Microbial degradation of polyacrylamide by aerobic granules

Environmental Technology

Volumn 33, Issue 9, 2012, Pages 1049-1054

  Liu, Lili ^a   Wang, Zhiping ^b   Lin, Kuangfei ^a   Cai, Weimin ^b  

^a EAST CHINA UNIVERSITY OF SCIENCE AND TECHNOLOGY   (China)

^b SHANGHAI JIAO TONG UNIVERSITY   (China)

Author keywords

Acclimation; Granules; Polyacrylamide; Sequencing batch reactor

Indexed keywords

ACTIVATED SLUDGE PROCESS; AMIDES; BIODEGRADATION; DEGRADATION; GLUCOSE; GRANULAR MATERIALS; ORGANIC ACIDS; POLYACRYLATES; TERTIARY RECOVERY;

ACCLIMATION; ACCLIMATION PERIOD; ACRYLAMIDE MONOMERS; AEROBIC GRANULES; AMIDE GROUPS; BATCH EXPERIMENTS; BIOMASS DENSITY; DEGRADATION RATE; GRANULAR SLUDGE; GRANULES; HYDRAULIC RETENTION TIME; LOW MOLECULAR WEIGHT; MEAN DIAMETER; MICROBIAL DEGRADATION; POLYACRYLAMIDES; POLYACRYLIC ACIDS; SEQUENCING BATCH REACTORS; SIX-PHASE; SOLE CARBON; TERTIARY OIL RECOVERY;

GRANULATION;

ACRYLAMIDE; AMIDE; CARBON; GLUCOSE; MONOMER; NITROGEN; POLYACRYLAMIDE; POLYACRYLIC ACID;

BIODEGRADATION; BIOREACTOR; CARBON; HYDROLYSIS; MICROBIAL ACTIVITY; NITROGEN; OXIC CONDITIONS; WASTE TREATMENT; WASTEWATER;

ACCLIMATIZATION; ARTICLE; BIODEGRADATION; HYDROLYSIS; LIQUID CHROMATOGRAPHY; MASS SPECTROMETRY; MICROBIAL DEGRADATION; MOLECULAR WEIGHT; NONHUMAN; SEQUENCING BATCH REACTOR; SLUDGE; WASTE WATER;

EID: 84860759737     PISSN: 09593330     EISSN: 1479487X     Source Type: Journal    
DOI: 10.1080/09593330.2011.606846     Document Type: Article

References (23)

1. K.C. Taylor, R.A. Burke, H.A. Nasr-El-Din, and L.L. Schramm, Development of a flow injection analysis method for the determination of acrylamide copolymers in brines, J. Petrol. Sci. Eng. 21(1998), pp. 129-139. (Pubitemid 29020748)
2. S.B. Deng, R.B. Bai, J.P. Chen, G. Yu, Z.P. Jiang, and F.S. Zhou, Effects of alkaline/surfactant/polymer on stability of oil droplets in produced water from ASP flooding, Colloids Surf. A 211(2002), pp. 275-284. (Pubitemid 35305025)
3. Anonymous, Farm Chemical Handbook, Meister,Willoughby, OH, 1991.
4. J.L. Kay-Shoemake, M.E. Watwood, R.D. Lentz, and R.E. Sojka, Polyacrylamide as an organic nitrogen source for soil microorganisms with potential effects on inorganic soil nitrogen in agricultural soil, Soil Biol. Biochem. 30 (1998), pp. 1045-1052. (Pubitemid 28329527)
5. J.L. Kay-Shoemake, M.E. Watwood, R.E. Sojka, and R.D. Lentz, Polyacrylamide as a substrate for microbial amidase in culture and soil, Soil Biol. Biochem. 30 (1998), pp. 1647-1654. (Pubitemid 28362273)
6. M.T. Bao, Q.G. Chen, Y.M. Li, and G.C. Jiang, Biodegradation of partially hydrolyzed polyacrylamide by bacteria isolated from production water after polymer flooding in an oil field, J. Hazard. Mater. 184 (2010), pp. 105-110.
7. F. Ma, L.Wei, L.Wang, and C.C. Chang, Isolation and identification of the sulphatere-reducing bacteria strain H1 and its function for hydrolysed polyacrylamide degradation, Int. J. Biotechnol. 10 (2008), pp. 55-63. (Pubitemid 351600155)
8. Q.X. Wen, Z.Q. Chen, Y. Zhao, H.C. Zhang, and Y.J. Feng, Biodegradation of polyacrylamide by bacteria isolated from activated sludge and oil-contaminated soil, J. Hazard. Mater. 175 (2010), pp. 955-959.
9. H.L. Jiang, J.H. Tay, and S.T.L. Tay, Aggregation of immobilized activated sludge cells into aerobically grown microbial granules for the aerobic biodegradation of phenol, Lett. Appl. Microbiol. 35 (2002), pp. 439-445.
10. S. Yi, W.Q. Zhuang, B. Wu, S.T.L. Tay, and J.H. Tay, Biodegradation of p-nitrophenol by aerobic granules in a sequencing batch reactor, Environ. Sci. Technol. 40 (2006), pp. 2396-2401.
11. Y.V. Nancharaiah, N. Schwarzenbeck, T.V.K. Mohan, S.V. Narasimhan, P.A. Wilderer, and V.P. Venugopalan, Biodegradation of nitrilotriacetic acid (NTA) and ferric-NTA complex by aerobic microbial granules, Water Res. 40 (2006), pp. 1539-1546.
12. L.L. Zhang, J.M. Chen, and F. Fang, Biodegradation of methyl t-butyl ether by aerobic granules, Appl. Microbiol. Biotechnol. 78 (2008), pp. 543-550.
13. B. Arrojo, A. Mosquera-Corral, J.M. Garrido, and R. Mendez, Aerobic granulation with industrial wastewater in sequencing batch reactors,Water Res. 38 (2004), pp. 3389-3399. (Pubitemid 38987718)
14. H.L. Jiang, J.H. Tay, and S.T.L. Tay, Changes in structure, activity and metabolism of aerobic granules as a microbial response to high phenol loading, Appl. Microbiol. Biotechnol. 63 (2004), pp. 602-608.
15. Y. Liu and J.H.Tay, State of the art of biogranulation technology for wastewater treatment, Biotechnol. Adv. 22 (2004), pp. 533-563. (Pubitemid 40047452)
16. L.L. Liu, Z.P. Wang, J. Yao, X.J. Sun, and W.M. Cai, Investigation on the properties and kinetics of glucosefed aerobic granular sludge, Enzyme Microb. Technol. 36 (2005), pp. 307-313. (Pubitemid 40039087)
17. J.J. Beun, A. Hendriks, M.C.M. van Loosdrecht, E. Morgenroth, P.A. Wilderer, and J.J. Heijnen, Aerobic granulation in a sequencing batch reactor, Water Res. 33 (1999), pp. 2283-2290. (Pubitemid 29281054)
18. APHA, AWWA, and WEF, Standard Methods for the Examination of Water and Wastewater, 19th ed., American Public Health Association, Washington, DC, 1995.
19. M.W. Scoggins and J.W. Miller, Spectrophotometric determination of water soluble organic amides, Anal. Chem. 47 (1975), pp. 152-154.
20. B.Y.P. Moy, J.H. Tay, S.K. Toh, Y. Liu, and S.T.L. Tay, High organic loading influences the physical characteristics of aerobic sludge granules, Lett. Appl. Microbiol. 34 (2002), pp. 407-412. (Pubitemid 34534227)
21. K. Nakamiya and S. Kinoshita, Isolation of polyacrylamidedegrading bacteria, J. Ferment. Bioeng. 80 (1995), pp. 418-420.
22. J.P. Eubeler, M. Bernhard, S. Zok, and T.P. Knepper, Environmental biodegradation of synthetic polymers I. Test methodologies and procedures, TrAC, Trends Anal. Chem. 28 (2009), pp. 1057-1072.
23. J.P. Eubeler, M. Bernhard, and T.P. Knepper, Environmental biodegradation of synthetic polymers II. Biodegradation of different polymer groups, TrAC Trends Anal. Chem. 29 (2010), pp. 84-100.