In an agitated tank with vertical baffles, what is the recommended minimum baffle height relative to tank size to control swirling and improve mixing?
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AEqual to the impeller diameter
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BTwice the impeller diameter
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CTwice the tank diameter
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DAbout three-quarters (3/4) of the tank height
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ENo baffles are needed for axial-flow impellers
Answer
Correct Answer: About three-quarters (3/4) of the tank height
Explanation
Introduction / Context:Baffles suppress vortexing, increase turbulence, and enhance top-to-bottom mixing in stirred tanks. Their height is a key geometric parameter that determines liquid-surface stability and circulation patterns for a wide range of viscosities and impeller types.
Given Data / Assumptions:
- Cylindrical, baffled tank with a standard impeller (e.g., Rushton or pitched-blade turbine).
- Goal is to reduce swirling and improve mixing uniformity.
- Typical design practice for general chemical service.
Concept / Approach:Best practice extends baffles close to the liquid surface and down toward the bottom to intercept tangential flow. Heights significantly shorter than the liquid depth allow a strong surface vortex; excessively long baffles can be impractical or interfere with internal fittings. A commonly adopted guideline is a baffle height of roughly 70–80% of the liquid height (≈ 3/4 of tank height).
Step-by-Step Solution:Choose a baffle height that reaches most of the liquid column to damp swirl.Adopt 3/4 of tank height as a robust rule of thumb balancing performance and fabrication.Verify clearances near the bottom and freeboard near the top to avoid solids build-up or gas entrainment.
Verification / Alternative check:Textbook and vendor guidelines (with baffle width ≈ 1/12 to 1/10 of tank diameter) pair well with 3/4 height for general liquids, delivering predictable power draw and flow patterns.
Why Other Options Are Wrong:(a) and (b) tie height to impeller size rather than liquid depth; (c) is unrealistic; (e) is incorrect—most axial impellers still benefit from baffles.
Common Pitfalls:Stopping baffles far below the surface; ignoring freeboard and bottom clearances; assuming gas dispersion duties use the same geometry without checks.
Final Answer:About three-quarters (3/4) of the tank height