10.6084/m9.figshare.c.3601403_D1.v1
Wenzong Liu
Wenzong
Liu
Zhangwei He
Zhangwei
He
Chunxue Yang
Chunxue
Yang
Aijuan Zhou
Aijuan
Zhou
Zechong Guo
Zechong
Guo
Bin Liang
Bin
Liang
Cristiano Varrone
Cristiano
Varrone
Ai-Jie Wang
Ai-Jie
Wang
MOESM1 of Microbial network for waste activated sludge cascade utilization in an integrated system of microbial electrolysis and anaerobic fermentation
Springer Nature
2016
Anaerobic digestion
Microbial electrolysis cell
Biogas
Waste activated sludge
2016-04-02 05:00:00
Journal contribution
https://springernature.figshare.com/articles/journal_contribution/MOESM1_of_Microbial_network_for_waste_activated_sludge_cascade_utilization_in_an_integrated_system_of_microbial_electrolysis_and_anaerobic_fermentation/4333649
Additional file 1. Table S1. The main contents of sludge fermentative liquid on the 3rd day, after different pretreatments. Table S2. The main characteristics of raw waste activated sludge. Table S3. The detected number of sequences, OTUs and diversity. Fig. S1. Particle size distribution in sludge, obtained through different pretreatments. Control: sludge without treatment; A: Alkaline; F: Freeze/thaw; U: Ultrasonic treatment. Fig. S2. Lysis ratio of increased SCOD to TCOD in sludge, after different pretreatments. Fig. S3. MEC reactor setup: COD removal and Coulombic efficiency obtained by feeding artificial wastewater. Fig. S4. VFAs content in different sludge fermentative liquids. Fig. S5. Main contents of COD removal (Polysaccharide, protein, VFAs) in MECs fed with different sludge fermentative liquids. Fig. S6. Current change in the last three batch MECs fed with different sludge fermentative liquids. Fig. S7. Rarefaction curves (a) and Shannon diversity (b) base on pyrosequencing of bacterial communities. The OTUs were defined by 3Â % distance. Fig. S8. Taxonomic classification of bacterial communities of sludge fermentative liquid at the phylum (a), class (b) and genus (c) levels. Relative abundance was defined as the number of sequences per sample. Fig. S9. The setup of single chamber microbial electrolysis cell (MEC). Fig. S10. A flow schematic representation of experimental methodology and reactor setup.