 97 (1), 1-14.

nunez, l. a. and martinez, b. (1999), Anaerobic treatment of slaughterhouse wastewater in an Expanded Granular Sludge Bed (EGSB) reactor. Water Science and Technology, 40 (8), 99-106. olsson, m. p., lo, k. v. and charter, e. a. (1997), Sequencing batch reactors for the treatment of egg processing wastewater. Canadian Agricultural Engineering, 39 (3), 195-202.

oostrom van, a. j. (1995), Nitrogen removal in constructed wetlands treating nitrified meat processing effluent. Water Science and Technology, 32 (3), 137-147.

parawira, w., kudita, i., nyandoroh, m. g. and zvauya, r. (2005), A study of industrial anaerobic treatment of opaque beer brewery wastewater in a tropical climate using a full-scale UASB reactor seeded with activated sludge. Process Biochemistry, 40 (2), 593-599. petruccioli, m., duarte, j. c., eusebio, a. and federici, f. (2002), Aerobic treatment of winery wastewater using a jet-loop activated sludge reactor. Process Biochemistry, 37 (8), 821-829. rintala, j. a. and lepisto, s. s. (1997), Pilot-scale thermophilic anaerobic treatment of wastewaters from seasonal vegetable processing industry. Water Science and Technology, 36 (2-3), 279-285. rosenberger, s., witzig, r., manz, w., szewzyk, u. and kraume, m. (2000), Operation of different membrane bioreactors: experimental results and physiological state of the micro-organisms. Water Science and Technology, 41 (10-11), 269-277.

rusten, b., siljudalen, j. g. and strand, h. (1996), Upgrading of a biological-chemical treatment plant for cheese factory wastewater. Water Science and Technology, 34 (11), 41-49.

saatci, y., arslan, e. i. and konar, v. (2003), Removal of total lipids and fatty acids from sunflower oil factory effluent by UASB reactor. Bioresource Technology, 87 (3), 269-272. sabbah, i., marsook, t. and basheer, s. (2004), The effect of pretreatment on anaerobic activity of olive mill wastewater using batch and continuous systems. Process Biochemistry, 39 (12), 1947-1951. scioli, c. and vollaro, l. (1997), The use of Yarrowia lipolytica to reduce pollution in olive mill wastewaters. Water Research, 31 (10), 2520-2524. sroka, e., kaminski, w. and bohdziewicz, j. (2004), Biological treatment of meat industry wastewater. Desalination, 162, 85-91. stephenson, t., brindle, k., judd, s. and jefferson, b. (2000), Membrane

Bioreactors for Wastewater Treatment. IWA Publishing, London, UK. strous, m., vangerven, e., zheng, p., kuenen, j. g. and jetten, m. s. m. (1997), Ammonium removal from concentrated waste streams with the anaerobic ammonium oxidation (anammox) process in different reactor configurations. Water Research, 31 (8), 1955-1962. traverso, p., pavan, p., bolzonella, d., innocenti, l., cecchi, f. and mata-alvarez, j. (2000), Acidogenic fermentation of source separated mixtures of vegetables and fruits wasted from supermarkets. Biodegradation, 11 (6), 407-414.

uttamangkabovorn, m., prasertsan, p. and kittikun, a. h. (2005), Water conservation in canned tuna (pet food) plant in Thailand. Journal of Cleaner Production, 13 (6), 547-555. valdez-vazquez, i., rios-leal, e., esparza-garcia, f., cecchi, f. and poggi-varaldo, h. a. (2005), Semi-continuous solid substrate anaerobic reactors for H-2 production from organic waste: Mesophilic versus thermophilic regime. International Journal of Hydrogen Energy, 30 (13-14), 1383-1391. wang, y., huang, x. and yuan, q. p. (2005), Nitrogen and carbon removals from food processing wastewater by an anoxic/aerobic membrane bioreactor. Process Biochemistry, 40 (5), 1733-1739. wilke, d. (1995), What should and what can biotechnology contribute to chemical bulk production? FEMS Microbiology Reviews, 16 (2-3), 89-100. wilke, d. (1999), Chemicals from biotechnology: molecular plant genetics will challenge the chemical and the fermentation industry. Applied Microbiology and Biotechnology, 52 (2), 135-145. willke, t. and vorlop, k. d. (2004), Industrial bioconversion of renewable resources as an alternative to conventional chemistry. Applied Microbiology and Biotechnology, 66 (2), 131-142. yuèrekli, f., yesilada, o., yuèrekli, m. and topcuoglu, s. f. (1999), Plant growth hormone production from olive oil mill and alcohol factory wastewaters by white rot fungi. World Journal of Microbiology & Biotechnology, 15, 503-505.

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