bacteria counter wade may co-advisors: dr. todd giorgio, ph.d dr. bob galloway, ph.d dept. of...
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![Page 1: Bacteria Counter Wade May Co-Advisors: Dr. Todd Giorgio, Ph.D Dr. Bob Galloway, Ph.D Dept. of Biomedical EngineeringCopyright © 1999 Vanderbilt University](https://reader036.vdocument.in/reader036/viewer/2022083006/56649f315503460f94c4c457/html5/thumbnails/1.jpg)
Bacteria Counter
Wade May
Co-Advisors:Dr. Todd Giorgio, Ph.DDr. Bob Galloway, Ph.D
Dept. of Biomedical Engineering Copyright © 1999 Vanderbilt University
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Problem/Market
• Chemical plants and treatment facilities have large volumes of fluid traveling through piping systems. – This fluid is always susceptible to bacterial
contamination.• There is not a quick, cheap, and accurate way to
measure bacterial concentrations in these fluids. – Current methods take 24 hours to give an estimate
of bacterial concentrations. – At large plants, 24 hours of unusable products can
represent a loss in excess of $100,000.
Dept. of Biomedical Engineering Copyright © 1999 Vanderbilt University
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Goals/Objectives
• Develop a simple, effective device that will measure bacterial concentrations in an aqueous medium.
• The device should be relatively cheap (expensive methods already exist).
• Measurements should be available in a short period of time (less than 10 minutes).
• The device should perform its task with minimal or no safety hazards.
Dept. of Biomedical Engineering Copyright © 1999 Vanderbilt University
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Proposed Solution
• Separate bacteria in a strong magnetic field and measure the induced voltage due to their charge.
• This could be added online in a facility such as a chemical plant.
• This device would be fairly inexpensive, safe, and could provide real-time measurements.
Dept. of Biomedical Engineering Copyright © 1999 Vanderbilt University
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Background (Physics)
• A magnetic field induces a force on a moving particle according to the following cross product (- charge):
Dept. of Biomedical Engineering Copyright © 1999 Vanderbilt University
F = qv x B
q is the charge, v is the velocity, B is the magnetic field, F is the induced force
+
–
V (induced voltage)
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Pump
North South
Flow
Induced Voltage
B-Field
FluidBath
Stirrer
Injected Charged Particles
Overall System Design
Dept. of Biomedical Engineering Copyright © 1999 Vanderbilt University
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Work Completed
• Literature search. • Web site design. • Faculty meetings and discussions.• System design.
Dept. of Biomedical Engineering Copyright © 1999 Vanderbilt University
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Future Work
• Gather all materials needed for a rough prototype. • Build and test system with saline. • Scale down system to smaller charged particles. • Design additional circuitry as necessary for
amplification. • Choose specific bacteria to work with.
Dept. of Biomedical Engineering Copyright © 1999 Vanderbilt University