ANITA™ Mox: Simple Start Up with High Influent TSS

April 13, 2020

The ANITA™ Mox sidestream deammonification process at Little Patuxent Water Reclamation Plant reaches the design loading and removal rates despite high influent TSS concentrations.

Little Patuxent Water Reclamation Plant (LPWRP) is located in Howard County, Maryland. This is a 29 MGD ENR (Enhanced Nutrient Removal) plant that discharges to the Little Patuxent River which goes to the Chesapeake Bay.

The Client’s Needs

In 2013, Howard County began plans for an upgrade to its biosolids management facilities at LPWRP with high rate anaerobic digestion, rebuilt centrifuges for dewatering, a phosphorus recovery system and a side stream deammonification system. The side stream process is designed to reduce the impact of nitrogen load returned back to the mainstream treatment process and ensure that the plant meets the stringent discharge TN limit of 3 mg/L. LPWRP required the side stream process to meet the following:

  • Treat centrate with a high solids concentration (800 mg/L or higher) without requiring solids pretreatment.
  • Proven, simple and robust treatment process that is supported by successful installations throughout the US.
  • Easy to operate and requires minimal maintenance.
  • Stable system that retains anammox bacteria easily and is not prone to washout, and more importantly,
  • Fit into existing tankage.

The Solution

Howard County and the CMAR team chose Veolia’s ANITA™ Mox MBBR sidestream deammonification process to meet the plant’s requirements while offering project cost savings.

ANITA™ Mox utilizes K5 biofilm carriers and media retaining screens, eliminating anammox washout. Biomass (including anammox and AOBs) remains attached to the carriers as high TSS passes through the system.

Design Criteria

  • Design flow: 0.176 MGD
  • Influent NH₄-N: 1,100 mg/L

Effluent criteria:

  • 80-85% of NH₄-N Removal
  • 70-75% TN Removal

Process Description

The ANITA™ Mox system was retrofitted into existing tanks with relatively shallow side water depth. The tanks were originally aeration tanks for an industrial waste pretreatment system that was mothballed before the Biosolids Project started. The system components such as the media, media retaining screens and medium bubble aeration diffusers are designed to be maintenance free for the lifetime of the system. The media fill volume of each of the two reactors leaves room for future expansion by simply adding more media if ammonia loading increases. Air for the ANITA™ Mox system is supplied via dedicated blowers as required by the plant. The small footprint of the system is able to save room for two small EQ tanks, designed to provide consistent loading to the reactors for enhanced performance. The patented ANITA™ Mox process controls strategy has the flexibility to be controlled by DO, pH, and/or ammonia for optimal energy savings.


After adding seeded media from an existing BioFarm in the US, the reactors reached the design loading and removal rates despite high influent TSS concentrations. Reactor operation and performance is largely unaffected by high TSS concentrations. Since startup in early 2019, the ANITA™ Mox system continues to meet the design Nitrogen removal rates. The two small ANITA™ Mox reactors are able to remove approximately 15% of the total nitrogen load of the plant with low cost.

Editor's Note: Scranton Gillette Communications and the SGC Water Group are not liable for the accuracy, efficacy and validity of the claims made in this piece. The views expressed in this content do not reflect the position of the editorial teams of Water & Wastes Digest, Water Quality Products and Storm Water Solutions.