The City of Dundee is a growing community with a strong economy boasting three wineries within the city limits and several others in the surrounding Willamette River Valley. The City's existing Wastewater Treatment Plant (WWTP) was nearing capacity, and the limited discharge to the Williamette River would not adequately support Dundee's planned growth.
The City of Dundee has been working on a major expansion of its municipal WWTP since 2009 to upgrade an existing lagoon treatment system and small chlorine contact chamber into a new energy efficient treatment facility. Kennedy/Jenks was consulted to update the City's facility plan and complete the permitting, predesign, design, and construction support services for improvements to expand the WWTP to 0.60 mgd (average annual flow) with expansion capabilities to 2.75 mgd (peak flow) in the future.
Rather than constructing an SBR as recommended in the original facility plan, the consultant recommended constructing an MBR. The MBR was selected because it penciled out with the same cost as an SBR and the higher quality effluent allowed the City of Dundee to obtain year-round river discharge rather than the seasonal discharge. The plan also allowed the City to evaluate the benefits of implementing energy recovery through digestion of winery waste and other high-energy substrates while accommodating for the potential future expansion.
With the year-round discharge, the City of Dundee was able to eliminate the lagoon and storage of water for non-discharge months. Closed-vessel UV was selected in order to utilize a siphon system for discharge, maintaining a slight vacuum through the disinfection system, eliminating the permeate pumping required if open-channel UV was selected.
The Class A reclaimed water that this facility can produce is a major component of the City of Dundee's ongoing goal to conserve the drinking water supply. The former sludge facultative lagoons (about 14 acres) will be decommissioned and are planned to be developed as a nature park and the recycled water will be used for irrigation and other water features.
The siphon system utilized by the closed vessel UV system saves the City operating cost and earned energy incentives by reducing energy consumption. The City will benefit from the plant's low gallon-per-capacity cost; under $10 per gallon, which is very low for an MBR plant.
The energy efficient design resulted in the City being awarded an energy efficiency incentive from the Energy Trust of Oregon.