| IWA Publishing Journals | | | Subscriptions | | | Authors | | | Users | | | Librarians | | | FAQs |
 |
Water Science & Technology Vol 66 No 2 pp 445–450 © IWA Publishing 2012 doi:10.2166/wst.2012.223 Process performance of dry, batch anaerobic digestion of sewage sludge: methanogenic seed mixturesB. Rózsáné Szűcs, G. L. Szántó, M. Simon and Gy. FülekyEötvös József College, Bajcsy-Zs. u. 14. 6500 Baja, HungarySZANCORE, Hollandseweg 62, 6706 KR Wageningen, The Netherlands E-mail: gsz@szancore.com Szent István University, Páter K. u. 1., 2103 Gödöllő, Hungary ABSTRACT A dry, batch anaerobic digestion (DBAD) process was tested on two sewage sludge types with different methanogenic seed fractions under laboratory conditions. The aim was to indicate optimal sludge:seed mixing ratios and analyse process performance based on degradation rate and reactor-specific methane production. The attained results were compared with the performance of a liquid-state, laboratory-scale stirred reactor (SR). A mixing ratio of at least 1:1.25 (sludge:seed) yielded processes free from significant inhibitions. Further seeding increments resulted in slightly better performances, but much lower sludge fractions treated in the reactors. Compared with the SR process, the DBAD reactors produced comparable degradation rates albeit in a significantly longer process and with somewhat lower reactor-specific methane production rates. These findings indicate that the DBAD method may provide a viable alternative to liquid-state processes if sludge drying is already applied and reactor volume requirements are of importance. Keywords: anaerobic digestion; dry-state batch digestion; methane; methanogenic seed; sewage sludge; treatment efficiency eProduct: Buy this article for £24.00 (IWA MEMBER PRICE: £18.00) All prices include VAT. For customers where VAT should not be applied, the VAT amount will be removed upon payment |
|
 |
