Determine the diffusion rate of O2 through the tube assuming equimolal counter diffusion. 0.05 MID and D = 0.18 × 10–4 m2/s.

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Determine the diffusion rate of O2 through the tube assuming equimolal counter diffusion. 0.05 MID and D = 0.18 × 10–4 m2/s..

Two large tanks containing oxygen and nitrogen at 1 bar and 25°C are connected by a pipe of 0.05 m ID and 1.2 m long. The partial pressure of oxygen at one end of the tube is 0.2 bar and it is 0.1 bar at the other end. Determine the diffusion rate of O2 through the tube assuming equimolal counter diffusion. 0.05 MID and D = 0.18 × 10–4 m2/s.

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The post Determine the diffusion rate of O2 through the tube assuming equimolal counter diffusion. 0.05 MID and D = 0.18 × 10–4 m2/s. appeared first on Best Custom Essay Writing Services | EssayBureau.com.

Determine the diffusion rate of O2 through the tube assuming equimolal counter diffusion. 0.05 MID and D = 0.18 × 10–4 m2/s.

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