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Drying Technology
An International Journal
Volume 33, 2015 - Issue 10
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Original Articles

The Effects of Different Mechanical Turning Regimes on Heat Changes and Evaporation During Sewage Sludge Biodrying

Lu CaiFaculty of Architectural, Civil Engineering and Environment, Ningbo University, Ningbo, China;Center for Environmental Remediation, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing, ChinaCorrespondence[email protected] [email protected]
,
Ding GaoCenter for Environmental Remediation, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing, ChinaCorrespondence[email protected] [email protected]
&
Nian HongGraduate School of Science and Technology, Kumamoto University, Kumamoto, Japan
Pages 1151-1158 | Published online: 21 May 2015

REFERENCES

  • Dodane, P.H.; Mbéguéré, M.; Sow, O.; Strande, L. Capital and operating costs of full-scale fecal sludge management and wastewater treatment systems in Dakar, Senegal. Environmental Science & Technology 2012, 46(7), 3705–3711.
  • Bennamoun, L.; Fraikin, L.; Léonard, A. Modeling and simulation of heat and mass transfer during convective drying of wastewater sludge with introduction of shrinkage phenomena. Drying Technology 2014, 32(1), 13–22.
  • Novak, J.T. Dewatering of sewage sludge. Drying Technology 2006, 24(10), 1257–1262.
  • Tunçal, T.; Jangam, S.V.; Güneş, E. Abatement of organic pollutant concentrations in residual treatment sludges: A review of selected treatment technologies including drying. Drying Technology 2011, 29(14), 1601–1610.
  • Navaee-Ardeh, S.; Bertrand, F.; Stuart, P.R. Key variables analysis of a novel continuous biodrying process for drying mixed sludge. Bioresource Technology 2010, 101(10), 3379–3387.
  • Dominczyk, A.; Krzystek, L.; Ledakowicz, S. Biodrying of organic municipal wastes and residues from pulp and paper industry. Drying Technology 2014, 32(11), 1297–1303.
  • Chen, G.; Lock Yue, P.; Mujumdar, A.S. Sludge dewatering and drying. Drying Technology 2002, 20(4–5), 883–916.
  • Velis, C.; Longhurst, P.; Drew, G.H.; Smith, R.; Pollard, S.J.T. Biodrying for mechanical–biological treatment of wastes: A review of process science and engineering. Bioresource Technology 2009, 100(11), 2747–2761.
  • Cai, L.; Gao, D.; Chen, T.B.; Liu, H.T.; Zheng, G.D.; Yang, Q.W. Moisture variation associated with water input and evaporation during sewage sludge bio-drying. Bioresource Technology 2012, 117, 13–19.
  • Winkler, M.-K.H.; Bennenbroek, M.H.; Horstink, F.H.; van Loosdrecht, M.C.M.; van de Pol, G.-J. The biodrying concept: An innovative technology creating energy from sewage sludge. Bioresource Technology 2013, 147, 124–129.
  • Rada, E.C.; Ragazzi, M.; Badea, A. MSW Bio-drying: Design criteria from a 10 years research. UPB Scientific Bulletin, Series D 2012, 74(3), 209–216.
  • Zhang, J.; Gao, D.; Chen, T.B.; Zheng, G.D.; Chen, J.; Ma, C.; Guo, S.L.; Du, W. Simulation of substrate degradation in composting of sewage sludge. Waste Management 2010, 30(10), 1931–1938.
  • Navaee-Ardeh, S.; Bertrand, F.; Stuart, P.R. Development and experimental evaluation of a 1D distributed model of transport phenomena in a continuous biodrying process for pulp and paper mixed sludge. Drying Technology 2011, 29(2), 135–152.
  • Viganò, F.; Consonni, S.; Ragazzi, M.; Rada, E.C. A model for mass and energy balances of bio-drying. In Proceedings of 19th Annual North American Waste-to-Energy Conference, Lancaster, PA, May 16–18, 2011.
  • Ragazzi, M.; Rada, E.C.; Panaitescu, V.; Apostol, T. Municipal solid waste pre-treatment: A comparison between two dewatering options. WIT Transactions on Ecology and the Environment 2007, 102, 943–949.
  • Turan, N.G.; Ergun, O.N. The effects of aeration modifications on municipal solid waste composting. Fresenius Environmental Bulletin 2008, 17(7A), 778–785.
  • Zhang, D.Q.; He, P.J.; Jin, T.F.; Shao, L.M. Bio-drying of municipal solid waste with high water content by aeration procedures regulation and inoculation. Bioresource Technology 2008, 99(18), 8796–8802.
  • Zhao, L.; Gu, W.M.; He, P.J.; Shao, L.M. Effect of air-flow rate and turning frequency on bio-drying of dewatered sludge. Water Research 2010, 44(20), 6144–6152.
  • Rada, E.C.; Ragazzi, M.; Villotti, S.; Torretta, V. Sewage sludge drying by energy recovery from OFMSW composting: Preliminary feasibility evaluation. Waste Management 2014, 34(5), 859–866.
  • Navaee-Ardeh, S.; Bertrand, F.; Stuart, P.R. Emerging biodrying technology for the drying of pulp and paper mixed sludges. Drying Technology 2006, 24(7), 863–878.
  • Cai, L.; Chen, T.B.; Gao, D.; Zheng, G.D.; Liu, H.T.; Pan, T.H. Influence of forced air volume on water evaporation during sewage sludge bio-drying. Water Research 2013, 47(13), 4767–4773.
  • Pujol, A.; Debenest, G.; Pommier, S.; Quintard, M.; Chenu, D. Modeling composting processes with local equilibrium and local non-equilibrium approaches for water exchange terms. Drying Technology 2011, 29(16), 1941–1953.
  • Ogunwande, G.A.; Osunade, J.A.; Adekalu, K.O.; Ogunjimi, L.A.O. Nitrogen loss in chicken litter compost as affected by carbon to nitrogen ratio and turning frequency. Bioresource Technology 2008, 99(16), 7495–7503.
  • Kalamdhad, A.S.; Kazmi, A.A. Effects of turning frequency on compost stability and some chemical characteristics in a rotary drum composter. Chemosphere 2009, 74(10), 1327–1334.
  • Stanford, K.; Hao, X.; Xu, S.; McAllister, T.A.; Larney, F.; Leonard, J.J. Effects of age of cattle, turning technology and compost environment on disappearance of bone from mortality compost. Bioresource Technology 2009, 100(19), 4417–4422.
  • Hong, N.; Chen, J.; Gao, D.; Chen, T.B.; Zhang, X.H.; Cai, L. Enhanced water reduction by turning during sewage sludge composting. Journal of Chemical Technology and Biotechnology 2014, 89(5), 756–762.
  • Cukjati, N.; Zupančič, G.D.; Roš, M.; Grilc, V. Composting of anaerobic sludge: An economically feasible element of a sustainable sewage sludge management. Journal of Environmental Management 2012, 106, 48–55.
  • Awasthi, M.K.; Pandey, A.K.; Bundela, P.S.; Wong, J.W.; Selvam, A. Evaluation of thermophilic fungal consortium for organic municipal solid waste composting. Bioresource Technology 2014, 168, 214–221.
  • Shao, L.; Wang, T.; Zhao, L.; Wang, G.; Lü, F.; He, P. The effect of adding straw on the natural solar sludge drying. Drying Technology 2015, 33(4), 414–419.
  • Yang, B.; Zhang, L.; Jahng, D. Importance of initial moisture content and bulking agent for biodrying sewage sludge. Drying Technology 2014, 32(2), 135–144.
  • Chen, J.; Chen, T.B.; Gao, D.; Lei, M.; Zheng, G.D.; Liu, H.T.; Guo, S.L.; Cai, L. Reducing H2S production by O2 feedback control during large-scale sewage sludge composting. Waste Management 2011, 31(1), 65–70.
  • Chen, T.B.; Gao, D.; Huang, Z.C. Sludge Composting Automatic Control Software, V2.0; China Copyright No. SR0529, 2001 (in Chinese).
  • U.S. Environmental Protection Agency. Standards for the Use or Disposal of Sewage Sludge; 40 CFR PART 503; U.S. Environmental Protection Agency: Washington, DC, 1993.
  • U.S. Department of Agriculture; U.S. Composting Council. Test Methods for the Examination of Composting and Compost; Edaphos International: Houston, TX, 2001.
  • Li, H.; Yuan, X.; Zeng, G.; Huang, D.; Huang, H.; Tong, J.; You, Q.; Zhang, J.; Zhou, M. The formation of bio-oil from sludge by deoxy-liquefaction in supercritical ethanol. Bioresource Technology 2010, 101, 2860–2866.
  • Choi, H.L.; Richard, T.L.; Ahn, H.K. Composting high moisture materials: Biodrying poultry manure in a sequentially fed reactor. Compost Science & Utilization 2001, 9(4), 303–311.
  • He, P.J.; Zhao, L.; Zheng, W.; Wu, D.; Shao, L.M. Energy balance of a biodrying process for organic wastes of high moisture content: A review. Drying Technology 2013, 31(2), 132–145.
  • Zambra, C.E.; Rosales, C.; Moraga, N.O.; Ragazzi, M. Self-heating in a bioreactor: Coupling of heat and mass transfer with turbulent convection. International Journal of Heat and Mass Transfer 2011, 54(23–24), 5077–5086.
  • Rada, E.C.; Franzinelli, A.; Taiss, M.; Ragazzi M.; Panaitescu, V.; Apostol, T. Lower heating value dynamics during municipal solid waste bio-drying. Environmental Technology 2007, 28(4), 463–469.
  • Arlabosse, P.; Chavez, S.; Prevot, C. Drying of municipal sewage sludge: From a laboratory scale batch indirect dryer to the paddle dryer. Brazilian Journal of Chemical Engineering 2005, 22(2), 227–232.
  • Haug, R.T. The Practical Handbook of Compost Engineering; Lewis Publishers: Boca Raton, FL, 1993.
  • Zhao, L.; Gu, W.; Shao, L.; He, P. Sludge bio-drying process at low ambient temperature: effect of bulking agent particle size and controlled temperature. Drying Technology 2012, 30(10), 1037–1044.

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