4.6 Article

Quantification of energy and cost reduction from decreasing dissolved oxygen levels in full-scale water resource recovery facilities

Journal

WATER ENVIRONMENT RESEARCH
Volume 93, Issue 12, Pages 3090-3102

Publisher

WILEY
DOI: 10.1002/wer.1660

Keywords

activated sludge; aeration; dissolved oxygen; energy; off-gas

Funding

  1. U.S. Department of Energy (Office of Science, Office of Basic Energy Sciences and Energy Efficiency and Renewable Energy, Solar Energy Technology Program)
  2. University of California, Irvine -Water-Energy Nexus Center
  3. Southern California Edison

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This study demonstrates the substantial improvements associated with reducing DO set points at full scale, showing an overall enhancement of oxygen transfer efficiency and potential energy savings. Quantification of the influence of oxygen transfer efficiency on operating choices and site-specific conditions was conducted, with a direct evidence of 20% energy savings achievable through DO reduction strategies.
Aeration systems often lack the efficiency to maintain a desired residual dissolved oxygen (DO) concentration in the tank in part because little consideration is given to the dynamic daily and seasonal loading conditions. Although advanced aeration controllers exist, the majority of plants have DO set points typically based on common practice and literature values rather than site-specific conditions, which can result in DO set points higher than those necessary to meet treatment objectives. DO set point reduction strategies have primarily been proposed through either static or dynamic simulations. In this study, the substantial improvements associated with DO set point reduction are demonstrated at full scale. A yearlong characterization of full-scale aeration dynamics captured the effect of diurnal and seasonal fluctuations on oxygen transfer and energy demand and so facilitated the estimation of the potential savings of DO reduction strategies. Full-scale validation provided direct evidence of DO reduction strategies inducing an overall enhancement of oxygen transfer efficiency along the different bioreactors, while confirming that energy savings as high as 20% were feasible. This study quantifies the influence of oxygen transfer efficiency on operating choices and site-specific conditions (control strategy, loading conditions, and influent flow variability). Practitioner points We quantified the energy reduction and cost savings associated with a DO reduction in an aeration tank. For each 0.2 mg/L of DO decreased, the average power demand reduction per unit water treated exceeded 17%. Field measurements of dynamic alpha values eliminate the uncertainty in estimating aeration energy and cost savings from DO variations.

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