Comparison of cellulose solubilisation rates in rumen and landfill leachate inoculated reactors


Autoria(s): O'Sullivan, C. A.; Burrell, P. C.; Clarke, W. P.; Blackall, L. L.
Contribuinte(s)

S C Ricke (Editor-in-Chief)

Data(s)

01/01/2006

Resumo

The aim of this study was to conduct a number of controlled digestions to obtain easily comparable cellulose solubilisation rates and to compare these rates to those found in the literature to see which operational differences were significant in affecting cellulose degradation during anaerobic digestion. The results suggested that differences in volumetric cellulose solubilisation rates were not indicative of the true performance of cellulose digestion systems. When cellulose solubilisation rates were normalised by the mass of cellulose in the reactor at each time step, the comparison of the rates became more meaningful. Cellulose solubilisation was surface area limited. Therefore, changes in the loading rate of cellulose to the reactor altered the volumetric solubilisation rate without changing the mass normalised rate. Comparison of mass normalised solubilisation rates from this study and the literature demonstrated that differences in reactor configuration and operational conditions did not significantly impact on the solubilisation rate whereas the difference in composition of the microbial communities showed a marked effect. This work highlights the importance of using appropriately normalised data when making comparisons between systems with differing operational conditions. (c) 2005 Elsevier Ltd. All rights reserved.

Identificador

http://espace.library.uq.edu.au/view/UQ:79746

Idioma(s)

eng

Publicador

Elsevier Sci Ltd

Palavras-Chave #Agricultural Engineering #Biotechnology & Applied Microbiology #Energy & Fuels #Anaerobic Digestion #Cellulose #Landfill #Leachate #Rumen #Solubilisation Rate #Municipal Solid-waste #Anaerobic-digestion #Clostridium-thermocellum #Retention Time #Food Waste #Degradation #Microorganisms #Populations #Performance #Fermentation #C1 #290899 Civil Engineering not elsewhere classified #780199 Other
Tipo

Journal Article