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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 610-613Brief Analysis of the Sludge Bio-Drying Process

Brief Analysis of the Sludge Bio-Drying Process

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Abstract:

Bio-drying reduces the moisture content of sludge without other external energy consumption, this paper introduced the microbiological aspect of a bio-drying process ,and state briefly about the suitable scope of oxygen supply ,C/N ratio, pH of biomass and moisture content for a optimal heat generation.

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Progress in Environmental Science and Engineering

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Periodical:

Advanced Materials Research (Volumes 610-613)

Pages:

169-172

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.610-613.169

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Online since:

December 2012

Authors:

Hui Fen Zou, Ying Chao Fei, Lei Zhao, Jin Xiang Fu

Keywords:

Bio-Drying, Influencing Factor, Microbiological Aspect

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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[1] TANG Mingxing, on status of sludge in urban sewage treatment plant and its treatment strategy [J]. SHANXI ARCHITECTURE, 2009, 37 (14):54-60.

[2] Navaee-Ardeh, S.; Bertrand, F.; Stuart, P.R, Emerging biodrying technology for the drying of pulp and paper mixed sludge [J]. Drying Technology, 2006, 24 (7):863–878.

DOI: 10.1080/07373930600734026

[3] Ilic, M., and Turner, .I.W., Drying of a Wet Porous Material [J]. Applied Mathematical Modeling, 1996, 10: 16-24.

[4] Chen Qunyu, The current situation of biodrying in sewage sludge [J].China resources comprehensive utilization, 2010, 29(2) 64-67.

[5] S.A. Channiwala,P.Parikh, A unified correlation for estimating HHV of solid, liquid and gaseous fuels [J] .Fuel, 2002, 81 :1051-1063

DOI: 10.1016/s0016-2361(01)00131-4

[6] Mitchell David A, Tongta A, Stuart D M. The potential for establishment of axial temperature profiles during solid-state fermentation in rotating drum bioreactors [J]. Biotechnology and Bioengineering, 2002, 80(1) ：114-122.

DOI: 10.1002/bit.10356

[7] Richard, T.L., Veeken, A.H.M., De Wilde, V., and Hamelers, Air-filled porosity and permeability relationships during solid-state fermentation [J]. Biotechnology Progress, 2004, 20: 1372–1381.

DOI: 10.1021/bp0499505

[8] Frei, K.M., Cameron, D., Stuart, P.R, Novel drying process using forced aeration through a porous biomass matrix[J],Drying Technology,2004,22(5):1191-1215.

DOI: 10.1081/drt-120038587

[9] Navaee-Ardeh, S., Bertrand, F., and Stuart, P.R. Development and experimental evaluation of a 1-D distributed model of transport phenomena in a continuous biodrying process for pulp and paper mixed sludge[J]. Drying Technology.2009, 10:321-330.

DOI: 10.1080/07373937.2010.482723

[10] Shizas, I, Bagley, D. M, Experimental Determination of Energy Content of UnknownOrganics in Municipal Wastewater Streams [J], Energy. Eng. 2004, 130:45-53.

DOI: 10.1061/(asce)0733-9402(2004)130:2(45)

[11] S. Navaee-Ardeh, F. Bertrand and P.R. Stuart , Modeling and Experimental Verification of a Novel Biodrying Process for Drying Pulp and Paper Sludge .The 4th Inter-American Drying Conference in 8th World Chemical Engineering Conference 2009.

DOI: 10.1080/07373937.2010.482723

[12] Bari, Q.H., Koenig, A., and Guihe, T, Kinetic analysis of forced aeration composting: I. Reaction rates and temperature [J], Waste Management & Research, 2008, 18(4):303-312.

DOI: 10.1034/j.1399-3070.2000.00114.x

[13] Perry, R. H. and Green, D. W, Perry's chemical engineers' handbook. 6th edition, 2006, McGraw-Hill, USA.

[14] Haug, R.T. The Practical Handbook of Compost Engineering. 1st edition, Lewis Publishers, Boca Raton, 1993, FL, USA.

[15] Fugere, M., Farand, P., Chabot, R., Stuart, P.R. Design and techno-economic analysis of a process for transforming pig manure into a value-added product [J]. The Canadian Journal of Chemical Engineering, 2007, 85(6):360-368.

DOI: 10.1002/cjce.5450850311

[16] Nakayama, A., Nanasaki, K., Kuwahara, F., and Sano, Y. A lumped parameter heat transfer analysis for composting processes with aeration [J]. Transactions of the ASME, 2007, 129(7): 902-906.

DOI: 10.1115/1.2712858

[17] Prud'homme, M. and Jasmin, S. Inverse solution for a biochemical heat source in a porous medium in the presence of natural convection [J]. Chemical Engineering Science, 2006, 61:1667-1675.

DOI: 10.1016/j.ces.2005.10.001

[18] Roy, G., Jasmin, S. Technical modeling of a batch biodrying reactor for pulp and paper mill sludge. In: 17th CHISA International Congress of Chemical and Process Engineering, 2006, Prague, Czech Republic.