Sherwood number is a function of
Show Hint
Heat Transfer: \textbf{Nusselt (Nu)} is a function of \textbf{Reynolds (Re)} and \textbf{Prandtl (Pr)}.
Mass Transfer: \textbf{Sherwood (Sh)} is a function of \textbf{Reynolds (Re)} and \textbf{Schmidt (Sc)}. \end{itemize}
- Reynolds' number and Rayleigh number
- Rayleigh number and Grashof number
- Reynolds' number and Grashof number
- Reynolds' number and Schmidt number
The Correct Option is D
Solution and Explanation
Step 2: Recall the common correlations for convective mass transfer. For forced convection, the rate of mass transfer (represented by Sh) depends on the flow conditions and the fluid's properties related to mass diffusion.
Step 3: Define the related dimensionless numbers. Reynolds number (Re): Represents the ratio of inertial forces to viscous forces, characterizing the flow regime (laminar or turbulent).
Schmidt number (Sc): Represents the ratio of momentum diffusivity (kinematic viscosity) to mass diffusivity. It is the mass transfer equivalent of the Prandtl number. For forced convection mass transfer, the Sherwood number is typically expressed as a function of the Reynolds number and the Schmidt number: Sh = f(Re, Sc).
Top Questions on Mass Transfer
Ficks' law of diffusion states that mass flux per unit area of a component is directly proportional to its ________.
Arrange the steps involved in the gas transfer from gas bubble into bulk liquid
[A.] The gaseous component diffused through the quiescent liquid film into the bulk liquid.
[B.] The gaseous component enters into the liquid film.
[C.] Transportation of the gaseous component into the well mixed bulk liquid.
[D.] The aeseous component transported from the bulk gas to gas-liquid interphase.
Choose the most appropriate answer from the options given below:Match the LIST-I with LIST-II
LIST-I LIST-II (Diffusion Coefficients of Gases in Water at 20°C) D (\(10^{-9}\) m\(^2\) s\(^{-1}\)) A Chlorine I 2.1 B Carbon dioxide II 1.9 C Nitrogen III 1.6 D Oxygen IV 1.8 A wet solid of 100 kg containing 30 wt% moisture is to be dried to 2 wt% moisture in a tray dryer. The critical moisture content is 10 wt% and the equilibrium moisture content is 1 wt%. The drying rate during the constant rate period is 10 kg/(h m²). The drying curve in the falling rate period is linear. If the drying area is 5 m², the time required for drying ___________ h (rounded off to 1 decimal place).
Solute \(A\) is absorbed from a gas into water in a packed bed operating at steady state. The absorber operating pressure and temperature are 1 atm and 300 K, respectively. At the gas-liquid interface, \(y_i = 1.5 x_i\),
where \(y_i\) and \(x_i\) are the interfacial gas and liquid mole fractions of \(A\), respectively. At a particular location in the absorber, the mole fractions of \(A\) in the bulk gas and in the bulk water are 0.02 and 0.002, respectively. If the ratio of the local individual mass transfer coefficients for the transport of \(A\) on the gas-side (\(k_y\)) to that on the water-side (\(k_x\)), \(\frac{k_y}{k_x} = 2\), then \(y_i\) equals _________ (rounded off to 3 decimal places).
Questions Asked in CUET PG exam
- The approximate yield of ghee in kg from 100 kg buffalo milk is
- CUET (PG) - 2025
- Dairy Technology
- In buffalo milk the percentage of water is -
- CUET (PG) - 2025
- Dairy Chemistry
- 100 kg of buffalo milk will yield __________ kg of Khoa
- CUET (PG) - 2025
- Dairy Technology
Match the LIST-I with LIST-II
Choose the correct answer from the options given below:
Match the LIST-I with LIST-II
Choose the correct answer from the options given below:
- CUET (PG) - 2025
- Dairy Technology