humidity controlled oven capstone team 2012
DESCRIPTION
Humidity Controlled Oven Capstone Team 2012. Team Members: Paul Lucas Mircea Bec Khoi Nguyen Thong Truong Meshari Al Ebrahim Asgedom Gebrehiwot PSU Faculty Advisor Dr. Faryar Etesami Boeing Industry Advisor Rory Olson. Outline. Project Background Mission Statement - PowerPoint PPT PresentationTRANSCRIPT
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Humidity Controlled OvenCapstone Team 2012
Team Members:Paul LucasMircea BecKhoi NguyenThong TruongMeshari Al EbrahimAsgedom Gebrehiwot
PSU Faculty AdvisorDr. Faryar Etesami
Boeing Industry AdvisorRory Olson
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Project Background Mission Statement Basic Requirements Temperature Vs. RH Plot External Search Design Evaluation Humidifier Sizing Parts Illustration Final Design Conclusion Questions
Outline
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Objective:◦Produce a retrofit-able sealant oven capable of
controlling humidity and temperature that allows for more efficient flow control
Current Methods:◦Large size - Inefficient flow control◦Anchored to floor - Costly to move
Project Background
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The Boeing Capstone Team will design an efficient curing oven that can embrace the advantages of each of the current sealing methods known as “lean” and “traditional”. The goal is to control the humidity and temperature to a certain level that allows for a better flow control. The final design will be prototyped and documented, with all of its performance characteristics quantified.
Mission Statement
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Humidity: RH 50 ± 5% Temperature: 130 ± 5 o F Water tank must be un-plumbed and less than 35 lb in weight. Power source must be 120v AC at 60Hz. The oven must be lasted for at least5 years
Basic Requirements
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0 200 400 600 800 1000 1200 1400 16000
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RHTemperature
Time (sec)
Tem
pera
ture
(F)
/RH
(%
)
Temperature Vs. RH
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Atomizing Water Method:Advantages Inexpensive Suitable for lower temperature
and lower humidity
Disadvantages Droplet/Moisture formation Temperature change
External Search
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Steam Injection Method:• AdvantagesHigher RH (100%)Dry processNo temperature change
• DisadvantagesDelay initial steam supplyMore complex designExpensive (steam generator)Mass flow rate from 4 lbm/hr to 60 lbm/hr
External Search Cont.
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Stulz-Ultrasonic Humidifier: (Current Design)• Advantages:
Very fine mist: 1micro average diameterSmall Size (10.71” x 8.27’’)Long service lifeMass flow-rate from 2 to 4 lbm/hr
External Search Cont.
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Concept Scoring Matrix
Design Evaluation
Weight
Atomizing Water
Steam Injection
Ultrasonic Humidifier
Performance Humidity Control Temperature Uniformity Moisture Prevention
3 9 11 15
1 2 3 4
2 2 5 8Cost 3 12 3 3
Mobility 1 3 2 5
Total 10 28 32 35
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State 1: (Room condition)
P1,a = 101.33 kPa T1 = 25oC = 278.15 K RH = 65% P*Air (25oC) = 3.17
kPa V = 36 ft3 = 1.02 m3
State 2: (Required condition)
Poven = ? T2 = 57oC = 330.15 K RH = 50% P*Air (57oC)=17.85
kPa V = 36 ft3 = 1.02m3
Humidifier Sizing
Poven = 157.5 kPa
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Ultrasonic Humidifier condition
T = 100oC P = 160 kPa Inlet area = 0.0041 m2
Assume Vvapor = 0.03 m/s
Humidifier Sizing Cont…
Mass flow rate: 1.46 lbm/hr
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Parts Illustrations
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Final Design
Ultrasonic Humidifier was mounted to the oven
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Project Requirement Achieved:• Performance• Life in Service• Ergonomics
Conclusion
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?Questions