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Mass transfer rate between two fluid phases does not necessarily depend on the __________ of the two phases.
- a)chemical properties
- b)physical properties
- c)degree of turbulence
- d)interfacial area
Correct answer is option 'A'. Can you explain this answer?
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Mass transfer rate between two fluid phases does not necessarily depen...
Mass Transfer Rate between Two Fluid Phases
Mass transfer refers to the movement of one or more components from one phase to another. The rate of mass transfer between two fluid phases is an important aspect in chemical engineering. It is affected by several factors, including the physical and chemical properties of the phases, the degree of turbulence, and the interfacial area. However, the mass transfer rate does not necessarily depend on the chemical properties of the two phases.
Chemical Properties
Chemical properties refer to the characteristics of a substance that determine how it interacts with other substances. These properties include things like solubility, reactivity, and polarity. While chemical properties can affect the rate of mass transfer in certain cases, they are not the primary determining factor.
Physical Properties
Physical properties refer to the characteristics of a substance that can be observed without changing its chemical composition. These properties include things like density, viscosity, and surface tension. Physical properties can play a significant role in determining the rate of mass transfer between two fluid phases. For example, the viscosity of a fluid can affect the rate of diffusion of a component through it.
Degree of Turbulence
Turbulence refers to the chaotic and unpredictable movement of fluids. The degree of turbulence can affect the rate of mass transfer by increasing the mixing of the two phases. This can lead to a larger interfacial area and a higher rate of mass transfer.
Interfacial Area
The interfacial area refers to the area of contact between the two fluid phases. A larger interfacial area can lead to a higher rate of mass transfer. This is because more surface area is available for the components to diffuse across.
Conclusion
In conclusion, while the chemical properties of two fluid phases can affect the rate of mass transfer in certain cases, they are not the primary determining factor. Other factors, such as physical properties, degree of turbulence, and interfacial area, can also play a significant role.
Mass transfer refers to the movement of one or more components from one phase to another. The rate of mass transfer between two fluid phases is an important aspect in chemical engineering. It is affected by several factors, including the physical and chemical properties of the phases, the degree of turbulence, and the interfacial area. However, the mass transfer rate does not necessarily depend on the chemical properties of the two phases.
Chemical Properties
Chemical properties refer to the characteristics of a substance that determine how it interacts with other substances. These properties include things like solubility, reactivity, and polarity. While chemical properties can affect the rate of mass transfer in certain cases, they are not the primary determining factor.
Physical Properties
Physical properties refer to the characteristics of a substance that can be observed without changing its chemical composition. These properties include things like density, viscosity, and surface tension. Physical properties can play a significant role in determining the rate of mass transfer between two fluid phases. For example, the viscosity of a fluid can affect the rate of diffusion of a component through it.
Degree of Turbulence
Turbulence refers to the chaotic and unpredictable movement of fluids. The degree of turbulence can affect the rate of mass transfer by increasing the mixing of the two phases. This can lead to a larger interfacial area and a higher rate of mass transfer.
Interfacial Area
The interfacial area refers to the area of contact between the two fluid phases. A larger interfacial area can lead to a higher rate of mass transfer. This is because more surface area is available for the components to diffuse across.
Conclusion
In conclusion, while the chemical properties of two fluid phases can affect the rate of mass transfer in certain cases, they are not the primary determining factor. Other factors, such as physical properties, degree of turbulence, and interfacial area, can also play a significant role.
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Mass transfer rate between two fluid phases does not necessarily depen...
I think, because the mass transfer usually when it's phase change it will be chemical equilibrium, when there is no chemical reaction. Also, the of the choices are important in the mass transfer.
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Mass transfer rate between two fluid phases does not necessarily depend on the __________ of the two phases.a)chemical propertiesb)physical propertiesc)degree of turbulenced)interfacial areaCorrect answer is option 'A'. Can you explain this answer?
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