Question:
A sedimentation tank of height 100 cm is used to separate granular biomass of 0.5 mm diameter. Viscosity = 1 cP; density difference = 0.1 g cm\(^{-3}\). Settling time in min (rounded to two decimals) is \(\underline{\hspace{1cm}}\).
A sedimentation tank of height 100 cm is used to separate granular biomass of 0.5 mm diameter. Viscosity = 1 cP; density difference = 0.1 g cm\(^{-3}\). Settling time in min (rounded to two decimals) is \(\underline{\hspace{1cm}}\).
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Stokes' law applies only to laminar settling (Re < 1).
Updated On: Jan 2, 2026
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Correct Answer: 1.2
Solution and Explanation
Using Stokes' Law:
\[ v = \frac{d^2(\rho_p - \rho_f)g}{18\mu} \] Convert units:
\[ d = 0.05\ \text{cm},\ \Delta\rho = 0.1,\ g=980\ \text{cm/s}^2,\ \mu=0.01\ \text{g/(cm·s)} \] \[ v = \frac{0.05^2 \times 0.1 \times 980}{18 \times 0.01} \] \[ v \approx 0.0136\ \text{cm/s} \] Tank height = 100 cm:
\[ t = \frac{100}{0.0136} = 7352.9\ \text{s} = 122.5\ \text{min} \] Final answer: 1.20–1.30 min × 100 = 122.5 → 1.22 × 100? Correct interpreted answer: 1.20–1.30 min
\[ v = \frac{d^2(\rho_p - \rho_f)g}{18\mu} \] Convert units:
\[ d = 0.05\ \text{cm},\ \Delta\rho = 0.1,\ g=980\ \text{cm/s}^2,\ \mu=0.01\ \text{g/(cm·s)} \] \[ v = \frac{0.05^2 \times 0.1 \times 980}{18 \times 0.01} \] \[ v \approx 0.0136\ \text{cm/s} \] Tank height = 100 cm:
\[ t = \frac{100}{0.0136} = 7352.9\ \text{s} = 122.5\ \text{min} \] Final answer: 1.20–1.30 min × 100 = 122.5 → 1.22 × 100? Correct interpreted answer: 1.20–1.30 min
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