References

  1. L. Cai, T.B. Chen, D. Gao, J. Yu, Bacterial communities and their association with the bio-drying of sewage sludge, Water Res., 90 (2016) 44–51.
  2. Q. Zhang, J. Hu, D.J. Lee, Y. Chang, Y.J. Lee, Sludge treatment: current research trends, Bioresour. Technol., 243 (2017) 1159–1172.
  3. S. Di Fraia, N. Massarotti, L. Vanoli, M. Costa, Thermoeconomic analysis of a novel cogeneration system for sewage sludge treatment, Energy, 115 (2016) 1560–1571.
  4. R. Külcü, O. Yaldiz, The composting of agricultural wastes and the new parameter for the assessment of the process, Ecol. Eng., 69 (2014) 220–225.
  5. P. Boniecki, J. Dach, W. Mueller, K. Koszela, J. Przybyl, K. Pilarski, T. Olszewski, Neural prediction of heat loss in the pig manure composting process, Appl. Therm. Eng., 58 (2013) 650–655.
  6. E.J. Scoton, R.A.G. Battistelle, B.S. Bezerra, J. Akutsu, A sewage sludge co-composting process using respirometric monitoring method in hermetic rotary reactor, J. Cleaner Prod., 121 (2016) 169–175.
  7. Y. Shen, T.B. Chen, D. Gao, G. Zheng, H. Liu, Q. Yang, Online monitoring of volatile organic compound production and emission during sewage sludge composting, Bioresour. Technol., 123 (2012) 463–470.
  8. J. Zhang, F. Lü, L. Shao, P. He, The use of biochar-amended composting to improve the humification and degradation of sewage sludge, Bioresour. Technol., 168 (2014) 252–258.
  9. B. Xi, X. He, Q. Dang, T. Yang, M. Li, X. Wang, D. Li, J. Tang, Effect of multi-stage inoculation on the bacterial and fungal community structure during organic municipal solid wastes composting, Bioresour. Technol., 196 (2015) 399–405.
  10. H.H. Zhang, J.S. Tian, Y.M. Zhang, Z.L. Wu, X.J. Kong, J.Y. Chao, Y. Hu, D.L. Li, Removal of phosphorus and nitrogen from domestic wastewater using a mineralized refuse-based bioreactor, Environ. Technol., 33 (2012) 173–181.
  11. J. Zhao, L. Gui, Q. Wang, Y. Liu, D. Wang, B.J. Ni, X. Li, R. Xu, G. Zeng, Q. Yang, Aged refuse enhances anaerobic digestion of waste activated sludge, Water Res., 123 (2017) 724–733.
  12. D. Zhu, C. Sun, H. Zhang, Z. Wu, B. Jia, Y. Zhang, Roles of vegetation, flow type and filled depth on livestock wastewater treatment through multi-level mineralized refuse-based constructed wetlands, Ecol. Eng., 39 (2012) 7–15.
  13. F. Yang, G.X. Li, Q.Y. Yang, W.H. Luo, Effect of bulking agents on maturity and gaseous emissions during kitchen waste composting, Chemosphere, 93 (2013) 1393–1399.
  14. L. Zhang, X. Sun, Changes in physical, chemical, and microbiological properties during the two-stage co-composting of green waste with spent mushroom compost and biochar, Bioresour. Technol., 171 (2014) 274–284.
  15. Y. Zhou, A. Selvam, J.W. Wong, Evaluation of humic substances during co-composting of food waste, sawdust and Chinese medicinal herbal residues, Bioresour. Technol., 168 (2014) 229–234.
  16. Z. Yu, X. Liu, M. Zhao, W. Zhao, J. Liu, J. Tang, H. Liao, Z. Chen, S. Zhou, Hyperthermophilic composting accelerates the humification process of sewage sludge: molecular characterization of dissolved organic matter using EEM–PARAFAC and two-dimensional correlation spectroscopy, Bioresour. Technol., 274 (2019) 198–206.
  17. D. Kulikowska, Kinetics of organic matter removal and humification progress during sewage sludge composting, Waste Manage., 49 (2016) 196–203.
  18. E. Lipczynska-Kochany, Humic substances, their microbial interactions and effects on biological transformations of organic pollutants in water and soil: a review, Chemosphere, 202 (2018) 420–437.
  19. L. El Fels, M. Zamama, A. El Asli, M. Hafidi, Assessment of biotransformation of organic matter during co-composting of sewage sludge-lignocellulosic waste by chemical, FTIR analyses, and phytotoxicity tests, Int. Biodeterior. Biodegrad., 87 (2014) 128–137.
  20. H. Zhang, J.E. Banaszak, P. Parameswaran, J. Alder, R. Krajmalnik-Brown, B.E. Rittmann, Focused-pulsed sludge pre-treatment increases the bacterial diversity and relative abundance of acetoclastic methanogens in a fullscale anaerobic digester, Water Res., 43 (2009) 4517–4526.
  21. W. Liu, R. Huo, J. Xu, S. Liang, J. Li, T. Zhao, S. Wang, Effects of biochar on nitrogen transformation and heavy metals in sludge composting, Bioresour. Technol., 235 (2017) 43–49.
  22. M.T. Chan, A. Selvam, J.W. Wong, Reducing nitrogen loss and salinity during ‘struvite’ food waste composting by zeolite amendment, Bioresour. Technol., 200 (2016) 838–844.
  23. M.K. Awasthi, A.K. Pandey, P.S. Bundela, J. Khan, Co-composting of organic fraction of municipal solid waste mixed with different bulking waste: characterization of physicochemical parameters and microbial enzymatic dynamic, Bioresour. Technol., 182 (2015) 200–207.
  24. R. Guo, G. Li, T. Jiang, F. Schuchardt, T. Chen, Y. Zhao, Y. Shen, Effect of aeration rate, C/N ratio and moisture content on the stability and maturity of compost, Bioresour. Technol., 112 (2012) 171–178.
  25. G. Gigliotti, P. Proietti, D. Said-Pullicino, L. Nasini, D. Pezzolla, L. Rosati, P.R. Porceddu, Co-composting of olive husks with high moisture contents: organic matter dynamics and compost quality, Int. Biodeterior. Biodegrad., 67 (2012) 8–14.
  26. M.A. Chowdhury, A. de Neergaard, LS. Jensen, Potential of aeration flow rate and bio-char addition to reduce greenhouse gas and ammonia emissions during manure composting, Chemosphere, 97 (2014) 16–25.
  27. Test Methods for the Examination of Composts and Composting (TMECC), W. Thompson, P. Leege, P. Millner, M.E. Watson Eds., The US Composting Council, US Government Printing Office, 2002, Available at: http://tmecc.org/tmecc/index.html.
  28. W. Czekala, K. Malinska, R. Caceres, D. Janczak, J. Dach, A. Lewicki, Co-composting of poultry manure mixtures amended with biochar-the effect of biochar on temperature and C-CO2 emission, Bioresour. Technol., 200 (2016) 921–927.
  29. J. Zeng, H. Yin, X. Shen, N. Liu, J. Ge, L. Han, G. Huang, Effect of aeration interval on oxygen consumption and GHG emission during pig manure composting, Bioresour. Technol., 250 (2018) 214–220.
  30. S.M. Tiquia, N.F.Y.T.I.J. Hodgkiss, Effects of composting on phytotoxicity of spent pig-manure sawdust litter, Environ. Pollut., 93 (1996) 249–256.