Jun 01, 2017

A New Mix

Upgrades enable Missouri community to meet state’s DNR discharge requirements

wtp workers
mixers
discharge lines

Built in the 1980s, the Atherton Wastewater Treatment Plant in Atherton, Mo., is operated by Little Blue Valley Sewer District. The facility was designed to reduce the primary process chain to preliminary bar screening and aerated grit removal, while relying solely on secondary treatment performed in four standalone 42-ft-by-400-ft aeration/clarification basins.

Scope

The $73-million retrofit changed the plant to a more conventional activated sludge process. The work included modification of two of the four existing oxidation ditches and mothballing the other two. Four 1.48-million-gal primary clarifiers were built, along with five 2.38-million-gal secondary clarifiers, and an upgrade to the influent pump station was made. To correct discharge problems, a 640-hp, five-pump effluent pump station was built. This now allows four modes of operation, depending on the flow level.

The original plant design relied on mechanical mixers to maintain a 1-ft/second velocity in the 17-ft-deep sewage flow as it circulated around the perimeter of the 6-million-gal oxidation ditches, which were configured with turning walls to further promote mixing. Almost from the outset, however, the process that had worked effectively elsewhere on a small scale was ill suited for the wet weather hydraulics of a plant as large as Atherton.

The original mixers were long-blade, variable-speed, hydraulic-type units powered by external motors and hydraulic pumps. These mixers had become vulnerable. The motors and even their mounting masts began to fail. Maintenance costs skyrocketed as the mixers struggled to deliver a consistent velocity.

Solution

The district replaced the first-generation mixers with 16 Xylem 5-hp electric submersible mixers, arranged in a double battery of eight each at the ends of the channels. These submersible units were fitted with “banana blade” fiberglass props that rotated at 42 rpm to steadily propel and churn the mixed liquor suspended solids (MLSS) as it flowed around the channel.

The project increased the plant’s capacity from 40 mgd to 52 mgd average dry weather flow and partially addressed the issues associated with peaks. Some changes were subtle, such as maintaining deeper clarifiers and modifying two of the four oxidation basins. Others stood out, like the powerful effluent pump station with five 100-mgd, Flygt Model PL7121 640-hp propeller pumps. These pumps are equipped with a solids-handling “N” propeller that features a patented self-cleaning volute that clears the propeller of all debris that reaches the pumps.

After passing through the primary treatment, the flow enters the first zone of the basin, where a propeller pump moves up to 30% of the primary effluent through the common wall. This additional feed location allows the return activated sludge to achieve a higher system solids retention time without increasing the loading to the clarifiers. The PP4640 4-hp pumps accomplish this task by simply pumping up to 7.8 mgd of the primary effluent through the common wall.

The sludge-return (RAS) flow enters the first zone where it mixes with a separate entry of the primary effluent as well as MLSS at the end of the second pass through the basin. The flow first enters the basin, where it can be operated as either an anoxic or an aerobic swing zone, depending on flow and treatment requirements. Two Flygt Model SR4680 40-hp mixers work in conjunction with the flow from two PP4670 20-hp recycle pumps to mix in this anoxic zone and provide homogenization of the influent, RAS and recycled MLSS.

After the flow has made two passes through the basin and the ammonia has been oxidized, the two 20-hp pumps return the nitrified mixed liquor through the common wall. Each pump can advance 26 mgd to the anoxic zone, increasing the nitrate load where excess readily biodegradable carbon exists for denitrification.

Results

The system is adaptable and flexible enough to meet the Missouri Department of Natural Resources discharge requirements when the utility confronts high peak flows of influent. The two remaining basins give this upgraded plant significant expansion capacity.

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Now, the once-challenged Atherton plant steadily performs its mission, even with some rather challenging flow ranges.

Flygt, a Xylem brand

Contact

14125 South Bridge Circle

Charlotte, NC 28273

United States

Phone: 203.712.8927

Phone (Toll - Free): 855.995.4261

Fax: 203.380.4705

http://www.flygtus.com

[email protected]
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