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Problem 1: A small spherical droplet of liquid A is evaporating into gas B, and it...
0.9 The steady-state gas concentration in spherical coordinates may be written for radially symmetric flow as...
0.9 The steady-state gas concentration in spherical coordinates may be written for radially symmetric flow as 1 d r2 de (rJg) + g = 0 where Jg is the gas flux in the radial direction and the gas consumption rate. (a) For the special case of constant gas consumption rate, calculate the gas flux Jg() inside a spherical aggregate of radius r. Assume that the flux vanishes at r = 0. (5 marks) (b) Using the gas flux equation to...
2 of 6 04-Chem-A4/Dec 2012 1. A first-order, homogeneous, liquid-phase reaction (A - B) occurs in...
2 of 6 04-Chem-A4/Dec 2012 1. A first-order, homogeneous, liquid-phase reaction (A - B) occurs in a CSTR that operates adiabatically at steady state. The reaction is exothermic. Data are as follows and should be considered as exact quantities CA G, 1.75 molA/L (Inlet concentration of A) 2.5 J/g-K (The heat capacity of the reacting fluid; assumed constant at all conversions.) AH, -27 000 J/molA q-30 L/min (Flow into the CSTR.) (-rA) = 1.8( 1013)e(-84000 RDCA (The rate of reaction...
0.9 The steady-state gas concentration in spherical coordinates may be written for radially symmetric flow as 1 d r2 de (rJg) + g = 0 where Jg is the gas flux in the radial direction and the gas consumption rate. (a) For the special case of constant gas consumption rate, calculate the gas flux Jg() inside a spherical aggregate of radius r. Assume that the flux vanishes at r = 0. (5 marks) (b) Using the gas flux equation to...
2 of 6 04-Chem-A4/Dec 2012 1. A first-order, homogeneous, liquid-phase reaction (A - B) occurs in a CSTR that operates adiabatically at steady state. The reaction is exothermic. Data are as follows and should be considered as exact quantities CA G, 1.75 molA/L (Inlet concentration of A) 2.5 J/g-K (The heat capacity of the reacting fluid; assumed constant at all conversions.) AH, -27 000 J/molA q-30 L/min (Flow into the CSTR.) (-rA) = 1.8( 1013)e(-84000 RDCA (The rate of reaction...
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