Sewage treatment process

US 6,743,362 B1
Filed: 06/17/2002
Issued: 06/01/2004
Est. Priority Date: 06/17/2002
Status: Expired due to Term

First Claim

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1. In a sewage treatment plant and process having a liquid side in which nitrogen removal is effected, a method of operating the liquid side of the treatment process so as to effect nitrification and denitrification within a single tank and simultaneously to remove water, comprising:

maintaining an aerobic/anoxic zone in a tank receiving plant influent wastewater, wherein nitrification and denitrification occur simultaneously and continuously, maintaining dissolved oxygen concentration in the aerobic/anoxic zone in a fluctuating range, allowing dissolved oxygen concentration to approach the lower end of said range and monitoring the status of bacteria in the aerobic/anoxic zone and detecting when some of the bacteria in the zone turn anaerobic, after the anaerobic condition has been detected, increasing dissolved oxygen in the aerobic/anoxic zone by increasing aeration to promote nitrification with the formation of nitrates, then reducing aeration to the aerobic/anoxic zone to an extent to allow the bacteria to consume dissolved oxygen and then to consume nitrates in a denitrification cycle, releasing nitrogen gas, repeating the steps of monitoring, increasing dissolved oxygen and reducing aeration, and simultaneously removing filtrate water from the wastewater in the aerobic/anoxic zone while conducting the above steps, using at least one membrane separator in the aerobic/anoxic zone, whereby need for separate clarification on the liquid side of the plant is eliminated.

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Abstract

A sewage treatment plant, on the liquid side, is operated so as to effect nitrification and denitrification within a single tank and simultaneously to remove water, without the need for separate clarification. An aerobic/anoxic zone is maintained in a single tank, wherein the SymBio process of U.S. Pat. No. 5,906,746 is maintained. This is combined with the advantages of an MBR process, by placing a series of membrane separators within the tank and continuously withdrawing nearly pure water. Supplemental process air provided in the MBR tank is controlled by the SymBio process to maintain simultaneous nitrification and denitrification in a single tank and thus reducing the additional process air requirements.

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10 Claims

1. In a sewage treatment plant and process having a liquid side in which nitrogen removal is effected, a method of operating the liquid side of the treatment process so as to effect nitrification and denitrification within a single tank and simultaneously to remove water, comprising:
- maintaining an aerobic/anoxic zone in a tank receiving plant influent wastewater, wherein nitrification and denitrification occur simultaneously and continuously, maintaining dissolved oxygen concentration in the aerobic/anoxic zone in a fluctuating range, allowing dissolved oxygen concentration to approach the lower end of said range and monitoring the status of bacteria in the aerobic/anoxic zone and detecting when some of the bacteria in the zone turn anaerobic, after the anaerobic condition has been detected, increasing dissolved oxygen in the aerobic/anoxic zone by increasing aeration to promote nitrification with the formation of nitrates, then reducing aeration to the aerobic/anoxic zone to an extent to allow the bacteria to consume dissolved oxygen and then to consume nitrates in a denitrification cycle, releasing nitrogen gas, repeating the steps of monitoring, increasing dissolved oxygen and reducing aeration, and simultaneously removing filtrate water from the wastewater in the aerobic/anoxic zone while conducting the above steps, using at least one membrane separator in the aerobic/anoxic zone, whereby need for separate clarification on the liquid side of the plant is eliminated.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The method of claim 1, wherein the fluctuating range of dissolved oxygen concentration is about 0.1 ppm to about 1.0 ppm.
  - 3. The method of claim 1, with continuous flow maintained into and out of the aerobic/anoxic zone tank.
  - 4. The method of claim 1, with intermittent flow into and out of the aerobic/anoxic zone tank.
  - 5. The method of claim 1, further including removing sludge as an effluent from the aerobic/anoxic zone tank, to go to a solids side of the treatment plant.
  - 6. The method of claim 1, wherein the aerobic/anoxic zone tank receives influent wastewater at multiple points so as to maintain substantially complete mix conditions.
  - 7. The method of claim 1, including the step of agitating the wastewater at the membrane separator while aerating, using turbulence caused by aeration in the aerobic/anoxic zone, thereby cleaning the membrane separator of clogging.

8. In a sewage treatment plant having a liquid side in which nitrogen removal is effected, a nitrification/denitrification and water removal subsystem within a single tank, avoiding the need for downstream clarifiers, comprising:
- a single tank receiving plant influent wastewater and defining an aerobic/anoxic zone, aerators in the single tank, at least one membrane separator within the single tank positioned to remove filtrate water from the wastewater in the aerobic/anoxic zone, and control means for;
  
  maintaining dissolved oxygen concentration in the aerobic/anoxic zone in a fluctuating range, allowing dissolved oxygen concentration to approach the lower end of said range and monitoring the status of bacteria in the aerobic/anoxic zone and detecting when some of the bacteria in the zone turn anaerobic, after the anaerobic condition has been detected, increasing dissolved oxygen in the aerobic/anoxic zone by increasing aeration to promote nitrification with the formation of nitrates, then reducing aeration to the aerobic/anoxic zone to an extent to allow the bacteria to consume dissolved oxygen and then to consume nitrates in a denitrification cycle, releasing nitrogen gas, and repeating the steps of monitoring, increasing dissolved oxygen and reducing aeration, while simultaneously extracting water with the membrane separator, whereby need for separate clarification on the liquid side of the plant is eliminated.
- View Dependent Claims (9, 10)
- - 9. The invention of claim 8, wherein the fluctuating range of dissolved oxygen concentration is about 0.1 ppm to about 1.0 ppm.
  - 10. The invention of claim 8, wherein at least some of the aerators being located adjacent to the membrane separator so as to agitate the wastewater at the membrane separator while aerating, using turbulence caused by the aeration in the aerobic/anoxic zone to thereby clean the membrane separator of clogging.

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Current Assignee
Ovivo Inc. (Susanne Klatten, MBA)
Original Assignee
Enviroquip, Inc. (Groupe LaPerriere & Verreault Inc.)
Inventors
Porteous, James, Livingston, Dennis C., Trivedi, Hiren K.
Primary Examiner(s)
Prince, Fred G.

Application Number

US10/174,223
Time in Patent Office

715 Days
Field of Search

210/605, 210/614, 210/621, 210/622, 210/630, 210/205, 210/220, 210/258, 210/259, 210/260, 210/903, 210/908
US Class Current

210/605
CPC Class Codes

C02F 3/1273   Submerged membrane bioreactors

C02F 3/301   Aerobic and anaerobic treat...

C02F 3/302   Nitrification and denitrifi...

Y02W 10/10   Biological treatment of wat...

Y10S 210/903   Nitrogenous

Sewage treatment process

First Claim

6 Assignments

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Abstract

89 Citations

10 Claims

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Sewage treatment process

First Claim

6 Assignments

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Accused Products

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Abstract

89 Citations

10 Claims

Specification

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Solutions

Use Cases

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