Practical Aeration Basin Control Methods

Background Information

The core of the activated sludge process is primarily dependent on the control of the aeration basin. The most essential component of any activated sludge plant is the biomass, anaerobic and aerobic bacteria, that attaches themselves to the waste, and digest the waste resulting in relatively clean water as the by-product.

There are several types of bugs that are responsible for different duties. There are the carbon eaters (carbonaceous) and chemical eaters like ammonia (nitrogenous). Just like any other living organism they need certain conditions in order to sustain life and reproduce.

Several types of bugs that are responsible for different duties.

Introduction

Many components in a process must be in balance in order to obtain complete synergy; example biomass blends, air, return activated sludge (RAS), waste activated sludge (WAS) and throughput. The aeration basin is a holding and/or treatment pond that everything cycles through. It is essential to monitor and control several factors that can influence the efficiency of the biological conditions in the basin; for example:

Temperature: Normally the temperature will be between 10-40°C. Most biomass bugs achieve optimum efficiency in this range. Increasing or decreasing the temperature can result in the increasing or decreasing the rate at which the bugs eat and reproduce. Along with this all chemical reactions that are taking place at the same time are affected by the process temperature as well.

pH: For most systems the pH should be kept between 6.5 to 8.5 pH, when the pH is too high or too low, the biomass losses the ability to convert the food to energy and raw materials. A pH below 6.5 may cause the growth of fungi and fungal bulking, and will have to be adjusted using a caustic, lime or magnesium hydroxide.

Low Nutrients: If nitrogen and phosphorus are not presented in sufficient amount it can limit the growth rate of the biomass. A sign of nutrient deficiency includes foam on the aeration basin.

Dissolved Oxygen: DO is one of the most critical points of measurement; for most processes the target concentration will be between 1-3 mg/L. The concentration amount is an indication of the basin environment; whether it is in denitrification (excess nitrate, NO3) or nitrification (excess ammonium, NH4) environment. Essentially the DO measurement is set to a level to minimize the ammonium breakthrough. It is not uncommon to see NH4 and DO measurements together.

The DO measurement should be maintained at the point of greatest oxygen demand in the system. Normally this is near the intake portion of the aeration basin, because when the process is in the secondary clarifier no oxygen is added and the biomass bugs are starved of oxygen. When the process is returned to the aeration basin via the RAS pumps the biomass is returned to an oxygen rich area and the bug consume vast amounts of oxygen right away.

Septicity/Toxicity: Septic wastes contain elevated amounts of sulfides and organic acids (such as acetic acid). Other organic materials and heavy metals are also toxic to the biomass, reducing their efficiency or even destroying them.

Plant

Summary

Having too much oxygen in the process is not a problem for the biological system; however the cost for generating the oxygen is one of the largest expenses. By obtaining a good representative average of the dissolved oxygen present in the basin could save the plant large amounts of money. For this reason multiple measurements points are sometimes put into place.

Product Recommendations

pH:
Transmitter:
 FLXA202/FLXA21 2-wire pH analyzer (intrinsic safety)
 FLXA402 4-wire pH converter (general purpose)

Sensors:
 FU20/FU24 Four-in-one pH sensor

Holders: (for FU20 sensor)
 PB30 Floating Ball, when using S200256L8 adapter

Dissolved Oxygen:
Transmitter:
 FLXA202/FLXA21 2-wire DO analyzer (intrinsic safety)
 FLXA402 4-wire converter (general purpose)

Option #1:
Sensors:
 DO30G Galvanic Sensor
Holders:
 PB30 Floating Ball
 FD30 Immersion Fitting

Option #2:
Sensors:
 DO70G/DO71/DO72 Optical DO Sensor
 Hamilton VisiFerm Optical DO Sensor
*Please note that an external 24 VDC power supply, like the Yokogawa DOX10, must be used with the sensor.

Holders:
 PB30 Floating Ball *Available as special*
 FD40 Immersion with K1523JA adapter

 

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Les produits et solutions liés

  • 2-Wire Transmitter/Analyzer FLXA202

    The FLEXA™ series analyzers are used for continuous on-line measurements in industrial installations. With an option for single or dual sensor measurement, they are the most flexible two-wire analyzer available.

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  • 2-Wire Transmitter/Analyzer FLXA21

    The FLEXA™ series analyzers are used for continuous on-line measurements in industrial installations. With an option for single or dual sensor measurement, they are the most flexible two-wire analyzer available.

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    Reusable SMART adapter, requiring only the analog sensor to be disposed of when it reaches the end of its lifetime. With the SENCOM 4.0 platform, Yokogawa delivers reduced costs and waste while contributing to its long-term business goals of a sustainable future for all.

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  • Optical Dissolved Oxygen Sensors DO71/DO72

    It is a fluorescent dissolved oxygen sensor that is easy to clean and stable for long term measurement. Sensor replacement is easy on site and reduces maintenance costs. It is possible to measure oxygen in a wide range including low concentration measurement.
    Suitable for use in water treatment plants such as sewage treatment plants and wastewater treatment plants under severe measurement conditions.
    Can be used in combination with FLXA402 liquid analyzer by digital communication.

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  • Dissolved Oxygen Sensors

    Dissolved Oxygen (DO) electrodes and sensors are the sensing portions of a DO measurement. There are three common technologies for dissolved oxygen measurements: polographic, galvanic and optical. Various installation options including floating ball, retractable, flow thru, immersion, and direct insertion. 

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