Oxygen transfer and plant‐wide energy assessment of primary screening in WRRFs

Pasini, Federico W.; Garrido-Baserba, Manel; Ahmed, Ahmed; Nakhla, George; Santoro, Domenico; Rosso, Diego

doi:10.1002/wer.1349

Cited by 7 publications

(1 citation statement)

References 35 publications

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“…Thus, such treatments can be optimized to selectively remove solids by engineering the sieving process, targeting different chemical oxygen demand (COD) fractions to improve downstream water quality and maximize the potential for energy and resource recovery (Sarathy et al, 2015; Taboada‐Santos et al, 2019). A pilot‐ and full‐scale study showed a significant reduction in energy consumption with primary sieving with an RBF compared with a conventional PC due to improved oxygen transfer efficiency (Pasini et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Physico‐chemical characteristics and biodegradability of primary effluent and particulate matter removed by microscreens

Alizadeh

Chowdhury

Ghodsi

et al. 2023

Water Environment Research

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In this study, the physical, chemical, and biological characteristics of raw wastewater were compared with the liquid and solid streams generated by a primary clarifier (PC), a rotating belt filter (RBF, 350 μm), and a drum filter (DF, 60 μm) and series (SER) combination of an RBF with a PC or a DF using pilot-scale primary treatment units. The RBF removed about 36% of the influent total suspended solids. The DF and PC yielded an influent total suspended solid removal of 47% to 55% in both individual (parallel) and SER configurations. The size fractionation and chemical characterizations of the liquid fractions indicated a significant change in the wastewater composition in both filter configurations with no variation in the biodegradability of liquid fractions. The solids recovered by RBF had a higher total solids (TS) concentration and a higher volatile solids (VS) content (0.92 g VS/g TS) than that of DF and PC treatments (0.58 to 0.84 g VS/g TS). DF and PC sludge demonstrated a higher biodegradability rate (k 1 ; 0.11 d À1 < k 1 < 0.20 d À1 ) than solids recovered by RBF (0.09 d À1 ). The retained solids in the SER configuration demonstrated a significantly lower theoretical biochemical methane potential than the parallel configuration, likely due to the presence of smaller particles with a significantly higher ratio of particulate chemical oxygen demand over volatile suspended solids (1.86 to 2.40 g chemical oxygen demand/g volatile suspended solids). These results indicated that the physical, chemical, and biological characteristics of liquid and solids from different filter configurations are required to determine design criteria to upgrade or retrofit water resource recovery facilities using an RBF or a DF.Yves Coemau is a member of the Water Environment Federation (WEF).

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Section: Introductionmentioning

confidence: 99%