DOIONLINE

DOIONLINE NO - IJAMCE-IRAJ-DOIONLNE-2847

Publish In
International Journal of Advances in Mechanical and Civil Engineering (IJAMCE)-IJAMCE
Journal Home
Volume Issue
Issue
Volume-2, Issue-4  ( Aug, 2015 )
Paper Title
Thermochemical Behaviour Of Sewage Sludge During Its Slow Pyrolysis
Author Name
Tao Kan, Vladimir Strezov, Tim Evans
Affilition
Department of Environmental Sciences, Faculty of Science and Engineering, Macquarie University, Sydney NSW 2109, Australia
Pages
64-67
Abstract
Abstract- Processing of sewage sludge waste is a major concern in modern societies, and pyrolysis is one of the technological options that can convert sewage sludge into useful energy and biofuels. The aim of this study was to investigate the thermochemical behaviour of sewage sludge during its slow pyrolysis from room temperature to 1000°C at a heating rate of 10°C/min. Thermogravimetric analysis showed that the pyrolysis process of sewage sludge consisted of three main steps in the respective temperature zones of <180°C, 180–600°C, and >600°C. The most intense mass loss rate occurred between 210 and 550°C with a maximum peak value of 0.21wt%/°C at 328°C. Computer aided thermal analysis was applied to determine the specific heat and the reaction heats during pyrolysis of the sewage sludge. Three main reaction peaks were identified. Gas chromatography results indicated that CO2 and CO were the primary gas species evolved in the low (<500°C) and high (500–1000°C) temperature ranges, respectively. The yields of solid, liquid and gas products at 500 °C were 55.7, 35.6, and 8.7wt%, respectively. Understanding of the thermochemical behaviour of sewage sludge will facilitate more elaborate control of sewage sludge pyrolysis to produce energy and biofuels. IndexTerms- sewage sludge, thermogravimetric analysis, specific heat, pyrolysis
  View Paper