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Equimolar Counterdiffusion (EMD) Video Lecture | Mass Transfer - Chemical Engineering

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FAQs on Equimolar Counterdiffusion (EMD) Video Lecture - Mass Transfer - Chemical Engineering

1. What is Equimolar Counterdiffusion (EMD) in Chemical Engineering?
Equimolar Counterdiffusion (EMD) is a process in chemical engineering where two or more gases with the same mole fraction but different diffusion coefficients are forced to flow simultaneously in opposite directions through a porous medium or membrane. This process allows for the separation of the gases based on their different diffusion rates.
2. How does Equimolar Counterdiffusion work?
Equimolar Counterdiffusion works by taking advantage of the differences in diffusion coefficients of the gases involved. When the gases flow through a porous medium or membrane, the gas with the higher diffusion coefficient will move more rapidly than the gas with the lower diffusion coefficient. This difference in diffusion rates allows for the separation of the gases, as they will exit the porous medium or membrane at different times.
3. What are the applications of Equimolar Counterdiffusion in Chemical Engineering?
Equimolar Counterdiffusion has various applications in chemical engineering. It is commonly used in gas separation processes, such as the separation of hydrogen and nitrogen, or the separation of carbon dioxide from natural gas. EMD can also be applied in the production of high-purity gases, isotopic separations, and the purification of gases for industrial use.
4. What are the advantages of Equimolar Counterdiffusion compared to other separation methods?
Equimolar Counterdiffusion offers several advantages over other separation methods. Firstly, it is a continuous process, allowing for a continuous separation of gases. It also operates at ambient conditions, reducing the energy requirements compared to other separation techniques. Additionally, EMD can achieve high separation efficiency and purity levels. It is a versatile process that can be applied to a wide range of gas mixtures and can be easily scaled up for industrial applications.
5. What factors affect the efficiency of Equimolar Counterdiffusion in gas separation?
Several factors can influence the efficiency of Equimolar Counterdiffusion in gas separation. The selection of the porous medium or membrane material is crucial, as it should have the appropriate pore size and surface properties to allow for selective gas diffusion. The pressure difference across the membrane, the temperature, and the gas flow rates also play a role in the separation efficiency. Additionally, the diffusion coefficients and partial pressures of the gases being separated will impact the overall performance of the process.
29 videos|45 docs|44 tests
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