Performance and Mechanism of Improved Soluble Organic Carbon Recovery from Municipal Wastewater through the Coagulation-Enhanced High-Rate Contact Stabilization Process

Abstract: High-rate contact stabilization is promising to capture organic carbon from municipal wastewater; however, its engineering application is restricted due to its poor capability of removing soluble organic matter (particle size < 0.1 μm). In this work, the carbon capture efficiency and robustness of the coagulation-enhanced high-rate contactstabilized process for treating municipal wastewater with a varied content of soluble organic matter was comprehensively evaluated. Results showed that the high-rate contact … Show more

“…The rapid shifts between feast and famine conditions, typically lasting less than an hour, select microorganisms that can store excess substrates and nutrients in cells quickly as a survival strategy . Other carbon capture processes, such as coagulation-enhanced high-rate contact stabilization process, achieved up to 60% carbon capture efficiency and 30–40% phosphorus removal . The combination of HRAS systems with anaerobic membrane bioreactors (AnMBR) is another feasible technology, where the COD capture efficiency of HRAS was as high as 43% and the total COD recovery in the form of methane in AnMBR reached 30%.…”

“…11 capture processes, such as coagulation-enhanced high-rate contact stabilization process, achieved up to 60% carbon capture efficiency and 30−40% phosphorus removal. 12 The combination of HRAS systems with anaerobic membrane bioreactors (AnMBR) is another feasible technology, 13 where the COD capture efficiency of HRAS was as high as 43% and the total COD recovery in the form of methane in AnMBR reached 30%. An automated pilot-scale HiCS system, which used real-time responses to control the oxygen uptake rate (OUR) ratio between the contact and stabilization tanks, has been investigated to improve the carbon capture efficiencies.…”

Deciphering the Interplay of Sludge Age and Aeration on Reactor Performance and Microbial Dynamics in High-Rate Contact Stabilization

“…The rapid shifts between feast and famine conditions, typically lasting less than an hour, select microorganisms that can store excess substrates and nutrients in cells quickly as a survival strategy . Other carbon capture processes, such as coagulation-enhanced high-rate contact stabilization process, achieved up to 60% carbon capture efficiency and 30–40% phosphorus removal . The combination of HRAS systems with anaerobic membrane bioreactors (AnMBR) is another feasible technology, where the COD capture efficiency of HRAS was as high as 43% and the total COD recovery in the form of methane in AnMBR reached 30%.…”

“…11 capture processes, such as coagulation-enhanced high-rate contact stabilization process, achieved up to 60% carbon capture efficiency and 30−40% phosphorus removal. 12 The combination of HRAS systems with anaerobic membrane bioreactors (AnMBR) is another feasible technology, 13 where the COD capture efficiency of HRAS was as high as 43% and the total COD recovery in the form of methane in AnMBR reached 30%. An automated pilot-scale HiCS system, which used real-time responses to control the oxygen uptake rate (OUR) ratio between the contact and stabilization tanks, has been investigated to improve the carbon capture efficiencies.…”

Deciphering the Interplay of Sludge Age and Aeration on Reactor Performance and Microbial Dynamics in High-Rate Contact Stabilization

From hybrid process to pure biofilm anammox process: Suspended sludge biomass management contributing to high-level anammox enrichment in biofilms