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Steady & Non Steady State Diffusion Video Lecture | Mass Transfer - Chemical Engineering

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FAQs on Steady & Non Steady State Diffusion Video Lecture - Mass Transfer - Chemical Engineering

1. What is the difference between steady state and non-steady state diffusion?
Ans. Steady state diffusion refers to a situation where the concentration gradient remains constant with time, resulting in a constant diffusion flux. Non-steady state diffusion, on the other hand, occurs when the concentration gradient changes with time, leading to a varying diffusion flux.
2. How does the concentration profile change during steady state diffusion?
Ans. During steady state diffusion, the concentration profile remains constant over time. This means that the concentration of the diffusing species is uniform throughout the system, and there are no changes in concentration along the diffusion path.
3. What factors can affect the diffusion process in non-steady state diffusion?
Ans. Several factors can influence non-steady state diffusion, including the initial concentration gradient, the diffusion coefficient of the species, the distance over which diffusion occurs, and the time elapsed since the start of diffusion. Additionally, the presence of external factors such as temperature gradients or external forces can also impact the non-steady state diffusion process.
4. How can steady state diffusion be applied in chemical engineering processes?
Ans. Steady state diffusion is commonly used in chemical engineering processes for various applications. It is essential in processes such as mass transfer in separation techniques like distillation or absorption, as well as in the design of diffusion-controlled reactions. By understanding steady state diffusion, engineers can optimize processes and ensure efficient mass transfer in various chemical engineering systems.
5. What are the limitations of using steady state diffusion models in chemical engineering?
Ans. While steady state diffusion models are widely used in chemical engineering, they have certain limitations. These models assume that the concentration gradient remains constant over time, which may not always be the case in real-world scenarios. Additionally, they do not account for factors such as transient effects, changing boundary conditions, or concentration-dependent diffusion coefficients. Therefore, it is important to consider the limitations and potential inaccuracies when applying steady state diffusion models in chemical engineering processes.
29 videos|45 docs|44 tests
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