1. B. Riano, B. Molinuevo, M.C. Garcia-Gonzalez, Treatment of fish processing wastewater with microalgae-containing microbiota, Bioresour. Technol., 102 (2011) 10829–10833.
  2. L. Wei, N. Wei, R. Xia, Y. Xie, Starch Wastewater Treatment Method, Chinese patent: CN105461162A, 2016.
  3. S.S. Moghaddam, M.R.A. Moghaddam, Investigating the influence of elongated anaerobic feeding strategy on aerobic sludge granulation and characteristics in sequencing batch reactor, Water Sci. Technol., 70 (2014) 249–255.
  4. S. Wang, C. Liu, Q. Li, Impact of polymer flocculants on treated water quality in surface water treatment by coagulationmicrofiltration, Sep. Sci. Technol., 49 (2014) 682–690.
  5. J.C. Baudez, F. Markis, N. Eshtiaghi, P. Slatter, The rheological behaviour of anaerobic digested sludge, Water Res., 45 (2011) 5675–5680.
  6. S.S. Adav, D.-J. Lee, J.Y. Lai, Effects of aeration intensity on formation of phenol-fed aerobic granules and extracellular polymeric substances, Appl. Microbiol. Biotechnol., 77 (2007) 175–182.
  7. A. Cydzik-Kwiatkowska, K. Bernat, M. Zielinska, K. Bulkowska, I. Wojnowska-Baryla, Aerobic granular sludge for bisphenol A (BPA) removal from wastewater, Int. Biodeterior. Biodegrad., 122 (2017) 1–11.
  8. A. Iddou, M.S. Oouali, Study of the elimination of Cr(VI) using an activated sludge after application, Water Qual. Res. J. Can., 40 (2005) 184–190.
  9. Z. Xu, D. Wang, J. Wei, L. Tan, The experiment and engineering application of fine chemical wastwater trwatment with physiochemical - anaerobic - aerobic process, Water Sci. Technol., 41 (2015) 127–130.
  10. T. Suopajarvi, J.A. Sirvio, H. Liimatainen, Cationic nanocelluloses in dewatering of municipal activated sludge, J. Environ. Chem. Eng., 5 (2017) 86–92.
  11. S.K. Al-Dawery, Degree of flocculation and interparticles charges of conditioned municipal activated sludge using mixed polymers, J. Macromol. Sci. Part B Phys., 56 (2017) 578–594.
  12. M.B. Kurade, K. Murugesan, A. Selvam, S.-M. Yu, J.W.C. Wong, Ferric biogenic flocculant produced by Acidithiobacillus ferrooxidans enable rapid dewaterability of municipal sewage sludge: a comparison with commercial cationic polymer, Int. Biodeterior. Biodegrad., 96 (2015) 105–111.
  13. X. Li, H. Zheng, B. Gao, Y. Sun, B. Liu, C. Zhao, UV-initiated template copolymerization of AM and MAPTAC: microblock structure, copolymerization mechanism, and flocculation performance, Chemosphere, 167 (2017) 71–81.
  14. X. Liu, Q. Xu, D. Wang, Y. Wu, Q. Yang, Y. Liu, Q. Wang, X. Li, H. Li, G. Zeng, G. Yang, Unveiling the mechanisms of how cationic polyacrylamide affects short-chain fatty acids accumulation during long-term anaerobic fermentation of waste activated sludge, Water Res., 155 (2019) 142–151.
  15. X. Huang, J. Zhao, Q. Xu, X. Li, D. Wang, Q. Yang, Y. Liu, Z. Tao, Enhanced volatile fatty acids production from waste activated sludge anaerobic fermentation by adding tofu residue, Bioresour. Technol., 274 (2019) 430–438.
  16. R. Li, B. Gao, S. Sun, H. Wang, Y. Liu, Q. Yue, Y. Wang, Coagulation behavior and floc structure characteristics of cationic lignin-based polymer-polyferric chloride dual-coagulants under different coagulation conditions, RSC Adv., 5 (2015) 100030–100038.
  17. X. Li, Y. Zhang, X. Zhao, N. Gao, T. Fu, The characteristics of sludge from enhanced coagulation processes using PAC/ PDMDAAC composite coagulants in treatment of micropolluted raw water, Sep. Purif. Technol., 147 (2015) 125–131.
  18. Y. Zhang, X. Fu, Preparation Method of P (DMC-AM) with High Relative Molecular Mass and Serialized Cationic Degree, Chinese patent: CN109851712A, 2019.
  19. X. Fu, T. Chen, X. Xu, Y. Zhang, Thermal stability and decomposition kinetics of poly(methacryloyloxyethyl trimethyl ammonium chloride-co-acrylamide), J. Macromol. Sci. Part B Phys., 58 (2019) 659–672.
  20. L. Feng, S. Liu, H. Zheng, J. Liang, Y. Sun, S. Zhang, X. Chen, Using ultrasonic (US)-initiated template copolymerization for preparation of an enhanced cationic polyacrylamide (CPAM) and its application in sludge dewatering, Ultrason. Sonochem., 44 (2018) 53–63.
  21. Moepo, Water Quality-Determination of the Chemical Oxygen Demand-Dichromate Method, GB11914-89, China, 1989.
  22. W. Sun, G. Zhang, M. Su, H. Li, X. Lei, Synthesis, characterization, and flocculating properties of coply(AM-DAC) in water and wastewater treatment, Adv. Mater. Res., 396 (2012) 1369–1374.
  23. L. Tang, Y. Zhang, Research on the preparation of polymethacrylatoethylthimethyl ammonium chloride(PDMC), Fine Chem., 31 (2014) 46–56.
  24. J.L. Bisbal Tudela, F. Cresta, E. Celli, Cationic polymers for sludge dewatering, World Patent: WO2001025156A1, 2001.
  25. W. Chen, H. Zheng, Q. Guan, H. Teng, C. Zhao, C. Zhao, Fabricating a flocculant with controllable cationic microblock structure: characterization and sludge conditioning behavior evaluation, Ind. Eng. Chem. Res., 55 (2016) 2892–2902.
  26. T. Chen, X. Fu, Y. Zhang, C. Liu, X. Zhong, A novel way of dealing with waste sludge from poly-aluminum chloride (PAC) production, Desal. Water Treat., 151 (2019) 342–349.
  27. A.K. Prajapati, R. Choudhary, K. Verma, P.K. Chaudhari, A. Dubey, Decolorization and removal of chemical oxygen demand (COD) of rice grain-based biodigester distillery effluent (BDE) using inorganic coagulants, Desal. Water Treat., 53 (2013) 2204–2214.
  28. L. Lu, Z. Pan, N. Hao, W. Peng, A novel acrylamide-free flocculant and its application for sludge dewatering, Water Res., 57 (2014) 304–312.