Oxygen control system and method for wastewater treatment

I claim: 1. A method of controlling dissolved oxygen levels in a secondary treatment system of a wastewater treatment facility to prevent bulking and minimize generation of extra cellular polymeric substances, said method comprising: introducing oxygen into mixed liquor contained in the aeration basin of the secondary treatment system to support bacterial activity within the aeration basin provided in part by return activated sludge; measuring a dissolved oxygen concentration within the mixed liquor with an oxygen sensor having a response time equal to a time delay between measurement of the dissolved oxygen and a change in the oxygen injection rate; multiplying an oxygen uptake rate at which the oxygen is consumed in the mixed liquor by the response time to obtain a dissolved oxygen adjustment factor; calculating a minimum dissolved oxygen set point by adding the dissolved oxygen adjustment factor to a minimum system dissolved oxygen concentration selected to prevent bulking and minimize generation of extra cellular polymeric substances; and controlling the oxygen introduction into the mixed liquor so that the dissolved oxygen concentration is no less than the minimum dissolved oxygen set point and no greater than a maximum dissolved oxygen set point that is less than a solubility limit of the dissolved oxygen within the mixed liquor. 2. The method of claim 1 , wherein: a level of mixed liquor suspended solids is measured with a suspended solids sensor located within the aeration basin; the minimum system dissolved oxygen concentration is calculated from data that relates at least the level of mixed liquor suspended solids, as measured by the suspended solids sensor, to minimum system dissolved oxygen concentration values referable to inferred food to mass ratios that will prevent bulking and minimize generation of extra cellular polymeric substances; and the minimum system dissolved oxygen concentration is continually updated from the minimum system dissolved oxygen concentration values contained within the data and based at least upon the level of mixed liquor suspended solids as measured by the suspended solids sensor. 3. The method of claim 1 or claim 2 , wherein: a target dissolved oxygen set point is calculated from an arithmetic average of the maximum dissolved oxygen set point and the minimum dissolved oxygen set point; when the oxygen concentration as measured by the oxygen sensor is above the target dissolved oxygen set point, the oxygen introduction into the mixed liquor is suspended, a rate of change of the dissolved oxygen concentration, as measured by the sensor, is calculated and the oxygen uptake rate is set equal to the rate of change of the dissolved oxygen concentration; and when the oxygen concentration as measured by the oxygen sensor is below the target dissolved oxygen set point, the oxygen introduction into the mixed liquor is controlled so that the oxygen concentration as measured by the oxygen sensor at least approaches the target dissolved oxygen set point. 4. The method of claim 3 , wherein: the secondary treatment system has a membrane bioreactor; an effluent stream from the aeration basin is introduced into a membrane bioreactor to separate a solid content therefrom and thereby to produce a retentate and a permeate stream; and the return activated sludge is produced by introducing the retentate stream from the membrane bioreactor to the aeration basin; and the prevention of bulking and minimization of the generation of extra cellular polymeric substances in turn prevents fouling of membranes within the membrane bioreactor. 5. The method of claim 4 , wherein the oxygen is introduced into the mixed liquor by introducing an oxygen stream into a headspace of a ballast chamber of mixing device having a draft tube connected to the ballast chamber and an impeller driven within the draft tube to draw the mixed liquor into one end of the draft tube along with the oxygen and to expel a resulting liquid gas mixture from the other end of the draft tube; and the oxygen injection is controlled by a remotely activated valve situated between the headspace of the mixing device and a source of the oxygen stream. 6. The method of claim 3 , wherein the maximum dissolved oxygen set point is calculated by adding to the minimum dissolved oxygen set point, a preselected dissolved oxygen value of between 1.0 and 5.0 milligrams/liter dissolved oxygen. 7. A system for controlling dissolved oxygen levels in a secondary treatment system of a waste water treatment facility to prevent bulking and generation of extra cellular polymeric substances, said system comprising: the secondary treatment system having an aeration basin containing a mixed liquor, means for introducing oxygen into the mixed liquor, the oxygen introducing means responsive to an oxygen control signal to control the introduction of the oxygen into the mixed liquor and means for providing return activated sludge to the mixed liquor; an oxygen sensor located within the mixed liquor for generating a dissolved oxygen signal referable to a dissolved oxygen concentration within the mixed liquor, the oxygen sensor having a response time equal to a time delay between measurement of the dissolved oxygen and a change in the oxygen injection rate; and a controller responsive to the dissolved oxygen level signal, configured to generate the oxygen control signal and having a control program, programmed to periodically execute; the control program, during each execution, programmed to: multiply an oxygen uptake rate at which the oxygen is consumed in the mixed liquor by the response time to obtain a dissolved oxygen adjustment factor; calculate a minimum dissolved oxygen set point by adding the dissolved oxygen adjustment factor to a minimum system dissolved oxygen concentration selected to prevent bulking and minimize generation of extra cellular polymeric substances; and generate the oxygen control signal and thereby control the oxygen injection so that the dissolved oxygen concentration as measured by the oxygen sensor is no less than the minimum dissolved oxygen set point and no greater than a maximum dissolved oxygen set point that is less than a solubility limit of the dissolved oxygen within the mixed liquor. 8. The system of claim 7 , wherein: a suspended solids sensor is located within the aeration basin and configured to generate a suspended solids signal referable to a level of mixed liquor suspended solids; the controller is responsive to the suspended solids signal; the control program contains data that relates at least the level of mixed liquor suspended solids, as measured by the suspended solids sensor, to minimum system dissolved oxygen concentration values referable to inferred food to mass ratios that will prevent bulking and minimize generation of extra cellular polymeric substances; and during each execution of the control program, the control program determines the minimum system dissolved oxygen concentration from the minimum system dissolved oxygen concentration values contained in the data based at least upon the level of mixed liquor suspended solids as measured by the suspended solids sensor. 9. The system of claim 7 or claim 8 , wherein: the oxygen introducing means is an oxygen introduction device configured to inject oxygen into the mixed liquor, a remotely activated control valve positioned between a source of the oxygen and the oxygen introduction device and a local controller responsive to the oxygen control signal and the dissolved oxygen signal; the local controller configured to control a degree to which the remotely activated valve is opened and the flow of the oxygen so that the oxygen concentration as measure