Abstract
Dyes are widely used in food, cosmetic, pharmaceutical, printing, textile, and leather industries during manufacturing process. As a result, a considerable amount of undesired coloured effluents is generated. The presence of dyes and pigments in water resources not only renders them aesthetically unacceptable, but also poses serious health-risk factors on living organisms and the environment. Therefore, it is essential to remove such dyes before discharging them into natural water streams. A technically effective and cost-effective treatment method is needed. Removal of parameters such as colour, chemical oxygen demand (COD), biochemical oxygen demand (BOD), and total organic carbon (TOC) from dye containing industrial effluent have become the present topics of research. A wide range of treatment techniques have been explored, including (1) physical treatment (ion exchange, adsorption, etc.), (2) chemical treatment (oxidative processes, coagulation and precipitation, etc.), (3) biological treatment (aerobic, anaerobic, etc.), (4) thermal treatment (thermolysis, wet oxidation, etc.), and (5) combined treatment (adsorption/coagulation, coagulation-flocculation/nanofiltration, etc.), some of which have been applied in some industries’ wastewater treatment process. Current trends and efficient treatment technologies for dyes and pigments wastes are discussed and their strengths and weaknesses are to be compared.
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References
Christie RM (2001) Colour chemistry. The Royal Society of Chemistry, Cambridge, UK, pp 1–200
Raghavacharya C (1997) Color removal from industrial effluents – a comparative review of available technologies. Chem Eng World 32:53–54
Bogacki MB, Iwona M, Andrzej K (2004) Application of experimental design for optimization of physicochemical properties of the inorganic pigment, iron (III) silicate. Dyes Pigments 61:149–164
Firmino PIM, Da Silva MER, Cervantes FJ, Dos Santos AB (2010) Colour removal of dyes from synthetic and real textile wastewaters in one- and two-stage anaerobic systems. Bioresour Technol 101:7773–7779
Gupta GS, Shukla SP, Prasad G, Singh VN (1992) China clay as an adsorbent for dye house wastewaters. Environ Technol 13:925–936
Moisés TP, Patricia BH, Barrera-Diaz CE, Gabriela RM, Reyna NR (2010) Treatment of industrial effluents by a continuous system: eletrocoagulation-activated sludge. Bioresour Technol 101:7761–7766
Shukla SP, Gupta GS (1992) Toxic effects of omega chrome red ME and its treatment by adsorption. Ecotoxicol Environ Staf 24:155–163
Sokolowska-Gajda J, Freeman HS, Reife A (1996) Synthetic dyes based on environmental considerations: 2. Iron complexed formazan dyes. Dyes Pigments 30:1–20
Srinivasan A, Viraraghavan T (2010) Decolorization of dye wastewaters by biosorbents: a review. J Environ Manag 91:1915–1929
Jain CK, Kumar A, Hayssam Izazy M (2009) Color removal from paper mill effluent through adsorption technology. Environ Monit Assess 149:343–348
Kalyani KSP, Balasubramanian N, Srinivasakannan C (2009) Decolorization and COD reduction of paper industrial effluent using electro-coagulation. Chem Eng J 151:97–104
Kabadasil I, Tunay O, Orhon D (1999) Wastewater control and management in a leather tanning district. Water Sci Technol 40:261–267
Kanth SV, Venba R, Madhan B, Chandrababu NK, Sadulla S (2008) Studies on the influence of bacterial collagenase in leather dyeing. Dyes Pigments 76:338–347
Paschoal FMM, Anderson MA, Zanoni MVB (2009) Simultaneous removal of chromium and leather dye from simulated tannery. J Hazard Mater 166:531–537
Bhat RV, Mathur P (1998) Changing scenario of food colours in India. Curr Sci 74:198–202
Doehlert DC, Simsek S, Wise ML (2009) The green oat story: possible mechanisms of green color formation in oat products during cooking. J Food Sci 74:226–231
Meimaridou A, Haasnoot W, Noteboom L, Mintzas D, Pulkrabova J, Hajslova J, Nielen MWF (2010) Color encoded microbeads-based flow cytometric immunoassay for polycyclic aromatic hydrocarbons in food. Anal Chim Acta 672:9–14
Slampova A, Smela D, Vondrackova A, Jancarova I, Kuban V (2001) Determination of synthetic colorants in foodstuffs. Chem List 95:163–168
Cook SMF, Linden DR (1997) Use of rhodamine WT to facilitate dilution and analysis of atrazine samples in short-term transport studies. J Environ Qual 26:1438–1441
Kross BC, Nicholson HF, Ogilvie LK (1996) Methods development study for measuring pesticide exposure to golf course workers using video imaging techniques. Appl Occup Environ Hyg 11:1346–1351
Scarpi C, Ninci F, Centini M, Anselmi C (1998) High-performance liquid chromatography determination of direct and temporary dyes in natural hair colourings. J Chromatogr A 796:319–325
Wagner RW, Lindsey JS (1996) Boron-dipyrromethane dyes for incorporation in synthetic multi-pigment light-harvesting arrays. Pure Appl Chem 68:1373–1380
Morgan-Sagastume JM, Jimenez B, Noyola A (1997) Tracerstudies in a laboratory and pilot scale UASB reactor. Environ Technol 18:817–826
Field MS, Wilhelm RG, Quinlan JF, Aley TJ (1995) An assessment of the potential adverse properties of fluorescent tracer dyes used for groundwater tracing. Environ Monit Assess 38:75–97
Sorensen BL, Wakeman RJ (1996) Filtration characterization and specific surface area measurement of activated sludge by rhodamine B adsorption. Water Res 30:115–121
Forgacs E, Cserhati T, Oros G (2004) Removal of synthetic dyes from wastewaters: a review. Environ Int 30:953–971
Wesenberg D, Kyriakides I, Agathos SN (2003) White-rot fungi and their enzymes for the treatment of industrial dye effluents. Biotechnol Adv 22:161–187
Christie RM (2007) Environmental aspects of textile dyeing. Woodhead, Boca Raton/ Cambridge
Hunger K (2003) Industrial dyes: chemistry, properties, applications. Wiley-VCH, Weinheim/ Cambridge
Husain Q (2006) Potential applications of the oxidoreductive enzymes in the decolorization and detoxification of textile and other synthetic dyes from polluted water: a review. Crit Rev Biotechnol 26:201–221
Dos Santos AB, Cervantes FJ, Van Lier JB (2007) Review paper on current technologies for decolourisation of textile wastewaters: perspectives for anaerobic biotechnology. Bioresour Technol 98:2369–2385
Kirk O (1993) Encyclopedia of chemical technology, vol 8. Wiley, New York
Shaul GM, Holdsworth TJ, Dempsey CR, Dostal KA (1991) Fate of water soluble azo dyes in the activated sludge process. Chemosphere 22:107–119
O’Neill C, Hawkes FR, Hawkes DL, Lourenco ND, Pinheiro HM, Delee W (1999) Colour in textile effluents—sources, measurement, discharge consents and simulation: a review. J Chem Technol Biotech 74:1009–1018
Perry RH, Green DW, Maloney JO (1997) Perry’s chemical engineers’ handbook, 7th edn. McGraw-Hill, New York
Gupta VK, Suhas (2009) Application of low-cost adsorbents for dye removal – a review. J Environ Manag 90:2313–2342
Fitzpatrick CSB, Gregory J (2003) Coagulation and filtration. In: Mara D, Horan NJ (eds) The handbook of water and wastewater microbiology. Academic, London
Bansal RC, Goyal M (2005) Activated carbon adsorption. Taylor & Francis Group, Boca Raton
Danis TG, Albanis TA, Petrakis DE, Pomonis PJ (1998) Removal of chlorinated phenols from aqueous solutions by adsorption on alumina pillared clays and mesoporous alumina aluminum phosphates. Water Res 32:295–302
Freeman HM (1989) Standard handbook of hazardous waste treatment and disposal, 2nd edn. McGraw-Hill, New York
Cheremisinoff NP (2002) Handbook of water and wastewater treatment technologies. Butterworth-Heinemann, Boston
Alley ER (2000) Water quality control handbook. McGraw-Hill Inc, New York
Weber WJ (1972) Physiochemical processes for water quality control. Wiley, New York, pp 199–259
Snoeyink VL, Summers RS (1999) Adsorption of organic compounds. In: Letterman RD (ed) Water quality and treatment: a handbook of community water supplies, 5th edn. American Water Works Association/McGraw-Hill Inc, New York
Wang XS, Zhou Y, Jiang Y, Sun C (2008) The removal of basic dyes from aqueous solutions using agricultural by-products. J Hazard Mater 157:374–385
Bailey SE, Olin TJ, Bricka M, Adrian DD (1999) A review of potentially low-cost sorbents for heavy metals. Water Res 33:2469–2479
Crini G (2006) Non-conventional low-cost adsorbents for dye removal: a review. Bioresour Technol 97:1061–1085
Reife A, Freeman H (1996) Environmental chemistry of dyes and pigments. Wiley, New York
Rafatullah M, Sulaiman O, Hashim R, Ahmad A (2010) Adsorption of methylene blue on low-cost adsorbents: a review. J Hazard Mater 177:70–80
Rasul MG, Rudolph V, Carsky M (1999) Physical properties of bagasse. Fuel 78:905–910
Low LW, Teng TT, Alkarkhi AFM, Ahmad A, Morad N (2011) Optimization of the adsorption conditions for the decolorization and COD reduction of methylene blue aqueous solution using low-cost adsorbent. Water Air Soil Pollut 214:185–195
Low LW, Teng TT, Ahmad A, Morad N, Wong YS (2011) A novel pretreatment method of lignocellulosic material as adsorbent and kinetic study of dye waste adsorption. Water Air Soil Pollut 218:293–306
Ofomaja AE, Ho YS (2007) Equilibrium sorption of anionic dye from aqueous solution by palm kernel fibre as sorbent. Dyes Pigments 74:60–66
McKay G, Porter JF, Prasad GR (1999) The removal of dye colours from aqueous solutions by adsorption on low-cost materials. Water Air Soil Pollut 114:423–438
Hameed BH (2009) Evaluation of papaya seeds as a novel non-conventional low-cost adsorbent for removal of methylene blue. J Hazard Mater 162:939–944
Magdy YH, Daifullah AAM (1998) Adsorption of a basic dye from aqueous solutions onto sugar-industry-mud. Waste Manag 18:219–226
Hameed BH (2009) Grass waste: a novel sorbent for the removal of basic dye form aqueous solution. J Hazard Mater 166:233–238
Hameed BH, Mahmoud DK, Ahmad AL (2008) Sorption of basic dye from aqueous solution by pomelo (Citrus grandis) peel in a batch system. Colloids Surf A 316:78–84
Hameed BH (2009) Removal of cationic dye from aqueous solution using jackfruit peel as non-conventional low-cost adsorbent. J Hazard Mater 162:344–350
Hameed BH, Mahmoud DK, Ahmad AL (2008) Sorption equilibrium and kinetics of basic dye from aqueous solution using banana stalk waste. J Hazard Mater 158:499–506
Hameed BH, Ahmad AA (2009) Batch adsorption of methylene blue from aqueous solution by garlic peel, an agricultural waste biomass. J Hazard Mater 164:870–875
Oladoja NA, Asia IO, Aboluwoye CO, Oladimeji YB, Ashogbon AO (2008) Studies on the sorption of basic dye by rubber (Hevea brasiliensis) seed shell. Turk J Eng Environ Sci 32: 143–152
Sun DS, Zhang XD, Wu YD, Liu X (2010) Adsorption of anionic dyes from aqueous solution on fly ash. J Hazard Mater 181:335–342
Senthilkumaar S, Kalaamani P, Porkodi K, Varadarajan PR, Subburaam CV (2006) Adsorption of dissolved reactive red dye from aqueous phase onto activated carbon prepared from agricultural waste. Bioresour Technol 97:1618–1625
Hsu TC (2008) Adsorption of an acid dye onto coal fly ash. Fuel 87:3040–3045
Alpat SK, Özbayrak Ö, Alpat S, Akçay H (2008) The adsorption kinetics and removal of cationic dye, Toluidine Blue O, from aqueous solution with Turkish zeolite. J Hazard Mater 151:213–220
Vimonses V, Jin B, Chow CWK (2010) Insight into removal kinetic and mechanisms of anionic dye by calcined clay materials and lime. J Hazard Mater 177:420–427
Almeida CAP, Debacher NA, Downs AJ, Cottet L, Mello CAD (2009) Removal of methylene blue from colored effluents by adsorption on momtmorillonite clay. J Colloid Interface Sci 332:46–53
Hong S, Wen C, He J, Gan F, Ho YS (2009) Adsorption thermodynamics of methylene blue onto bentonite. J Hazard Mater 167:630–633
Hajjaji M, Alami A, El-Bouadili A (2006) Removal of methylene blue from aqueous solution by fibrous clay minerals. J Hazard Mater 135:188–192
Al-Futaisi A, Jamrah A, Al-Hanai R (2007) Aspects of cationic dye molecule adsorption to palygorskite. Desalination 214:327–342
Chakrabarti S, Dutta BK (2005) Note on the adsorption and diffusion of methylene blue in glass fibers. J Colloid Interface Sci 286:807–811
Hassan SSM, Awwadb NS, Aboterikaa AHA (2009) Removal of synthetic reactive dyes from textile wastewater by Sorel’s cement. J Hazard Mater 162:994–999
Vimonses V, Lei SM, Jin B, Chow CWK, Saint C (2009) Adsorption of Congo red by three Australian kaolins. Appl Clay Sci 43:465–472
Yu JX, Li BH, Sun XM, Yuan J, Chi RA (2009) Polymer modified biomass of bakers yeast for enhancement adsorption of methylene blue, rhodamine B and basic magenta. J Hazard Mater 168:1147–1154
Marungrueng K, Pavasant P (2007) High performance biosorbent (Caulerpa lentillifera) for basic dye removal. Bioresour Technol 98:1567–1572
Gulnaz O, Kaya A, Matyar F, Arikan B (2004) Sorption of basic dyes from aqueous solution by activated sludge. J Hazard Mater 108:183–188
Rubin E, Rodriguez P, Herrero R, Cremades J, Barbara I, Sastre de Vicente ME (2005) Removal of methylene blue from aqueous solutions using as biosorbent Sargassum muticum: an invasive macroalga in Europe. J Chem Technol Biotechnol 80:291–298
Maurya NS, Mittal AK, Cornel P, Rother E (2006) Biosorption of dyes using dead macro fungi: effect of dye structure, ionic strength and pH. Bioresour Technol 97:512–521
El-Sikaily A, Khaled A, El-Nemr A, Abdelwahab O (2006) Removal of methylene blue from aqueous solution by marine green alga Ulva lactuca. Chem Ecol 22:149–157
Caparkaya D, Cavas L (2008) Biosorption of methylene blue by a brown alga Cystoseira barbatula Kutzing. Acta Chim Solv 55:547–553
Ncibi MC, Hamissa AMD, Fathallah A, Kortas MH, Baklouti T, Mahjoub B, Seffen M (2009) Biosorptive uptake of methylene blue using Mediterranean green alga Enteromorpha spp. J Hazard Mater 170:1050–1055
Kumari K, Abraham TE (2007) Biosorption on anionic textile dyes by nonviable biomass of fungi and yeast. Bioresour Technol 98:1704–1710
Elizalde-González MP, Fuentes-RamĂrez LE, Guevara-Villa MRG (2009) Degradation of immobilized azo dyes by Klebsiella sp. UAP-b5 isolated from maize bioadsorbent. J Hazard Mater 161:769–774
Akar T, Ozcan AS, Tunali S, Ozcan A (2008) Biosorption of a textile dye (Acid Blue 40) by cone biomass of Thuja orientalis: estimation of equilibrium, thermodynamic and kinetic parameters. Bioresour Technol 99:3057–3065
Mishra G, Tripathy M (1993) A critical review of the treatments for decolouration of textile effluent. Colourage 40:35–38
Ali HG, Gehad RE, Ahmed Z (2007) Kinetics of the oxidative decolorization of Reactive Blue-19 by acidic bromate in homogeneous and heterogeneous media. Dyes Pigments 73:90–97
Kace JS, Linford HB (1975) Reduced cost flocculation of a textile dyeing wastewater. J Water Pollut Control Fed 47:1971
Lee JW, Choi SP, Thiruvenkatachari R, Shim WG, Moon H (2006) Evaluation of the performance of adsorption and coagulation processes for the maximum removal of reactive dyes. Dyes Pigments 69:196–203
Anjaneyulu Y, Sreedhara Chary N, Samuel Suman Raj D (2005) Decolourization of industrial effluents-available methods and emerging technologies – a review. Rev Environ Sci Bio/ Technol 4:245–273
Klavarioti M, Mantzavinos D, Kassinos D (2009) Removal of residual pharmaceuticals from aqueous systems by advanced oxidation processes. Environ Int 35:402–417
Watanabe T, Koller K, Messner K (1998) Copper-dependent depolymerization of lignin in the presence of fungal metabolite, pyridine. J Biotechnol 62:221–230
Pecci L, Montefoschi G, Cavallini D (1997) Some new details of the copper-hydrogen peroxide interaction. Biochem Biophy Res Comm 235:264–267
Lim CL, Morad N, Teng TT, Ismail N (2009) Treatment of Terasil Red R dye wastewater using H2O2/pyridine /Cu(II) system. J Hazard Mater 168:383–389
Adams CD, Gorg S (2002) Effect of pH and gas-phase ozone concentration on the decolourization of common textile dyes. J Environ Eng 128:293–298
Xu Y, Lebrun RE (1999) Treatment of textile dye plant effluent by nanofiltration. Membr Sep Sci Technol 34:2501–2519
Tehrani-Bagha AR, Mahmoodi NM, Menger FM (2010) Degradation of persistent organic dye from colored textile wastewater by ozonation. Desalination 260:34–38
Sevimli MF, Kinaci C (2002) Decolorization of textile wastewater by ozonation and Fenton’s process. Water Sci Technol 45:279–286
Hitchcock DR, Law SE, Wu J, Williams PL (1998) Determining toxicity trends in the ozonation of synthetic dye wastewaters using the nematode Caenorhabditis elegans. Arch Environ Contam Toxicol 34:259–264
Ince NH, Gonene DT (1997) Treatability of a textile azo dye by UV/H2O2. Environ Technol 18:179–185
Behnajady MA, Modirshahla N, Ghanbary F (2007) A kinetic model for the decolorization of C.I. Acid Yellow 23 by Fenton process. J Hazard Mater 148:98–102
Marco SL, Albino AD, Ana S, Carla A, José AP (2007) Degradation of a textile reactive azo dye by a combined chemical-biological process: Fenton’s reagent-yeast. Water Res 41: 1103–1109
Robinson T, McMullan G, Marchant R, Nigam P (2001) Remediation of dyes in textile effluent: a critical review on current treatment technologies with a proposed alternative. Bioresour Technol 77:247–255
Balchioglu IA, Arslan I, Sacan MT (2001) Homogeneous and heterogeneous advanced oxidation of two commercial reactive dyes. Environ Technol 22:813–822
Shrestha RA, Pham TD, Sillanpää M (2009) Effect of ultrasonication on removal of persistent organic pollutants (POPs) from different types of soils. J Hazard Mater 170:871–875
Naddeo V, Belgiorno V, Napoli RMA (2007) Behaviour of natural organic matter during ultrasonic irradiation. Desalination 210:175–182
Singla R, Grieser F, Ashokkumar M (2009) Sonochemical degradation of martius yellow dye in aqueous solution. Ultrason Sonochem 16:28–34
Pang YL, Abdullah AZ, Bhatia S (2010) Effect of annealing temperature on the characteristics, sonocatalytic activity and reusability of nanotubes TiO2 in the degradation of Rhodamine B. Appl Catal B: Environ 100:393–402
Wang J, Lv YH, Zhang L, Liu B, Jiang RZ, Han GX, Xu R, Zhang XD (2010) Sonocatalytic degradation of organic dyes and comparison of catalytic activities of CeO2/TiO2, SnO2/TiO2 and ZrO2/TiO2 composites under ultrasonic irradiation. Ultrason Sonochem 17:642–648
Doll TE, Frimmel FH (2004) Kinetic study of photocatalytic degradation of carbamazepine, clofibric acid, iomeprol and iopromide assisted by different TiO2 materials determination of intermediates and reaction pathways. Water Res 38:955–964
Lin YC, Lee HS (2010) Effects of TiO2 coating dosage and operational parameters on a TiO2/Ag photocatalysis system for decolorizing Procion red MX-5B. J Hazard Mater 179: 462–470
Khataee AR, Kasiri MB (2010) Photocatalytic degradation of organic dyes in the presence of nanostructured titanium dioxide: influence of the chemical structure of dyes. J Mol Catal A: Chem 328:8–26
Cox M, Rydberg J (2004) Introduction to solvent extraction. In: Rydberg J, Cox M, Musikas C, Choppin GR (eds) Solvent extraction principles and practice. Marcel Dekker, New York, pp 1–10
Woo LD, Hi HW, Yup HK (2000) Removal of an organic dye from water using a predispersed solvent extraction. Sep Sci Technol 35:1951–1962
Muthuraman G, Teng TT, Leh CP (2009) Extraction and recovery of methylene blue from industrial wastewater using benzoic acid as an extractant. J Hazard Mater 163:363–369
Muthuraman G, Teng TT (2009) Extraction of methyl red from industrial wastewater using xylene as an extractant. Prog Nat Sci 19:1215–1220
Muthuraman G, Teng TT (2009) Use of vegetable oil in supported liquid membrane for the transport of Rhodamine B. Desalination 249:1062–1066
Fouad EA, Bart HJ (2008) Emulsion liquid membrane extraction of zinc by a hollow-fiber contactor. J Membr Sci 307:156–168
Naim MM, Monir AA (2003) Desalination using supported liquid membranes. Desalination 153:361–369
Frankenfield JW, Li NN (1987) Recent advance in liquid membrane technology, Handbook of separation process technology. Wiley, New York, pp 840–861
Prashant SK, Vijaykumar VM (2002) Application of liquid emulsion membrane (LEM) process for enrichment of molybdenum from aqueous solutions. J Membr Sci 201:123–135
Semerjian L, Ayoub GM (2003) High-pH- Magnesium coagulation-flocculation in wastewater treatment. Adv Environ Res 7:389–403
Annadurai G, Sung SS, Lee DJ (2004) Simultaneous removal of turbidity and humic acid from high turbidity stormwater. Adv Environ Res 8:713–725
Xia S, Zhang Z, Wang X, Yan A, Chen L, Zhao Z, Leonard D, Jaffrezic-Renault N (2007) Production and characterization of a bioflocculant by Proteus mirabilis TJ-1. Bioresour Technol 99:6520–6527
Tan BH, Teng TT, Mohd Omar AK (2000) Removal of dyes and industrial dye wastes by magnesium chloride. Water Res 34:597–601
Liao MY, Randtke SJ (1986) Predicting the removal of soluble organic contaminants by lime softening. Water Res 20:27–35
Folkman Y, Wachs AM (1973) Removal of algae from stabilization pond effluents by lime treatment. Water Res 7:419–428
Black AP, Christman RF (1961) Electrophoretic studies of sludge particles produced in lime-soda softening. J Am Water Works Assoc 53:737
Roussy J, Van Vooren M, Dempsey BA, Guibal E (2005) Influence of chitosan characteristics on the coagulation and the flocculation of bentonite suspensions. Water Res 39:3247–3258
Bolto B, Gregory J (2007) Organic polyelectrolytes in water treatment. Water Res 41: 2301–2324
Szygula A, Guibal E, PalacĂn MA, Ruiz M, Sastre AM (2009) Removal of an anionic dye (Acid Blue 92) by coagulation-flocculation using chitosan. J Environ Manag 90:2979–2986
Sadri Moghaddam S, Alavi Maghaddam MR, Arami M (2010) Coagulation-flocculation process for dye removal using sludge from water treatment plant: optimization through response surface methodology. J Hazard Mater 175:651–657
Beltrán-Heredia J, Sánchez-MartĂn J, Delgado-Regalado A, Jurado-Bustos C (2009) Removal of Alizarin Violet 3R (anthraquinonic dye) from aqueous solutions by natural coagulants. J Hazard Mater 170:43–50
Anouzla A, Abrouki Y, Souabi S, Safi M, Rhbal H (2009) Colour and COD removal of disperse dye solution by a novel coagulant: application of statistical design for the optimization and regression analysis. J Hazard Mater 166:1302–1306
Chan YJ, Chong MF, Law CL, Hassel DG (2009) A review on anaerobic-aerobic treatment of industrial and municipal wastewater. Chem Eng J 155:1–18
Seghezzo L, Zeeman G, Van Lier JB, Hamelers HVM, Lettinga G (1998) A review: the anaerobic treatment of sewage in UASB and EGSB reactors. Bioresour Technol 65:175–190
Yeoh BG (1995) Anaerobic treatment of industrial wastewaters in Malaysia. In: Post conference seminar on industrial wastewater management in Malaysia, Kuala Lumpur, Malaysia
Leslie Grady CP Jr, Daigger GT, Lim HC (1999) Biological wastewater treatment, 2nd edn., revised and expanded. CRC Press, Boca Raton
Cervantes FJ, Pavlostathis SG, Van Haandel AC (2006) Advanced biological treatment processes for industrial wastewaters: principles and applications. IWA publishing, London
Lourenco ND, Novais JM, Pinheiro HM (2000) Reactive textile dye colour removal in a sequencing batch reactor. Water Sci Technol 42:321–328
Meehan C, Bjourson AJ, McMullan G (2001) Paenibacillus azoreducens sp. nov., a synthetic azo dye decolorizing bacterium from industrial wastewater. Int J Syst Evol Microbiol 51: 1681–1685
Hu TL (2001) Kinetics of azoreductase and assessment of toxicity of metabolic products from azo dyes by Pseudomonas luteola. Water Sci Technol 43:261–269
Deive FJ, DomĂnguez A, Barrio T, Moscoso F, Morán P, Longo MA, Sanromán MA (2010) Decolorization of dye Reactive Black 5 by newly isolated thermophilic microorganisms from geothermal sites in Galicia (Spain). J Hazard Mater 182:735–742
Ertuğrul S, Bakir M, Dönmez G (2008) Treatment of dye-rich wastewater by an immobilized thermophilic cyanobacterial strain: Phormidium sp. Ecol Eng 32:244–248
Du LN, Yang YY, Li G, Wang S, Jia XM, Zhao YH (2010) Optimization of heavy metal-containing dye Acid Black 172 decolorization by Pseudomonas sp. DYI using statistical designs. Int Biodeterior Biodegrad 64:566–573
Pant D, Adholeya A (2007) Biological approaches for treatment of distillery wastewater: a review. Bioresour Technol 98:2321–2334
Bumpus JA, Brock BJ (1988) Biodegradation of crystal violet by the white rot fungus phanerochaete chrysosporium. Appl Environ Microbiol 54:1143–1150
Sani R, Banerjee U (1999) Decolorization of acid green 20, a textile dye, by the white rot fungus Phanerochaete chrysosporium. Adv Environ Res 2:485–490
Vasdev K, Kuhad RC, Saxena RK (1995) Decolorization of triphenylmethane dyes by a bird’s nest fungus Cyathus bulleri. Curr Microbiol 30:269–272
Aksu Z (2003) Reactive dye bioaccumulation by Saccharomyces cerevisiae. Process Biochem 38:1437–1444
Kapdan IK, Kargia F, McMullanb G, Marchant R (2000) Effect of environmental conditions on biological decolourization of textile dyestuff by C. versicolor. Enzym Microb Technol 26:381–387
Gou M, Qu YY, Zhou JT, Ma F, Tan L (2009) Azo dye decolorization by a new fungal isolate, Penicillium sp. QQ and fungal-bacterial cocultures. J Hazard Mater 170:314–319
Akar T, Divriklioglu M (2010) Biosorption applications of modified fungal biomass for decolorization of Reactive Red 2 contaminated solutions: batch and dynamic flow mode studies. Bioresour Technol 101:7271–7277
Aksu Z, Cagatay SS (2006) Investigation of biosorption of Gemazol Turquise Blue-G reactive dye by dried Phizopus arrhizus in batch and continuous systems. Sep Purif Technol 48:24–35
Blanquez P, Caminal G, Sarra M, Vicent T (2007) The effect of HRT on the decolourization of the Grey Lanaset G textile dye by Trametes versicolor. Chem Eng J 126:163–169
Khalaf MA (2008) Biosorption of reactive dye from textile wastewater by non-viable biomass of Aspergillus niger and Spirogyra sp.. Bioresour Technol 99:6631–6634
Sumathi S, Manju BS (2000) Uptake of reactive textile dyes by Aspergillus foetidus. Enzym Microb Technol 27:347–355
Yesilada O, Sing S, Asma D (2002) Decolourization of textile dye Astrazon Red FBL by Funalia trogii pellets. Bioresour Technol 81:155–157
Papinutti VI, Forchiassin F (2004) Modification of malachite green by Fomes sclerodermeus and reduction of toxicity to Phanerochaete chrysosporium. FEMS Microbiol Lett 231:205–209
Zhao X, Hardin IR (2007) HPLC and spectrophotometric analysis of biodegradation of azo dyes by Pleurotus ostreatus. Dyes Pigments 73:322–323
Kaushik P, Malik A (2009) Fungal dye decolourization: recent advances and future potential. Environ Int 35:127–141
Tobin JM, White C, Gadd GM (1994) Metal accumulation by fungi: applications in environment biotechnology. J Ind Microbiol 13:126–130
Aksu Z, Donmez G (2005) Combined effects of molasses sucrose and reactive dye on the growth and dye bioaccumulation properties of Candida tropicalis. Process Biochem 40: 2443–2454
More TT, Yan S, Tyagi RD, Surampalli RY (2010) Potential use of filamentous fungi for wastewater sludge treatment. Bioresour Technol 101:7691–7700
Krull R, Hempel DC (1994) Biodegradation of naptholenosulphenic acid containing sewage in a two stage treatment plant. Bioprocess Eng 10:229–234
Carliell CM, Barclay SJ, Buckely CA (1996) Treatment of exhausted reactive dye bath effluent using anaerobic digestion: laboratory and full scale trails. Water SA 22:225–233
Bell J, Plumb JJ, Buckley CA, Stuckey DC (2000) Treatment and decolorization of dyes in an anaerobic baffled reactor. J Environ Eng 126:1026–1032
Plumb JJ, Bell J, Stuckey DC (2001) Microbial populations associated with treatment of an industrial dye effluent in an anaerobic baffled reactor. Appl Environ Microbiol 67:3226–3235
Wijetunga S, Li XF, Chen J (2010) Effect of organic load on decolourization of textile wastewater containing acid dyes in upflow anaerobic sludge blanket reactor. J Hazard Mater 177:792–798
Lei L, Chen G, Hu X, Yue PL (2000) Homogeneous catalytic wet-air oxidation for the treatment of textile wastewater. Water Environ Res 72:147–151
Lei L, Hu X, Chen G, Porter JF, Yue PL (2000) Wet air oxidation of desizing wastewater from textile industry. Ind Eng Chem Res 39:2896–2901
Lei L, Hu X, Chu HP, Yue PL (1997) Catalytic wet air oxidation of dyeing and desizing wastewater. Water Sci Technol 65:311–319
Lei L, Hu X, Yue PL (1998) Improved wet oxidation for the treatment of dyeing wastewater concentrate from membrane separation process. Water Res 32:2753–2759
Kumar P, Prasad B, Mishra IM, Chand S (2008) Treatment of composite wastewater of a cotton textile mill by thermolysis and coagulation. J Hazard Mater 151:770–779
Bayramoglu M, Kobya M, Can OT, Sozbir M (2004) Operating cost analysis of electrocoagulation of textile dye wastewater. Sep Purif Technol 37:117–125
Lei L, Wang D (2000) Wet oxidation of PVA-containing desizing wastewater. Chin J Chem Eng 8:52–56
Lin SH, Lin CM (1993) Treatment of textile waste effluent by ozonation and chemical coagulation. Water Res 27:1743–1748
Papić S, Koprivanac N, Loncárić BozÄć A, Metes A (2004) Removal of some reactive dyes from synthetic wastewater by combined Al(III) coagulation/carbon adsorption process. Dyes Pigments 62:291–298
Furlan FR, Da Silva LGDM, Morgado AF, De Souza AAU, De Souza SMAGU (2010) Removal of reactive dyes from aqueous solutions using combined coagulation/flocculation and adsorption on activated carbon. Resour Conserv Recycl 54:283–290
Riera-Torres M, Gutiérrez-Bouzán C, Crespi M (2010) Combination of coagulation-flocculation and nanofiltration techniques for dye removal and water reuse in textile effluents. Desalination 252:53–59
Banerjee P, DasGupta S, De S (2007) Removal of dye from aqueous solution using a combination of advance oxidation process and nanofiltration. J Hazard Mater 140:95–103
Harrelkas F, Paulo A, Alves MM, El-Khadir L, Zahraa O, Pons MN, Van Der Zee FP (2008) Photocatalytic and combined anaerobic-photocatalytic treatment of textile dyes. Chemosphere 72:1816–1822
De Souza SMDAGU, Bonilla KAS, De Souza AAU (2010) Removal of COD and color from hydrolyzed textile azo dye by combined ozonation and biological treatment. J Hazard Mater 179:35–42
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© 2012 Springer Science+Business Media Dordrecht
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Teng, T.T., Low, L.W. (2012). Removal of Dyes and Pigments from Industrial Effluents. In: Sharma, S., Sanghi, R. (eds) Advances in Water Treatment and Pollution Prevention. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-4204-8_4
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