Title of article
Effects of feedstock, airflow rate, and recirculation ratio on performance of composting systems with air recirculation
Author/Authors
K. Ekinci، نويسنده , , H.M. Keener، نويسنده , , D. Akbolat، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
11
From page
922
To page
932
Abstract
The thermodynamics, kinetics, and energy use of composting systems with air recirculation were determined for feedstocks comprising paper mill sludge and biosolids. Results were developed by simulating the composting system using a two-dimensional finite difference numerical model. Incorporated into the simulation model was independent regulation of temperature and oxygen using a closed loop feedback control system with a two-stage fan setting. Results showed that at low airflows and high recirculation ratios, heat removal by the exhaust gas was insufficient to maintain set point temperatures with the result that process temperatures increased and eventually limited the reaction rate. Types of feedstock, magnitude of airflow and recirculation ratio all affected the energy use of the system. Although recirculation leads to high energy use, it can produce high quality compost by having a temperature gradient of less than 2 °C across the bed.
Keywords
Kinetics , Air recirculation , Modelling , Composting , Energy use
Journal title
Bioresource Technology
Serial Year
2006
Journal title
Bioresource Technology
Record number
412137
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