smart airflow™ - purdue engineeringsmart airflow concept • ventilation – develop a low cost...
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SMART AIRFLOW™A ventilation airflow virtual sensor
Jon Douglas Applied Research
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Outline
• Background– Ventilation rules as applied to RTUs– Setting ventilation rates with economizers
• Describe the Smart Airflow concept• Engineering behind it• Summarize benefits of virtual sensors
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Factors Impacting Ventilation Rate
• Damper position• Return duct design• Supply airflow rate 3
• Damper position• Return duct design• Supply airflow rate
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Ventilation Background
• Building codes require ventilation in commercial buildings.• Amount required based on:
• Floor Area• Number of occupants
• Typically 10 – 30% of supply airflow
– Two common implementations– Fixed ventilation – Demand control ventilation
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Controls Configuration for Ventilation
– Single speed fan– Min damper position
– Variable speed fan– Min damper position at low airflow– Min damper position at high airflow
– Demand control ventilation– Min damper position min CO2 & low airflow– Min damper position at max CO2 & high airflow
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Setting Minimum Damper Positions
• Test and Balance Contractor– Iterative– Low velocity potentially inaccurate
15% OD air = 61 fpm = 0.7mph
• Guess– 15% open = 15% outdoor – Function of damper design– Very inaccurate
• Average error 46%• Max error 127%
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0
100
200
300
400
500
600
700
800
900
1000
0 100 200 300 400 500 600 700
Actual Ven
tilation Ra
te (C
FM)
Desired Ventilation Rate (CFM)
Ventilation ERROR when Using Percent Open = Percent OD air
DESIGN A DESIGN B
Average Error +86 CFM
Average Error ‐71
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Smart Airflow Concept
• Ventilation– Develop a low cost virtual ventilation airflow sensor– Installer to configure system based on ventilation airflow– Add economizer diagnostics
• Supply Airflow– Same features, but out of scope
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Lab Setup
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T
Airflow measurementplenum
Return Duct Supply Duct
Rooftop Unit
TransitionDuct
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Development Methodology
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Supply Airflow
Return Duct DP
Damper Position Ventilation Airflow Rate
Inlet filter DP
Wind
Barometric Relief
Wind
Outdoor Damper DP
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Damper Calibration Curve
0% 5% 10% 15% 20% 25% 30% 35% 40% 45% 50%
Outdoor Damper Position (% open)
IC29310
IC29307
IC29309 #2 Refit
IC29308
Fit
Error Plus
Error Minus
air
ODVent
PCAQ
1096
Average Error 16%
Dam
per E
ffect
ive
Are
a (C
A)
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Feedback Control Loop
• Control design challenges– Slow actuator: 30‐90 seconds between closed to open– Actuator resolution: Typically 1‐2%– Actuator life: Move actuator every 10 minutes
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Desired Ventilation
Controller
DamperCommand
Actual Position
Damper DP
VirtualSensorRTU
Measured Ventilation
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Solid Control Design = Good Fault Detection
• Properly handle “Edge Conditions”– Bad inputs
• Out of range DP = Bad pressure sensor• No feedback signal = Bad cable or failed actuator
– Controller output at limit• 100% open = Over ventilation• 0% open = Under ventilation
• FMEA on system– Pressure sensor tube falls off.– Actuator disconnects from damper
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Damper Diagnostic Using Differential Pressure
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0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100%
Pressure Differen
ce (in h2
o)
Damper Position (% open)
Return Duct Restriction
DamperError
Pressure Too Low, Sensor Error
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Benefits of Control with Virtual Sensors
• Customer– Interact with systems in engineering units.– Better performance– Natural diagnostics
• Company– Better understanding of products– Improved consistency of products
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