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- Caulked holes from previous baffle layouts for 32 baffles to allow for reuse on secondary baffle system setup
- Drilled holes and cut baffles according to Adjustable Baffle System design
- Cut Pex tubing as spacers for secondary baffle system
- Assembled secondary baffle system
Outcomes
- Completed baffles for secondary baffle system to which when system is complete will allow for one system to be adjusted while another system is in the tank being tested
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- Calculated range of energy dissipation rates for various non-tapered baffle spacings (b)
Metrics
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h6. Equation for energy dissipation:
!energydissform.JPG!
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Q = 100 L/min
K. K baffle = 4
Π . cell = 14
w = 12 in.305 m
b = various spacings (inm)
b (inm) | ε (mW/kg) |
2" .0051 | 49 12.099 275 |
3" .076 | 9 2.699 425 |
4" .102 | 3 .069 767 |
5" .127 | 1 .257 314 |
6" .152 | 0.606 152 |
7" .178 | 0.327 082 |
8" .203 | 0.192 048 |
Outcomes
- Have range of values of spacings to be tested with adjustable baffle system to find an optimal energy dissipation rate. With both sets of baffles done and a range of dissipation rates to test we can turn on the plant and begin taking turbidity profiles.
Working Group 3
Accomplishments
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- Begun addressing issues of organization from midterm wiki feedback
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- Begun overall reorganization/recombination of redundant pages
Outcomes
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- Pilot Plant wiki space is gradually becoming more organized