Key variables analysis of a novel continuous biodrying process for drying mixed sludge.

A novel continuous biodrying process has been developed whose goal is to increase the dry solids content of the sludge to economic levels rendering it suitable for a safe and economic combustion operation in a biomass boiler. The sludge drying rates are enhanced by the metabolic bioheat produced in the matrix of mixed sludge. The goal of this study was to systematically analyze the continuous biodrying reactor. By performing a variable analysis, it was found that the outlet relative humidity profile was the key variable in the biodrying reactor. The influence of different outlet relative humidity profiles was then evaluated using biodrying efficiency index. It was found that by maintaining the air outlet relative humidity profile at 85/85/96/96% in the four compartments of the reactor, the highest biodrying efficiency index can be achieved, while economic dry solids level (>45%w/w) are guaranteed.

[1]  T. Kudra,et al.  DRYING OF PULP AND PAPER SLUDGE IN A PULSED FLUID BED DRYER , 2002 .

[2]  David F. Ollis,et al.  Biochemical Engineering Fundamentals , 1976 .

[3]  D. McCartney,et al.  Effect of C:N Ratio on Microbial Activity and N Retention: Bench-scale Study Using Pulp and Paper Biosolids , 2000 .

[4]  F. Bertrand,et al.  Development and Experimental Evaluation of a 1D Distributed Model of Transport Phenomena in a Continuous Biodrying Process for Pulp and Paper Mixed Sludge , 2011 .

[5]  Tom L. Richard,et al.  Composting High Moisture Materials: Biodrying Poultry Manure in a Sequentially Fed Reactor , 2001 .

[6]  Don W. Green,et al.  Perry's Chemical Engineers' Handbook , 2007 .

[7]  K. R. Tsang,et al.  Moisture Distribution in Sludges , 1990 .

[8]  I. G. Mason,et al.  Physical modelling of the composting environment: a review. Part 1: Reactor systems. , 2005, Waste management.

[9]  Duu-Jong Lee Measurement of bound water in waste activated sludge: Use of the centrifugal settling method , 1994 .

[10]  C. R. Mote,et al.  Heat production by composting organic matter , 1982 .

[11]  C. Geankoplis Transport processes and unit operations , 1978 .

[12]  K. Das,et al.  The influence of temperature and moisture contents regimes on the aerobic microbial activity of a biosolids composting blend. , 2003, Bioresource technology.

[13]  M. Madigan,et al.  Brock Biology of Microorganisms , 1996 .

[14]  Barry J. Macauley,et al.  Physical management and interpretation of an environmentally controlled composting ecosystem , 1992 .

[15]  Barberton Oh Wilcox Co.,et al.  Considerations for using sludge as a fuel , 1993 .

[16]  Paul Stuart,et al.  Emerging Biodrying Technology for the Drying of Pulp and Paper Mixed Sludges , 2006 .

[17]  P. Stuart,et al.  Novel sludge drying process for cost-effective on-site sludge management , 2006 .

[18]  S. Stenström,et al.  Transport Equations for Moist Air at Elevated Wet Bulb Temperatures , 2004 .

[19]  R. Haug The Practical Handbook of Compost Engineering , 1993 .

[20]  Pekka Ahtila,et al.  Drying of Activated Sludge Under Partial Vacuum Conditions—An Experimental Study , 2004 .

[21]  J. Vaxelaire,et al.  Moisture distribution in activated sludges: a review. , 2004, Water research.

[22]  P. Stuart,et al.  Novel Drying Process Using Forced Aeration Through a Porous Biomass Matrix , 2004 .

[23]  Arun S. Mujumdar,et al.  SLUDGE DEWATERING AND DRYING , 2002 .

[24]  I. G. Mason,et al.  Physical modelling of the composting environment: a review. Part 2: Simulation performance. , 2005, Waste management.

[25]  Kiyohiko Nakasaki,et al.  Accelerated Composting of Grass Clippings By Controlling Moisture Level , 1994 .