Dynamically responsive aerobic to anoxic inter-zone flow control system for single vessel multi-zone bioreactor wastewater treatment plants
First Claim
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1. An inter-zone flow rate control system for single vessel multi-zone bioreactor wastewater treatment plants with horizontally adjacent upper aerobic and anoxic zones;
- said inter-zone flow rate control system comprising;
at least one flow rate adjusting device provided between the aerobic and anoxic zones;
said flow rate adjusting device controlling a flow rate of mixed liquor between the aerobic and anoxic zones;
at least one sensor mounted in the single vessel multi-zone bioreactor to monitor a characteristic thereof;
wherein said flow rate adjusting device is so adjusted as to control the flow rate of the mixed liquor according to data gathered by said at least one sensor.
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Abstract
An inter-zone aerobic to anoxic zone flow rate control system for single vessel multi-zone bioreactor plants for wastewater treatment is described herein. The system of the invention provides control of the relative treatment times of the mixed liquor in the horizontally disposed and adjacent aerobic and anoxic treatment zones of the bioreactor by providing one or more flow rate adjusting gates located between the aerobic and anoxic zones of the bioreactor. The opening of the gates is adjustable in accordance with sensed conditions in the treatment zones. An automated embodiment of the invention includes a programmable logic controller that provides control scripts for adjusting the opening of one or more flow control gates according to inputs from sensors and per programmed instructions. An automated and supervised embodiment of the invention includes a computer interfaced with a programmable automating controller. The computer provides status reports, commands to the programmable automating controller, storage and analysis of data, as well as a means of communicating to remote monitoring centers and networks.
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Citations
33 Claims
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1. An inter-zone flow rate control system for single vessel multi-zone bioreactor wastewater treatment plants with horizontally adjacent upper aerobic and anoxic zones;
- said inter-zone flow rate control system comprising;
at least one flow rate adjusting device provided between the aerobic and anoxic zones;
said flow rate adjusting device controlling a flow rate of mixed liquor between the aerobic and anoxic zones;
at least one sensor mounted in the single vessel multi-zone bioreactor to monitor a characteristic thereof;
wherein said flow rate adjusting device is so adjusted as to control the flow rate of the mixed liquor according to data gathered by said at least one sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- said inter-zone flow rate control system comprising;
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11. An inter-zone flow rate control system for single vessel multi-zone bioreactor wastewater treatment plants with horizontally adjacent upper aerobic and anoxic zones;
- said inter-zone flow rate control system comprising;
at least one flow rate adjusting device provided between the aerobic and anoxic zones;
said flow rate adjusting device controlling a flow rate of mixed liquor between the aerobic and anoxic zones;
at least one dissolved oxygen sensor mounted in the anoxic zone to monitor a level of dissolved oxygen therein;
wherein said flow rate adjusting device is so adjusted as to control the flow rate of the mixed liquor to keep the level of dissolved oxygen in the anoxic zone within a predetermined range. - View Dependent Claims (12)
- said inter-zone flow rate control system comprising;
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13. An inter-zone flow rate control system for single vessel multi-zone bioreactor wastewater treatment plants with horizontally adjacent upper aerobic and anoxic zones;
- said inter-zone flow rate control system comprising;
at least one flow rate adjusting device provided between the aerobic and anoxic zones;
said flow rate adjusting device controlling a flow rate of mixed liquor between the aerobic and anoxic zones;
at least one flow rate sensor so mounted to the single vessel multi-zone bioreactor as to monitor the flow rate between the aerobic and anoxic zones;
wherein said flow rate adjusting device is so adjusted as to control the flow rate of the mixed liquor to keep retention times in the aerobic and anoxic zones at a predetermined ratio. - View Dependent Claims (14)
- said inter-zone flow rate control system comprising;
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15. An inter-zone flow rate control system for single vessel multi-zone bioreactor with horizontally adjacent aerobic and anoxic zones;
- said inter-zone flow rate control system comprising;
a programmable controller;
at least one powered flow rate adjusting device provided between the aerobic and anoxic zones for adjusting a flow rate of mixed liquor between the aerobic and anoxic zones;
said flow rate adjusting device being connected to said controller to be controlled thereby;
at least one sensor mounted in the single vessel multi-zone bioreactor to monitor a characteristic thereof;
said at least one sensor being connected to said programmable controller to supply characteristic data thereto;
wherein said programmable controller is so configured as to adjust said flow rate adjusting device so that the flow rate of the mixed liquor is controlled in response to the characteristic data gathered by said at least one sensor. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
- said inter-zone flow rate control system comprising;
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28. An inter-zone flow rate control system for single vessel multi-zone bioreactor with horizontally adjacent aerobic and anoxic zones;
- the bioreactor being provided with an adjustable oxygenation blower providing oxygen to said aerobic zone;
said flow rate control system including;
a programmable controller to which is connected said adjustable oxygenation blower;
at least one powered flow rate adjusting device provided between the aerobic and anoxic zones for adjusting the flow rate of mixed liquor between the aerobic and anoxic zones;
said flow rate adjusting device being connected to said controller to be controlled thereby;
at least one dissolved oxygen sensor mounted in the anoxic zone of the single vessel multi-zone bioreactor to monitor the dissolved oxygen level therein;
said at least one dissolved oxygen sensor being connected to said programmable controller to provide dissolved oxygen level data thereto;
wherein said programmable controller is so configured as to a) adjust said flow rate adjusting device so that the flow rate of the mixed liquor is controlled in response to the dissolved oxygen level data and b) adjust the oxygenation blower in response to the dissolved oxygen level data. - View Dependent Claims (29)
- the bioreactor being provided with an adjustable oxygenation blower providing oxygen to said aerobic zone;
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30. An inter-zone flow rate control system for single vessel multi-zone bioreactor with horizontally adjacent aerobic and anoxic zones;
- the bioreactor being provided with an adjustable output oxygenation blower providing oxygen to said aerobic zone;
said flow rate control system including;
a programmable controller to which is connected said adjustable oxygenation blower;
at least one powered flow rate adjusting device provided between the aerobic and anoxic zones for adjusting the flow rate of mixed liquor between the aerobic and anoxic zones;
said flow rate adjusting device being connected to said controller to be controlled thereby;
at least one dissolved oxygen sensor mounted in the anoxic zone of the single vessel multi-zone bioreactor to monitor the dissolved oxygen level therein;
said at least one dissolved oxygen sensor being connected to said programmable controller to provide dissolved oxygen level data thereto;
at least one flow rate sensor so mounted to the single vessel multi-zone bioreactor as to sense the flow rate of liquor between the aerobic and anoxic zones;
said at least one flow rate sensor being connected to said programmable controller to provide flow rate data thereto;
wherein said programmable controller is so configured as to a) adjust said flow rate adjusting device so that the flow rate of the mixed liquor is controlled in response to predetermined retention times in the aerobic and anoxic zones and b) adjust the oxygenation blower in response to the dissolved oxygen level data.
- the bioreactor being provided with an adjustable output oxygenation blower providing oxygen to said aerobic zone;
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31. A process for providing adaptability to changing influent characteristics in single vessel multi-zone bioreactors with an aerobic treatment zone that is horizontally adjacent to an anoxic treatment zone, through controlling the Dissolved Oxygen level in the anoxic treatment zone, said process of controlling the Dissolved Oxygen level in the anoxic treatment zone comprising the acts of:
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introducing a flow of mixed liquor from the aerobic treatment zone into the anoxic treatment zone through at least one adjustable opening disposed between the aerobic treatment zone and the anoxic treatment zone;
controlling the flow of mixed liquor from the aerobic treatment zone into the anoxic treatment zone through adjustments of the adjustable opening in accordance with the Dissolved Oxygen level in the anoxic treatment zone.
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32. A method for controlling the Dissolved Oxygen level in an anoxic treatment zone of a single vessel multi-zone bioreactors equipped with an adjustable output oxygenation blower, an aerobic treatment zone that is horizontally adjacent to the anoxic treatment zone and at least one Dissolved Oxygen sensor provided in the anoxic treatment zone to monitor the dissolved oxygen level therein, said method comprising the acts of:
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introducing a flow of mixed liquor from the aerobic treatment zone into the anoxic treatment zone through at least one adjustable opening disposed between said aerobic treatment zone and said anoxic treatment zone;
adjusting the adjustable output of the oxygenation blower in accordance with the Dissolved Oxygen level in the anoxic zone;
increasing in steps the adjustable output for increasing the Dissolved Oxygen level as determined necessary from the Dissolved Oxygen readings to the maximum allowable output of said adjustable output oxygenation blower, and decreasing in steps the adjustable output for decreasing the Dissolved Oxygen level as determined necessary from the Dissolved Oxygen readings to the minimum allowable output of the adjustable output oxygenation blower;
upon said adjustable oxygenation blower output reaching its maximum or minimum allowable output, adjusting the adjustable opening to control the flow of mixed liquor from the aerobic treatment zone into the anoxic treatment zone for controlling the Dissolved Oxygen level;
opening the adjustable opening in steps for increasing the Dissolved Oxygen as determined necessary from the Dissolved Oxygen readings and closing the adjustable opening in steps for decreasing the Dissolved Oxygen level as determined necessary from the Dissolved Oxygen level readings.
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33. A method for controlling the retention times of mixed liquor in the aerobic treatment zone and the anoxic treatment zone of single vessel multi-zone bioreactors for wastewater treatment where the aerobic treatment zone and the anoxic treatment zones are horizontally adjacent, said method comprising the acts of:
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providing at least one adjustable opening disposed between the aerobic treatment zone and the anoxic treatment zone for controlling the rate of inter-zone flow of mixed liquor from the aerobic treatment zone into the anoxic treatment zone;
monitoring said rate of inter-zone flow of mixed liquor from the aerobic treatment zone into the anoxic treatment zone; and
adjusting the adjustable opening for controlling the rate of the inter-zone flow in accordance with the flow rate information to control the retention time of the mixed liquor in the aerobic treatment zone and in the anoxic treatment zone.
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Specification
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Current AssigneeAtara Environmental, Inc.
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Original AssigneeAtara Environmental, Inc.
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InventorsEdwards, Haskell L., Kasparian, Kaspar A.
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Application NumberUS10/227,585Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current210/137CPC Class CodesC02F 2103/22 from the processing of anim...C02F 2103/32 from the food or foodstuff ...C02F 2209/005 Processes using a programma...C02F 2209/08 Chemical Oxygen Demand [COD...C02F 2209/22 O2C02F 2209/40 Liquid flow rateC02F 3/006 Regulation methods for biol...C02F 3/301 Aerobic and anaerobic treat...C02F 3/302 Nitrification and denitrifi...Y02W 10/10 Biological treatment of wat...
