Ionescu, IoanaIoanaIonescuBumbac, CostelCostelBumbacCornea, Petruta CalinaPetruta CalinaCornea2017-11-142017-11-1420150168-1656; ISSN-e: 1873-4863; doi: 10.1016/j.jbiotec.2015.06.173http://hdl.handle.net/123456789/1072Journal of Biotechnology, vol. 208, pp. S58-S58, 2015; European Biotechnology Congress, May 2015, BucharestGranular sludge consist of bacterial aggregates that are much more compact than traditional activated sludge, thus offering numerous advantages such as high biomass retention, good settling ability and simultaneous removal of organic load and nutrients. In a laboratory scale sequencing batch reactor (SBR) granules were cultured under aerobic conditions. To enhance the growth of granular sludge the SBR was operated with very short sedimentation and draw phases resulting in the washout of slow settling biomass (anaerobic feeding – 45 min, aerobic reaction – 11 h, settling – 5 min and effluent withdrawal – 10 min). The reactor was inoculated with conventional activated sludge and fed with dairy industry wastewater with high organic and nutrients load. The first aerobic granular structures, having 67–556 m in diameter, were observed after 5 days. After 25 days, they reached diameters between 513 m and 1276 m and increased gradually up to diameters of 2 mm by the end of the experiment. Treatment performances increased along with the growth of granules size.en-USBatch reactorAerobic granular sludgeConference abstract