Keshab Sharma scite author profile

Sewer systems are among the most critical infrastructure assets for modern urban societies and provide essential human health protection. Sulfide-induced concrete sewer corrosion costs billions of dollars annually and has been identified as a main cause of global sewer deterioration. We performed a 2-year sampling campaign in South East Queensland (Australia), an extensive industry survey across Australia, and a comprehensive model-based scenario analysis of the various sources of sulfide. Aluminum sulfate addition during drinking water production contributes substantially to the sulfate load in sewage and indirectly serves as the primary source of sulfide. This unintended consequence of urban water management structures could be avoided by switching to sulfate-free coagulants, with no or only marginal additional expenses compared with the large potential savings in sewer corrosion costs.

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Iron salts dosage for sulfide control in sewers induces chemical phosphorus removal during wastewater treatment

Gutiérrez

et al. 2010

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Dynamics and dynamic modelling of H2S production in sewer systems

et al. 2008

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Evaluation of oxygen injection as a means of controlling sulfide production in a sewer system

et al. 2008

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A pilot study for wastewater reclamation and reuse with MBR/RO and MF/RO systems

Tam¹,

Tang²,

Lau

et al. 2007

Desalination

134

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Sulfur transformation in rising main sewers receiving nitrate dosage

et al. 2009

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A comprehensive laboratory assessment of the effects of sewer-dosed iron salts on wastewater treatment processes

et al. 2018

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The effect of iron-dosing in the sewer system, on wastewater treatment processes, was investigated using laboratory-scale wastewater systems comprising sewers, wastewater treatment reactors, sludge thickeners, and anaerobic sludge digesters. Two systems, fed with real domestic wastewater, were operated for over a year. The experimental system received ferric chloride (FeCl) dosing at 10 mgFe L in the sewer reactor whereas the control system received none. Wastewater, sludge and biogas were extensively sampled, and analysed for relevant parameters. The FeCl-dosed experimental system displayed a decreased sulfide concentration (by 4.3 ± 0.5 mgS L) in sewer effluent, decreased phosphate concentration (by 4.7 ± 0.5 mgP L) in biological treatment reactor effluent, and decreased hydrogen sulfide concentration in biogas (911.5 ± 189.9 ppm to 130.0 ± 5.9 ppm), as compared with the control system. The biological nitrogen removal performance of the treatment reactor, and biogas production in the anaerobic digester were not affected by FeCl-dosing. Furthermore, the dewaterability of the anaerobically digested sludge was enhanced by 17.7 ± 1.0%. These findings demonstrate that iron-dosing to sewers can achieve multiple benefits including sulfide removal in sewers, phosphorus removal during wastewater treatment, and hydrogen sulfide (HS) removal during biogas generation. Therefore, an integrated approach should be taken when considering iron salts usage in an urban wastewater system.

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Effects of long-term pH elevation on the sulfate-reducing and methanogenic activities of anaerobic sewer biofilms

et al. 2009

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Keshab Sharma

Reducing sewer corrosion through integrated urban water management

Iron salts dosage for sulfide control in sewers induces chemical phosphorus removal during wastewater treatment

Dynamics and dynamic modelling of H2S production in sewer systems

Evaluation of oxygen injection as a means of controlling sulfide production in a sewer system

A pilot study for wastewater reclamation and reuse with MBR/RO and MF/RO systems

Sulfur transformation in rising main sewers receiving nitrate dosage

A comprehensive laboratory assessment of the effects of sewer-dosed iron salts on wastewater treatment processes

Effects of long-term pH elevation on the sulfate-reducing and methanogenic activities of anaerobic sewer biofilms

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