Hamed Azami scite author profile

This review discusses the characterization, production and implications of soluble microbial products (SMPs) in biological wastewater treatment. The precise definition of SMPs is open to talk about, but is currently regarded as “the pool of organic compounds that are released into solution from substrate metabolism and biomass decay”'. Some of the SMPs have been identified as humic acids, polysaccharides, proteins, amino acids, antibiotics, extracellular enzymes and structural components of cells and products of energy metabolism. They adversely affect the kinetic activity, flocculating and settling properties of sludge. This review outlines some important findings with regard to biodegradability and treatability of SMPs and also the effect of process parameters on their production. As SMPs are produced during biological treatment process, their trace amounts normally remain in the effluent that defines the highest COD removal efficiency. Their presence in effluent represents a high potential risk of toxic by-product formation during chlorine disinfection. Studies have indicated that among all wastewater post-treatment processes, the adsorption by granular activated carbon combined with biologically induced degradation is the most effective method for removal of SMPs. However, it may be concludes that the knowledge regarding SMPs is still under progress and more work is required to fully understand their contribution to the treatment process.

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Effects of biofilm formation on membrane performance in submerged membrane bioreactors

Mafirad

Mehrnia

Azami

et al. 2011

Biofouling

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The effects of biofilm formation on membrane performance were evaluated for a submerged membrane bioreactor (sMBR) system with six different types of micro- and ultrafiltration membranes (working volume=19 l). After operation for 24 h the permeability of the membranes with a larger pore size (microfiltration) decreased to that of the membranes with a much smaller pore size (ultrafiltration). Fourier transform infrared spectroscopy (FTIR) and scanning electron microscopy (SEM) confirmed that biofilms could reduce the influence of the membrane surface properties. The chemical oxygen demand (COD) removal efficiency was 95% for the oily wastewater treatment in the sMBR where the filtration process made an important contribution (47% based on feed COD). Significant enhancement in COD removal occurred at the initial filtration stage because of biofilm formation and the dynamic member role of the biofilm layer. Membranes with various pore sizes had approximately the same permeate quality that was attributed to the biofilm on the membrane surfaces. Nevertheless, the ultrafiltration membranes had 43% more COD removal efficiency than the other applied membranes at the beginning of filtration (before biofilm formation) because of the smaller pore sizes and better sieving.

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Fouling in membrane bioreactors with various concentrations of dead cells

2011

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Influence of sludge rheological properties on the membrane fouling in submerged membrane bioreactor

Azami

Sarrafzadeh

Mehrnia

2011

Desalination and Water Treatment

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Fouling mitigation in membrane bioreactors using multivalent cations

Mehrnia

Azami

Sarrafzadeh

2013

Colloids and Surfaces B: Biointerfaces

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Hamed Azami

Soluble microbial products (SMPs) release in activated sludge systems: a review

Effects of biofilm formation on membrane performance in submerged membrane bioreactors

Fouling in membrane bioreactors with various concentrations of dead cells

Influence of sludge rheological properties on the membrane fouling in submerged membrane bioreactor

Fouling mitigation in membrane bioreactors using multivalent cations

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