Plug Flow Reactor : Effects of Residence Time Chemical Engineering Laboratory III CHE574 Universiti Teknologi MARA, UiTM
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1.1.7Plug flow Reactor design
In a plug flow reactor the composition of the fluid varies from point to point along a flow path; consequently, the material balance for a reaction component must be made for a differential element of volume dV. Thus for a reactant A the mass balance becomes; Input = output +disappearance by reaction + accumulation Where accumulation is zero thus, the equation becomes; Input = output + disappearance by reaction Calculation of reactor volume is by the following equation,
Notation V FAO XA τ CAO A(subscript) rA
Volume of reactor Feed flow rate ( kgmolh -1) Fractional conversion of DIPB Space time (kg h kgmol -1 ) Initial concentration of DIPB DIPB
Rate of disappear disappearance ance of species species A(DIPB) A(DIPB) (kgmol kgcat-1hr -1)
Transalkylation reactor design data
Table 1.2
Initial DIPB concentration C DIPBO
Kgmolm-3
Initial DIPB flow rate F DIPBO Specified DIPB conversion X DIPB Catalyst Voidage fraction ε A
(From mass balance) 0.95 0.5
To determine the volume of reactor the following steps were followed; 1. Weight Weight of cataly catalyst(equ st(equation ation adapted adapted from Kondamudi,upa Kondamudi,upayadhula yadhula)) (1.1)
(1.2)
Evaluating the integral of the above equation using simpson’s rule;
(1.3)
Wcat= kg 2. Volume of catalyst (1.4)
(1.5) m3
V=
3. Volume of reactor required (1.6)
4. Actual volume of reactor, a 10% allowance for the heads
Vact = 5. Diameter of reactor, as a rule of thumb the diameter to length ratio is 5(L/D=5) Since
