A novel membrane-based integrated process for fractionation and reclamation of dairy wastewater

Chemical Engineering Journal

Volumn 313, Issue , 2017, Pages 1061-1070

  Chen, Zhiwei ^a,b   Luo, Jianquan ^a   Wang, Yujue ^a,b   Cao, Weifeng ^a   Qi, Benkun ^a   Wan, Yinhua ^a  

^a INSTITUTE OF PROCESS ENGINEERING   (China)

^b UNIVERSITY OF CHINESE ACADEMY OF SCIENCES   (China)

Author keywords

Lactic acid fermentation; Membrane fouling; Nanofiltration; Process integration; Retentate disposal; Wastewater recycling

Indexed keywords

FERMENTATION; LACTIC ACID; MEMBRANE FOULING; MEMBRANES; NANOFILTRATION; PILOT PLANTS; PROTEINS; SLUDGE DISPOSAL; SUGARS; WASTEWATER DISPOSAL; WASTEWATER TREATMENT; WATER FILTRATION;

CONCENTRATION POLARIZATION; FERMENTATION PROCESS; IRREVERSIBLE FOULING; ISOELECTRIC PRECIPITATION; LACTIC ACID FERMENTATION; PROCESS INTEGRATION; RETENTATE; WASTEWATER RECYCLING;

WASTEWATER RECLAMATION;

EID: 85010733359     PISSN: 13858947     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cej.2016.10.134     Document Type: Article

References (35)

1. [1] International Dairy Federation, The World Dairy Situation, in: Dairy Policies and Economics Conference at the IDF World Dairy Summit, Vilnius, Lithuania, 2015.
2. [2] Kushwaha, J.P., Srivastava, V.C., Mall, I.D., An overview of various technologies for the treatment of dairy wastewaters. Crit. Rev. Food Sci. Nutr. 51 (2011), 442–452.
3. [3] Rico, C., Munoz, N., Fernandez, J., Rico, J.L., High-load anaerobic co-digestion of cheese whey and liquid fraction of dairy manure in a one-stage UASB process: limits in co-substrates ratio and organic loading rate. Chem. Eng. J. 262 (2015), 794–802.
4. [4] Chan, Y.J., Chong, M.F., Law, C.L., Hassell, D.G., A review on anaerobic–aerobic treatment of industrial and municipal wastewater. Chem. Eng. J. 155 (2009), 1–18.
5. [5] Appels, L., Baeyens, J., Degrève, J., Dewil, R., Principles and potential of the anaerobic digestion of waste-activated sludge. Prog. Energy Combust. Sci. 34 (2008), 755–781.
6. [6] Adhikari, U., Harrigan, T., Reinhold, D.M., Use of duckweed-based constructed wetlands for nutrient recovery and pollutant reduction from dairy wastewater. Ecol. Eng. 78 (2015), 6–14.
7. [7] Passero, M.L., Cragin, B., Hall, A.R., Staley, N., Coats, E.R., McDonald, A.G., Feris, K., Ultraviolet radiation pre-treatment modifies dairy wastewater, improving its utility as a medium for algal cultivation. Algal Res. 6 (2014), 98–110.
8. [8] Luo, J., Ding, L., Qi, B., Jaffrin, M.Y., Wan, Y., A two-stage ultrafiltration and nanofiltration process for recycling dairy wastewater. Bioresour. Technol. 102 (2011), 7437–7442.
9. [9] Nataraj, S.K., Hosamani, K.M., Aminabhavi, T.M., Distillery wastewater treatment by the membrane-based nanofiltration and reverse osmosis processes. Water Res. 40 (2006), 2349–2356.
10. [10] Nataraj, S.K., Hosamani, K.M., Aminabhavi, T.M., Electrodialytic removal of nitrates and hardness from simulated mixtures using ion-exchange membranes. J. Appl. Polym. Sci. 99 (2006), 1788–1794.
11. [11] Nataraj, S.K., Hosamani, K.M., Aminabhavi, T.M., Nanofiltration and reverse osmosis thin film composite membrane module for the removal of dye and salts from the simulated mixtures. Desalination 249 (2009), 12–17.
12. [12] Chen, Z., Luo, J., Chen, X., Hang, X., Shen, F., Wan, Y., Fully recycling dairy wastewater by an integrated isoelectric precipitation–nanofiltration–anaerobic fermentation process. Chem. Eng. J. 283 (2016), 476–485.
13. [13] Nataraj, S.K., Hosamani, K.M., Aminabhavi, T.M., Potential application of an electrodialysis pilot plant containing ion-exchange membranes in chromium removal. Desalination 217 (2007), 181–190.
14. [14] Wen-Wei, L., Han-Qing, Y., Rittmann, B.E., Chemistry: reuse water pollutants. Nature 528 (2015), 29–31.
15. [15] Aydiner, C., Sen, U., Topcu, S., Ekinci, D., Altinay, A.D., Koseoglu-Imer, D.Y., Keskinler, B., Techno-economic viability of innovative membrane systems in water and mass recovery from dairy wastewater. J. Membr. Sci. 458 (2014), 66–75.
16. [16] Luo, J., Ding, L., Wan, Y., Paullier, P., Jaffrin, M.Y., Application of NF-RDM (nanofiltration rotating disk membrane) module under extreme hydraulic conditions for the treatment of dairy wastewater. Chem. Eng. J. 163 (2010), 307–316.
17. [17] Gu, J.S., Yu, H.Y., Huang, L., Tang, Z.Q., Li, W., Zhou, J., Yan, M.G., Wei, X.W., Chain-length dependence of the antifouling characteristics of the glycopolymer-modified polypropylene membrane in an SMBR. J. Membr. Sci. 326 (2009), 145–152.
18. [18] Van der Bruggen, B., Kim, J.H., DiGiano, F.A., Geens, J., Vandecasteele, C., Influence of MF pretreatment on NF performance for aqueous solutions containing particles and an organic foulant. Sep. Purif. Technol. 36 (2004), 203–213.
19. [19] Nataraj, S.K., Sridhar, S., Shaikha, I.N., Reddy, D.S., Aminabhavi, T.M., Membrane-based microfiltration/electrodialysis hybrid process for the treatment of paper industry wastewater. Sep. Purif. Technol. 57 (2007), 185–192.
20. [20] Agler, M.T., Wrenn, B.A., Zinder, S.H., Angenent, L.T., Waste to bioproduct conversion with undefined mixed cultures: the carboxylate platform. Trends Biotechnol. 29 (2011), 70–78.
21. [21] Patrascu, M., Sheintuch, M., On-site pure hydrogen production by methane steam reforming in high flux membrane reactor: experimental validation, model predictions and membrane inhibition. Chem. Eng. J. 262 (2015), 862–874.
22. [22] Zhang, Y., Chen, X., Luo, J., Qi, B., Wan, Y., An efficient process for lactic acid production from wheat straw by a newly isolated Bacillus coagulans strain IPE22. Bioresour. Technol. 158 (2014), 396–399.
23. [23] Bradford, M.M., A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal. Biochem. 72 (1976), 248–254.
24. [24] Kelly, S.T., Zydney, A.L., Protein fouling during microfiltration: comparative behavior of different model proteins. Biotechnol. Bioeng. 55 (1997), 91–100.
25. [25] Wang, Y.-N., Tang, C.Y., Protein fouling of nanofiltration, reverse osmosis, and ultrafiltration membranes—the role of hydrodynamic conditions, solution chemistry, and membrane properties. J. Membr. Sci. 376 (2011), 275–282.
26. [26] Wei, D., Tao, Y., Zhang, Z., Zhang, X., Effect of pre-ozonation on mitigation of ceramic UF membrane fouling caused by algal extracellular organic matters. Chem. Eng. J. 294 (2016), 157–166.
27. [27] Harisha, R.S., Hosamani, K.M., Keri, R.S., Nataraj, S.K., Aminabhavi, T.M., Arsenic removal from drinking water using thin film composite nanofiltration membrane. Desalination 252 (2010), 75–80.
28. [28] Kulozik, U., Kessler, H., The kinetics of the formation of a deposited layer during the reverse osmosis of skim milk. J. Membr. Sci. 54 (1990), 13–27.
29. [29] Acero, J.L., Benitez, F.J., Real, F.J., Teva, F., Micropollutants removal from retentates generated in ultrafiltration and nanofiltration treatments of municipal secondary effluents by means of coagulation, oxidation, and adsorption processes. Chem. Eng. J. 289 (2015), 48–58.
30. [30] Wang, X.-X., Wu, Y.-H., Zhang, T.-Y., Xu, X.-Q., Dao, G.-H., Hu, H.-Y., Simultaneous nitrogen, phosphorous, and hardness removal from reverse osmosis concentrate by microalgae cultivation. Water Res. 94 (2016), 215–224.
31. [31] Elakkiya, E., Matheswaran, M., Comparison of anodic metabolisms in bioelectricity production during treatment of dairy wastewater in microbial fuel cell. Bioresour. Technol. 136 (2013), 407–412.
32. [32] Amulya, K., Reddy, M.V., Rohit, M.V., Mohan, S.V., Wastewater as renewable feedstock for bioplastics production: understanding the role of reactor microenvironment and system pH. J. Clean. Prod. 112 (2015), 4618–4627.
33. [33] Suárez, A., Fernández, P., Iglesias, J.R., Iglesias, E., Riera, F.A., Cost assessment of membrane processes: a practical example in the dairy wastewater reclamation by reverse osmosis. J. Membr. Sci. 493 (2015), 389–402.
34. [34] Buntner, D., Sánchez, A., Garrido, J.M., Feasibility of combined UASB and MBR system in dairy wastewater treatment at ambient temperatures. Chem. Eng. J. 230 (2013), 475–481.
35. [35] Andrade, L.H., Mendes, F.D.S., Espindola, J.C., Amaral, M.C.S., Nanofiltration as tertiary treatment for the reuse of dairy wastewater treated by membrane bioreactor. Sep. Purif. Technol. 126 (2014), 21–29.