dynamic energy balance
DESCRIPTION
Dynamic Energy Balance. rxn #. Dynamic Energy Balance. Last time:. well-mixed CSTR w/flow & reaction. for multiple reactions:. Simplifications. For moderate T changes use average Cp i assume Cp i are constant. ACC Term:. Simplifications. Also:. Simplified Form:. - PowerPoint PPT PresentationTRANSCRIPT
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Dynamic Energy Balance
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Dynamic Energy Balance
• Last time:
si
iRi
T
T
iiooii WQVr
HdTCpCdt
dTCpn
o
well-mixed CSTR w/flow & reaction
• for multiple reactions:
Vr
HVr
HtermRxni
iRi
i
iRi
2
2
2
1
1
1
rxn #
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Simplifications
• ACC Term:
dt
dTCpV
dt
dTCpn
so
CpV
or
CpVCCpn
mii
m
iii
:
For moderate T changes use average Cpi
assume Cpi are constant
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Simplifications
• Also:
oiioo
omo
T
T
iioo
TTCpC
or
TTCpdTCpCo
• Simplified Form:
si
iRiomom WQV
rHTTCp
dt
dTCpV
well-mixed CSTR w/flow, reaction & avg. Cp
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In-Class ExerciseLiquid flows continuously into an initially empty tank, which contains a full-depth
heating coil. As the tank fills, an increasing proportion of the coil is covered by liquid. Once the tank is full, the liquid starts to overflow into the discharge pipe, but heating is maintained.
How long does it take the system to reach steady state, what is the final exit temperature, and how long does it take before the tank “overflows”?
vo To
vT
Steam inTs
Condensate
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In-Class Exercise
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In-Class Exercise
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In-Class Exercise
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In-Class Exercise
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In-Class Exercise
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Energy Balance on Vessel Jacket
• If Constant Tj: TTUAQ j
• Jacket energy balance:
assume j1 = j2
Tj2 = constant
TTUATTCpdt
dTCpV jjjmjjj
jmjjj 1
Assumptions:
•jacket well insulated
•liquid in jacket is well mixed
•Vj (Volume of jacket fluid) is constant
j is constant
•no work nor reaction in jacket
si
iRiomom WQV
rHTTCp
dt
dTCpV
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Energy Balance on Vessel Jacket(especially if Tj varies significantly)
(for small systems, low flow, or not well mixed)
• If Tj not constant:
TTUAQ j
221 jj
j
TTT
assume j1 = j2
i.e. constant
[1]
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Energy Balance on Vessel Jacket(Tj not constant)
• Energy balance on heat transferred:
Rate of energyloss by jacket fluid
21 jjmjjjj TTCpTTUAQ
221 jj
j
TTT
Rate of energytransfer from jacket to the reactor
=
[1]
[2]
from [1] 12 2 jjj TTT then into [2]
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Energy Balance on Vessel Jacket(Tj not constant)
UACp
UATTCpT
mjjj
jmjjjj
2
2 1
TTUACp
CpUAQ j
mjjj
mjjj
12
2
TTUAQ j
Kj
TTUAKQ jj 1
jj fK
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Effect of Flow on Kj
UACp
CpK
mjjj
mjjjj
2
2so as j Kj ??
j
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Energy Balance on Vessel Jacket(Tj not constant)
• Energy balance on jacket:
Assumptions:
•jacket well insulated
•liquid in jacket is more like plug flow (i.e cooling coil)
•Vj (Volume of jacket fluid) is constant
j is constant
•no work nor reaction in jacket
TTUATTCpdt
TdCpV jjjmjjj
jmjjj 21
12 2 jjj TTT and:
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Small Vessel Jackets
• For small vessels or high pressure systems the thickness of the vessel wall can be significant…thus one needs to consider the thermal capacity of the wall.
jwoowiiw
www TTAhTTAhdt
dTCpV
• Energy balance for jacket:
• Energy balance on wall:
jwoojjmjjjj
mjjj TTAhTTCpdt
dTCpV 1 Tj constant
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In-Class Exercise Liquid flows continuously into continuous stirred tank reactor, which is fully-jacketed and
well-mixed. At a certain time, reactant A is introduced into the feed liquid, such that the volumetric flowrate remains constant.
1) Show that the steady state solution to the problem gives a reactor T of ~331 K.
2) With no control (Kc=0), use the dynamic model to find the SS solution.
3) Add proportional control to the dynamic model. Examine the effect of varying Tset from 300 - 375 K, and Kc from -1 to 5.
4) Add integral control to the controller equation. What effect does this have?
o, To, Cao T
TETC
jo, Tjo
V, TCa, Cb
j, Tj
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In-Class Exercise
TTUAKQ joj
UACp
CpK
mjjj
mjjjj
2
2
• From before:
• Let:
UUAK j
• So: TTUQ jo
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In-Class Exercise
• P only controller: with: Kc = controller gain setco TTKUU
• PI controller:
t
setI
csetco dtTT
KTTKUU
0with: I = integral time
• Let:
t
set dtTTerrsum0
dtTTerrsumd setor:
• Then: setTTdt
errsumd initial condition?
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In-Class Exercise
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In-Class Exercise
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In-Class Exercise
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In-Class Exercise
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In-Class Exercise : SS Solution
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In-Class Exercise: SS Solution
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In-Class Exercise: dynamic - SS
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In-Class Exercise : dynamic - SS
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In-Class Exercise
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In-Class Exercise