Title

Low intensity surplus activated sludge pretreatment before anaerobic digestion

Journal title

Archives of Environmental Protection

Yearbook

2017

Volume

vol. 43

Issue

No 4

Authors

Suschka, Jan ; Grübel, Klaudiusz

Keywords

anaerobic sludge digestion ; biogas production ; sludge disintegration ; disintegration degree ; hybrid pre-treatment

Divisions of PAS

Nauki Techniczne

Publisher

Polish Academy of Sciences

Date

2017.12.15

Type

Artykuły / Articles

Identifier

DOI: 10.1515/aep-2017-0038 ; ISSN 2083-4772 ; eISSN 2083-4810

Source

Archives of Environmental Protection; 2017; vol. 43; No 4

References

Ariunbaatar (2014), Pretreatment methods to enhance anaerobic digestion of organic solid waste, Applied Energy, 123. ; Lakshmi (2014), Solubilization of municipal sewage waste activated sludge by novel lytic bacterial strains and, Environmental Science Pollution Research, 21, 2733. ; Watcharapol (2014), Alkaline pretreatment of waste activated sludge in anaerobic digestion of Clean Energy Technologies, Journal, 118. ; Kvesitadze (2012), Two - stage anaerobic process for bio - hydrogen and biomethane combines production from biodegradable solid waste, Energy, 37. ; Rafique (2010), Effect of thermal chemical and thermo - chemical pre - treatments to enhance methane production, Energy, 4556. ; Şahinkaya (2013), Effects and modelling of ultrasonic waste - activated sludge disintegration and, Water Environment Journal, 27, 238. ; Rani (2012), Combined treatment of alkaline and disperser for improving solubilization and anaerobic biodegradability of dairy waste activated sludge, Bioresource Technology, 126. ; Lee (2013), The effects of waste - activated sludge pretreatment using hydrodynamic cavitation for methane production, Ultrasonics Sonochemistry, 20, 1450. ; Nasr (2012), Comparative assessment of single - stage and two - stage anaerobic digestion for the treatment of thin stillage, Bioresource Technology, 111. ; Li (2013), Alkaline post - treatment for improved sludge anaerobic digestion, Bioresource Technology, 140. ; Penaud (2000), Influence of thermo - chemical solubilization of a microbial biomass on solubilzation and biodegradability performance, Environmental Technology, 21, 87. ; Silva (2013), of destroying bacterial spores In Microbial pathogens and strategies for combating them technology ed Research Center, Methods science education, 1. ; Chen (2007), Hydrolysis and acidifi cation of waste activated sludge at different pHs, Water Research, 683. ; Escamilla (2012), Gas biofuels from solid substrate hydrogenogenic - methanogenic fermentation of the organic fraction of municipal solid waste, Process Biochemistry, 1572. ; Li (2008), Nie Effects and model of alkaline waste activated sludge treatment, Bioresource Technology, 99. ; Zhang (2012), Sewage sludge disintegration by combined treatment of alkaline plus high pressure homogenization, Bioresource Technology, 123. ; Kalogo (2008), State of report resource recoverable from sludge Global Coalition, science Energy Water Research. ; Grübel (2013), Impact of alkalization of surplus activated sludge on biogas production Ecological Chemistry, Engineering, 20, 343. ; Sakiyama (2011), Removability of bacterial spores from solid surfaces during cleaning International Congress on Athens, Engineering Food, 22. ; APHA (2012), Standard for the Examination of Water and Wastewater nd ed Water Works Association Water Environment Federation, Methods American Public Health Association American USA, 22. ; Climent (2007), Effect of thermal and mechanical pretreatments of secondary sludge on biogas production under thermophilic conditions, Chemical Engineering Journal, 133. ; Kim (2003), Effects of various pretreatments for enhanced anaerobic digestion with waste activated sludge of and, Journal Bioscience Bioengineering, 95. ; Lu (2008), Improving anaerobic sewage sludge digestion by implementation of a hyper - thermophilic prehydrolysis step of, Journal Environmental Management, 881. ; Siles (2010), Impact of ammonia and sulphate concentration on thermophilic anaerobic digestion, Bioresource Technology, 101. ; Dwyer (2008), Decreasing activated sludge thermal hydrolysis temperature reduces product colour without decreasing degradability, Water Research, 4699. ; Li (2012), Opitimized alkaline pretreatment of sludge before anaerobic digestion, Bioresource Technology, 123. ; Sambusiti (2013), comparison of different pre - treatments to increase methane production from two agricultural substrates, Applied Energy, 62. ; Carrère (2010), Pretreatment methods to improve sludge anaerobic degradability of, review Journal Hazardous Materials, 183.

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