Sunday, August 11, 2019

Characterization of Bubble Size and Gas Hold up in OBCs Thesis

Characterization of Bubble Size and Gas Hold up in OBCs - Thesis Example Then I plotted the air volume fraction and determined the overall volume of the cylinder it was in (the cylinder lies between the planes mentioned earlier). This provided me with an accurate description of how much air each cylinder between the planes contained. This I used to plot the entrainment fraction. --> Power intensity is directly related to the average sinusoidal velocity of the OBC. Anderson (2009) has not used fixed OBCs. Instead, he has relied on a moving cage and given it power to simulate power intensity. I have tackled this issue by varying the input velocity function for the inlet water. As far as the number of tanks is concerned, please see equation (2) and Hydrodynamic Characterization in Anderson (2009) for a full explanation. Simply put, the number of tanks model is connected to the overall power intensity function that can be manipulated to give an integer value. I used that with expression to give me the values in CFD Post. Can you explain how did you set up physics in cfx-pre to set up the† power intensity verses recovery for different sparger sizes†, as well as â€Å"particle size against entrainment fraction† and â€Å"power intensity versus number of tanks†? These things are obtained from the CFX Post area and not CFX Pre. Power intensity is essentially about increasing or decreasing the inlet water’s velocity to produce a certain range of power intensity. The particle size against entrainment fraction is explained above along with power intensity and number of

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