Sequencing Batch Reactor

Sequencing Batch Reactor

The Sequencing Batch Reactor (SBR) is an activated sludge process designed to operate under non-steady state conditions. An SBR operates in a true batch mode with aeration and sludge settlement both occurring in the same tank. The major differences between SBR and conventional continuous-flow, activated sludge system is that the SBR tank carries out the functions of equalization aeration and sedimentation in a time sequence rather than in the conventional space sequence of continuous-flow systems. In addition, the SBR system can be designed with the ability to treat a wide range of influent volumes whereas the continuous system is based upon a fixed influent flowrate. Thus, there is a degree of flexibility associated with working in a time rather than in a space sequence [1]. SBRs produce sludges with good settling properties providing the influent wastewater is admitted into the aeration in a controlled manner. Controls range from a simplified float and timer based system with a PLC to a PC based SCADA system with color graphics using either flow proportional aeration or dissolved oxygen controlled aeration to reduce aeration to reduce energy consumption and enhance the selective pressures for BOD, nutrient removal, and control of filaments [1]. An appropriately designed SBR process is a unique combination of equipment and software. Working with automated control reduces the number of operator skill and attention requirement. 

Process

The majority of the aeration equipment of sequencing batch reactors consist of jet, fine bubble, and coarse bubble aeration systems. The main focus of this report is a jet aerated sequencing batch reactor activated sludge system.Sequencing Batch Reactor Process Cycles The operating principles of a batch activated sludge process, or SBR, are characterized in six discrete periods:
1. Anoxic Fill
2. Aerated Fill
3. React
4. Settle
5. Decant
6. Idle.

Process

The majority of the aeration equipment of sequencing batch reactors consist of jet, fine bubble, and coarse bubble aeration systems. The main focus of this report is a jet aerated sequencing batch reactor activated sludge system.Sequencing Batch Reactor Process Cycles The operating principles of a batch activated sludge process, or SBR, are characterized in six discrete periods:
1. Anoxic Fill
2. Aerated Fill
3. React
4. Settle
5. Decant
6. Idle.

Flow Chart of Membrane Sequence Batch Reactor

 Features of Ionberg SBR

Constant water level
Continuous flow
Simple operation
Superior performance even in low-strength, low-temperature wastewaters common
Adept at processing high-peak hydraulic flows due to storm events
Quiescent settling prior to clarification phase
Optimized, enhanced biological nutrient removal

 

Advantages of Ionberg SBR

No need for separate structures
Unique flow through system
Basin configuration optimized
Existing aeration equipment can be used
Fully automated control system
Better sludge flocculation; no sludge collection mechanisms
Low TSS discharge; effective nitrification, denitrification and phosphorus removal

Advantages of Ionberg SBR

No need for separate structures
Unique flow through system
Basin configuration optimized
Existing aeration equipment can be used
Fully automated control system
Better sludge flocculation; no sludge collection mechanisms
Low TSS discharge; effective nitrification, denitrification and phosphorus removal

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