A Mini Review of the Techno-environmental Sustainability of Biological Processes for the Treatment of High Organic Content Industrial Wastewater Streams

Industrial wastewater contains complex and slowly biodegradable compounds often ineffectively treated by conventional activated sludge (CAS) systems. Alternatively, advanced anaerobic technologies are implemented. The current study reviews different potential anaerobic schemes, factors influencing t...

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Bibliographic Details
Published inWaste and biomass valorization Vol. 8; no. 5; pp. 1665 - 1678
Main Authors Massara, Theoni M., Komesli, Okan Tarik, Sozudogru, Onur, Komesli, Senba, Katsou, Evina
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Netherlands 01.07.2017
Springer Nature B.V
Subjects
Activated sludge
Air pollution
Anaerobic digestion
Atmosphere
Biodegradability
Biodegradation
Biogas
Biological activity
Bioreactors
Design parameters
Energy recovery
Energy requirements
Engineering
Environment
Environmental aspects
Environmental effects
Environmental Engineering/Biotechnology
Greenhouse effect
Greenhouse gases
Industrial Pollution Prevention
Industrial wastewater
Industrial wastewater treatment
Life cycle analysis
Life cycles
Methane
Organic loading
Original Paper
Renewable and Green Energy
Resource recovery
Streams
Sustainability
Waste Management/Waste Technology
Wastewater treatment plants
Industrial wastewater
Life cycle assessment
Circular economy
Advanced anaerobic technologies
Biogas production
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Summary:Industrial wastewater contains complex and slowly biodegradable compounds often ineffectively treated by conventional activated sludge (CAS) systems. Alternatively, advanced anaerobic technologies are implemented. The current study reviews different potential anaerobic schemes, factors influencing their final performance and optimum combinations of operational/design parameters. Anaerobic membrane bioreactors, upflow anaerobic sludge blanket reactors, expanded granular sludge beds, anaerobic hybrid reactors and inverse fluidized bed reactors are discussed. Their major advantages include: low energy requirements, energy recovery through biogas generation and high organic load removal. pH = 7, operation in a mesophilic environment and a hydraulic retention time long enough to enable anaerobic digestion in economically accepted reactor volumes are conditions that optimize the performance of anaerobic configurations. The evaluation additionally considers environmental aspects. The life cycle assessment of anaerobic industrial wastewater treatment reveals its positive environmental effect in terms of greenhouse gases emissions. Methane (a greenhouse gas) primarily contained in the biogas, despite being produced during anaerobic digestion, is utilized for energy production (heating, electricity) instead of being emitted to the atmosphere. Finally, anaerobic wastewater treatment is analyzed as part of the European Commission Innovation Deal that aims at converting conventional wastewater treatment plants to water resource recovery facilities able to combine sustainable wastewater treatment and water reuse. Graphical Abstract
ISSN:1877-2641
1877-265X
DOI:10.1007/s12649-017-0022-y