References

  1. B. Acevedo, C. Camiña, J.E. Corona, L. Borrás, R. Barat, The metabolic versatility of PAOs as an opportunity to obtain a highly P-enriched stream for further P-recovery, Chem. Eng. J. 270 (2015) 459–467.
  2. J.-H. Lv, L.-J. Yuan, X. Chen, L. Liu, D.-C. Luo, Phosphorus metabolism and population dynamics in a biological phosphate-removal system with simultaneous anaerobic phosphate stripping, Chemosphere, 117C (2014) 715–721.
  3. H. Kodera, M. Hatamoto, K. Abe, T. Kindaichi, N. Ozaki, A. Ohashi, Phosphate recovery as concentrated solution from treated wastewater by a PAO-enriched biofilm reactor, Water Res., 47 (2013) 2025–2032.
  4. B. Valverde-Pérez, E. Ramin, B.F. Smets, B.G. Plósz, EBP2R – An innovative enhanced biological nutrient recovery activated sludge system to produce growth medium for green microalgae cultivation, Water Res., 68 (2015) 821–830.
  5. H.M. Zou, X.W. Lu, T. Li, Effect of side-stream phosphorus recovery on biological phosphorus removal performance investigated by chemical and microbial analyses in a novel BNR-IC process, Water Sci. Technol., (2014) 1441–1447.
  6. H. Zou, Y. Wang, Phosphorus removal and recovery from domestic wastewater in a novel process of enhanced biological phosphorus removal coupled with crystallization, Biores. Technol., 211 (2016) 87–92.
  7. R. Barat, M.C.M. van Loosdrecht, Potential phosphorus recovery in a WWTP with the BCFS process: interactions with the biological process., Water Res., 40 (2006) 3507–3516.
  8. M.C.M. van Loosdrecht, F. Brandse, A. De Vries, Upgrading of waste water treatment processes for integrated nutrient removal - the BCFS® process, Water Sci. Technol., 37 (1998) 209–217.
  9. M. Pijuan, A.M. Saunders, A. Guisasola, J.A. Baeza, C. Casas, L.L. Blackall, Enhanced biological phosphorus removal in a sequencing batch reactor using propionate as the sole carbon source., Biotechnol. Bioeng. 85 (2004) 56–67.
  10. Y. Zhou, M. Pijuan, R.J. Zeng, H. Lu, Z. Yuan, Could polyphosphate-accumulating organisms (PAOs) be glycogen-accumulating organisms (GAOs)?, Water Res., 42 (2008) 2361–2368.
  11. C. Tayà, A. Guisasola, J.A. Baeza, Assessment of a bioaugmentation strategy with polyphosphate accumulating organisms in a nitrification/denitrification sequencing batch reactor., Biores. Technol., 102 (2011) 7678–7684.
  12. A. Oehmen, Z. Yuan, L.L. Blackall, J. Keller, Comparison of acetate and propionate uptake by polyphosphate accumulating organisms and glycogen accumulating organisms., Biotechnol. Bioeng., 91 (2005) 162–168.
  13. M. Henze, W. Gujer, T. Mino, M.C.M. van Loosdrecht, Activated sludge models ASM1, ASM2, ASM2d and ASM3: Scientific and technical report No. 9., IWA Publishing, London, 2000.
  14. J. Guerrero, A. Guisasola, J.A. Baeza, The nature of the carbon source rules the competition between PAO and denitrifiers in systems for simultaneous biological nitrogen and phosphorus removal., Water Res., 45 (2011) 4793–4802.
  15. J. Guerrero, A. Guisasola, J. Comas, I. Rodríguez-Roda, J.A. Baeza, Multi-criteria selection of optimum WWTP control setpoints based on microbiology-related failures, effluent quality and operating costs, Chem. Eng. J., 188 (2012) 23–29.
  16. K.N. Ohlinger, T.M. Young, E.D. Schroeder, Predicting Struvite Formation in Digestion, 32 (1998).