Post on 18-Jan-2018
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BioWin3® – An Introduction
Michael D. Doran, P. E. DEEAdjunct Professor of Civil & Environmental Engineering
CEE 426
Presentation Outline• What is BioWin3®?• What can BioWin3® be used for?• How does BioWin3® work?• Some Examples• Cautions Using BioWin3® • Class Exercise
BioWin3® is Powerful WWTP Process Simulation Software
BioWin3® is microcomputer-based wastewater treatment plant process software that allows integrated steady state or dynamic unit process simulations.
According to EnviroSim Associates, Ltd., BioWin3® is the world-wide leader in WWTP simulator software.
BioWin3® Is Useful for:• Integrated “Mass Balance” Approach, Including
Sidestream Impacts• Preliminary Analysis of Various Processes for
Planning Purposes• Detailed Analysis of Unit Process Sizing and
Configuration during Design• Analysis of Diurnal Loads, Peak Wet Weather, Solids
Processing, etc., on Treatment Performance• Evaluating SRT, Temperature, Other Factors• Estimating Raw Solids Generation, Biosolids Process
Loadings, Stabilized Biosolids Generation
BioWin3® Includes Robust Models
• IAWQ Extended (for BNR) Activated Sludge• Fermentation• Poly P Organisms• Anaerobic Autotrophic (methane formers)• Clarifier Hindered Settling-Thickening• Clarifier Biological Activity• Oxygen Transfer
e.g.
Model Documentation can be Found in Literature
• General Model for Biological Nutrient Removal Activated Sludge Systems: Model Presentation, P.S. Barker and P.L. Dold, Water Environment Research, vol. 59, no. 5. 1997, p. 969.
• General Model for Biological Nutrient Removal Activated Sludge Systems: Model Application, P.S. Barker and P.L. Dold, Water Environment Research, vol. 59, no. 5. 1997, p. 985.
• COD and Nitrogen Mass Balances in Activated Sludge Systems, P.S. Barker and P.L. Dold, Water Research, vol. 29, no. 2, 1995, p. 633.
• An Introduction to Process Modeling for Designers, Water Environment Federation MOP 31, 2009.
e.g.
BioWin3® Uses an Effective Human Interface
Interface
Modeling Engine
Simulator Output ManagementGraphsTables
Configuration
Kinetic Parameters
Influent Characteristics
Performance Factors
The Configuration Screen is Used to Describe the Modeled System
BioWin3® Simulation Configured From ElementsInfluent Element
Clarifier Elements
Reactor Elements
Effluent Elements
Mixer Element
Anaerobic Digester Element
Splitter Element
Primary Clarifier Element
Pipe Element (typ)
BioWin3® Contains Useful Controls and Tools
• SRT Wasting Control For Act Sldg• Can Consider (or not) Clarifier Sludge Blanket,
Non-Aerated MLSS, etc., in Biomass Inventory for F/M or SRT
• Global Temperature (or can be set “locally”)• Simulation (Monitoring) and Tabular or Graphical
Output Formats; Export Utility• “Point and See” Information• Documentation Output Report to “WORD” or
Simulations Can Be Simple
Simulations Can Be Complex
Example – How Does the Model Predict Real Plant Performance?
Beloit WI WWTP Activated Sludge System
~3.0 hr HRT ~23 hr HRT
~ 8 d SRT
Example – 2008 Monthly Avg Beloit Data Used
Beloit WI WWTPInfluent Concentrations
0
100
200
300
400
500
600
700
0 2 4 6 8 10 12
Month (2008)
COD
and
TSS
(mg/
L)
0
10
20
30
40
50
60
70
TKN
and
P (m
g/L)
PRE COD
PRE TSS
PRE TKN
PI P
Example – BioWin3 Model Predicts Beloit Effluent Pretty Well
Default BioWin3 Coefficients Used for Model.
Beloit WI WWTPEffluent CBOD Concentrations
0123456789
0 2 4 6 8 10 12 14
Months (2008)
CBO
D (m
g/L)
PE CBOD Data
PE CBOD Model
Example – BioWin3 Model Predicts Beloit Effluent Pretty Well
Default BioWin3 Coefficients Used for Model.
Beloit WI WWTPEffluent TSS Concentrations
0123456789
0 2 4 6 8 10 12 14
Months (2008)
TSS
(mg/
L)
PE TSS Data
PE TSS Model
Example – BioWin3 Model Predicts Beloit Effluent Pretty Well
Beloit WI WWTPEffluent NH3N Concentrations
0.000.200.400.600.801.001.201.401.601.802.00
0 2 4 6 8 10 12 14
Months (2008)
NH3N
(m
g/L)
PE NH3N Data
PE NH3N Model
Default BioWIn3 Coefficients Used for Model.
Example – BioWin3 Model Predicts Beloit Effluent Pretty Well
Beloit WI WWTPEffluent P Concentrations
0.00.20.40.60.81.01.21.41.61.8
0 2 4 6 8 10 12 14
Months (2008)
Tota
l P (m
g/L)
PE P Data
PE P Model
Default BioWin3 Coefficients Used for Model.
Example 2 – Final Clarifier Performance vs. Loading Rate
Variable Infl Flowrate
500 gpd/sq ft800 gpd/sq ft
1,000 gpd/sq ft1,200 gpd/sq ft
Average OFR Values:
Example 2 – Flow Input of Typical Diurnal Pattern Used
Example 2 - TSS from Clarifiers
Example 2 - Effluent TSS Deteriorates at OFR above ~1,000 gpd/sq ft
Sludge Blanket “Blooms” at SLR above ~26 lb/d/sq ft
Close-up of Blanket Height Output from Simulation
Example 3 – Plant Mass Balance
Recycle Quantities (% of Infl):
Q=8.4% CBOD=5.6% TSS=18.3% TKN=19.2% TP=121%
Simulator Can Help Answer Key Design Questions
• What process, reactor sizings, recycle rates, etc. are best for my application?
• What Raw Sludge Loading to digestion can I expect During Peak Week and Peak Month Conditions?
• What Aeration Capacity is needed for Peak Conditions? What is the best Aeration tapering scheme?
• What SRT is best for different seasonal conditions?• What impact do Sidestreams have on performance of other
units?• How does my proposed design respond to seasonal
temperature variations, diurnal and peak loadings?• How does the proposed design handle wet weather I/I inputs
from severe storms?• etc., etc., etc.
BioWin3® Should Be Used with Care
• Study Workbooks and Do Tutorial Examples.• Carefully Complete All Input Screens for Element Properties.• Think About Information Needed; Construct Graphs or Tables
in “Album” for Desired Output.• Simulate Critical Cases (e.g., Peak Hr, Peak Day, Peak
Week, Critical Temperatures).• Keep Log of “Runs” and Save Files with Logical Name.• Ask Questions – I Have Found EnviroSim Staff to Be Very
Helpful!• Default Model Parameters have been Carefully Researched
by EnviroSim (for domestic wastewater), but May Not Apply to Your Case; Use Careful and Conservative Approach to Planning and Design; Calibrate model to specific wasteswater if necessary.
Questions-Discussion
Let’s Build This Simple Simulation