%0 Journal Article
%T Integrated resource recovery from aerobic granular sludge plants
%A Bahgat, N. T.
%A Wilfert, P.
%A Korving, L.
%A Loosdrecht, M. van
%J Water Research
%D 2023
%V 234
%@ 0043-1354
%F Bahgat_etal2023
%O exported from refbase (http://www.uhydro.de/base/show.php?record=303), last updated on Thu, 28 Aug 2025 13:27:30 +0200
%X The study evaluated the combined phosphorus, nitrogen, methane, and extracellular polymeric substances (EPS) recovery from aerobic granular sludge (AGS) wastewater treatment plants. About 30% of sludge organics are recovered as EPS and 25–30% as methane (≈260 ml methane/g VS) by integrating alkaline anaerobic digestion (AD). It was shown that 20% of excess sludge total phosphorus (TP) ends in the EPS. Further, 20–30% ends in an acidic liquid waste stream (≈600 mg PO4-P/L), and 15% in the AD centrate (≈800 mg PO4-P/L) as ortho-phosphates in both streams and is recoverable via chemical precipitation. 30% of sludge total nitrogen (TN) is recovered as organic nitrogen in the EPS. Ammonium recovery from the alkaline high-temperature liquid stream is attractive, but it is not feasible for existing large-scale technologies because of low ammonium concentration. However, ammonium concentration in the AD centrate was calculated to be 2600 mg NH4-N/L and ≈20% of TN, making it feasible for recovery. The methodology used in this study consisted of three main steps. The first step was to develop a laboratory protocol mimicking demonstration-scale EPS extraction conditions. The second step was to establish mass balances over the EPS extraction process on laboratory and demonstration scales within a full-scale AGS WWTP. Finally, the feasibility of resource recovery was evaluated based on concentrations, loads, and integration of existing technologies for resource recovery.
%K EPS extraction
%K Sewage
%K Mass balances
%K Phosphorus
%K Methane
%K Nitrogen
%U https://www.sciencedirect.com/science/article/pii/S0043135423002543
%P 119819