Nanofluidic Characterization System Review *numero dos David Sharp David West Justin Davis.
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Transcript of Nanofluidic Characterization System Review *numero dos David Sharp David West Justin Davis.
![Page 1: Nanofluidic Characterization System Review *numero dos David Sharp David West Justin Davis.](https://reader035.fdocuments.in/reader035/viewer/2022081516/56649ef45503460f94c0722b/html5/thumbnails/1.jpg)
Nanofluidic Nanofluidic Characterization System Characterization System
Review *numero dosReview *numero dosDavid SharpDavid WestJustin Davis
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Help we needHelp we need
Better understanding of this low flow
Understanding what we’ve calculated◦Is this data on par with what we should be seeing for results?
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Calculation Assumptions
Laminar Flow through the pipeStandard Temperature and PressureFully Developed FlowSteady FlowIncompressible FlowLosses calculated for plastic membrane
holder dimensional changes.
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Characterizing Flow
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Flow rate Vs Pressure DropFlow rate Vs Pressure Drop
0 1 2 3 4 5 6 7 8 9 100
1
2
3
4
5
6
7
8Pressure Drop vs Flow Rate (Constant Temperature 20°C)
Flow Rate (mL/min)
Pre
ssur
e D
rop
(Pa)
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What does this graph tell us?What does this graph tell us?
Max pressure drop with flow at 10 ml/min=7.37632 pa
Min pressure drop with flow at .01ml/min=.00737632 Pa
Pressure drop is very small within this flow range◦Pressure gauges not available to a resolution
down to .01 Pa.
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Pressure drop Vs Temp Constant Pressure drop Vs Temp Constant flowflow
20 20.5 21 21.5 22 22.5 233.6696
3.6698
3.67
3.6702
3.6704
3.6706
3.6708Pressure Drop vs Temperature (Constant Flow Rate 5mL/min)
Temperature °C
Pre
ssur
e D
rop
(Pa)
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What does this graph tell us?What does this graph tell us?
Temperature hardly affects flowNo need for expensive sensors
◦One thermocouple or RTD should be applicable
◦Max: 3.67077 Pa◦Min: 3.66971 Pa
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Pressure drop Vs temperature Pressure drop Vs temperature (varying flow)(varying flow)
20 20.5 21 21.5 22 22.5 232.9355
2.936
2.9365
2.937
2.9375
2.938
2.9385
2.939Pressure Drop vs Temperature with Lines of Constant Flow
Temperature °C
Pre
ssur
e D
rop
(Pa)
4.000 mL/min
4.001 mL/min4.002 mL/min
4.003 mL/min
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What does this graph tell us?What does this graph tell us?
Clearer depiction of flow change and pressure drop
Appears that resolution should be down to .001 Pa
This resolution cannot be measured with a sensor◦Possible error in calculation?
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Flow rate vs Pressure Drop Flow rate vs Pressure Drop (varying pipe diameters)(varying pipe diameters)
0 1 2 3 4 5 6 7 8 9 100
1
2
3
4
5
6
7
8Pressure Drop vs Flow Rate (Constant Lines of Inlet/Outlet Pipe Diameter)
Flow Rate (mL/min)
Pre
ssur
e D
rop
(Pa)
1/8 in3/16 in
1/4 in
3/8 in
1/2 in3/4 in
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What does this graph tell us?What does this graph tell us?
The larger the pipe the lower the drop1/8” has highest pressure change
◦If gauge readable pressure drop wanted this may be the best size pipe to use
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Pressure drop vs D (varying flows)Pressure drop vs D (varying flows)
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.80
1
2
3
4
5
6
7
8Pressure Drop vs Inlet/Outlet Diameter (Constant Lines of Flow Rate)
Inlet/Outlet Diameter (in)
Pre
ssur
e D
rop
(Pa)
1 mL/min2 mL/min
3 mL/min
4 mL/min
5 mL/min6 mL/min
7 mL/min
8 mL/min
9 mL/min10 mL/min
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What does this graph tell us?What does this graph tell us?
With flow rate down to 1 mL/min pressure change extremely hard to visualize
The higher the flow the greater the drop in pressure
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Pressure resolutionPressure resolution
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 10
1
2
3
4
5
6
7
8x 10
-3 Pressure Resolution vs Smallest Flow Rate Increment
Flow Rate (mL/min)
Pre
ssur
e D
rop
(Pa)
Assumes 1% of P Drop from Q Step Possibilities as Reasonable Resolutions
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What does this graph tell us?What does this graph tell us?
Shows pressure resolution when incrementing by .1 mL/min
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Calculating FlowCalculating Flow
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Pressurizing the vessel Pressurizing the vessel
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Using city waterUsing city water
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Using City water feasable?Using City water feasable?
Could be a valid solution
Pipe diameter would have to be extremely small
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Computer Interface
LabView’s visual interface makes it ideal for observing data during experimentation
Ease to control sensors and other instruments
Data can then be either exported from LabView for further analysis
Although MatLab is a powerful program, LabView’s user friendly interface makes it the better choice
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Final ConsiderationsFinal Considerations
Key Considerations Moving forward◦Keeping under budget◦Keeping within specifications◦Accuracy
What Lies Next◦Exact calculations for chosen flow system◦Computerized detailed schematics of system