Energy Balance
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ENERG
Compressor K-100:
Inlet Conditions: Outlet conditions: mass flow rate of air
Temperature Pressure ### 1.07
303 K 202 Kpa
kg/hr kgmol/sec
Inlet volumetric flow rate:
26.74 poly tropic efficiency 76% Outlet temperature for poly-tropic flow:
then
m T2
Work per mole for poly-tropic flow
0.38 393.2 K
m3/sec
120.05 C
n Work
1.6 68.9
KJ/kgmol
Power Requirement actual work power requirment
90.66 97.45
KJ/kgmol KW
Air Pre-heater E-101:
Inlet conditions Outlet conditions reference temperature moisture in air
heat taken by air
temperature temperature 120 C 107.5 kgmol
120.05 C 380 C
### KJ/hr
Benzene Pre-heater E-100:
Inlet conditions temperature Outlet conditions temperature boiling point of benzene 104.7 C reference temperature 30 C heat taken by benzene feed from benzene preheater
30 C 110 C
Pressure Pressure
heat taken by benzene
###
KJ/hr
Feed Mixer MIX-100:
reference temperature
110 C
Assuming Tmix average temperature
350 C 230 C
component
m (kgmole/hr)
Air Benzene
Cp (KJ/kgmole oC)
### 59.02
### (Tmix-110)
=
30.57 59.02 ### Tmix 363.36 C
Reactor PFR-100:
Chemical Reactions: C6H6 + 4.5 O2 C6H6 + 7.5O2 C6H6 + 4.5 O2
C4H2O3 + 2CO2 +2H2O (Maleic Anhydride) 6CO2 +3H2O 6C0 + 3H2O
C6H6 + 1.5 O2
C6H4O2 + H2O (quinon)
At steady state Heat input to reactor = Heat output from reactor
component
m
Air Moisture Benzene
Cpℓ 3816 107.5 59
entahlpy of reactants
ΔTℓ
72.94 133
75 53
### KJ/hr
Enthalpy of products leaving at 400C: component Nitrogen Oxygen Water CO2 MAN CO Benzene Quinone
m
Cpℓ 3014 512 225 122 43 26 5 0.94
ΔTℓ
72.94
75
158
177
133 182
53 155
Enthalpy of products leaving at 400C
###
Heat produced by reactions assuming reaction takes place at 25C By reaction (R1) By reaction (R2) By reaction (R3) By reaction (R4) Total Heat of reaction at 25C ΔHR Heat taken by cooling salt
Waste Heat Boiler E-102:
### ### ### ### ### ###
Product steam (8) from the reactor is cooled from 400C to 76.5C at 152Kpa. For ener balance around Waste Heat Boiler assume 76.5C as reference temperature. average temperature
238.25 C
enthalpy of stream (8) component Nitrogen Oxygen Water CO2 MAN CO Benzene Quinone
m
Cpℓ 3014 512 225 122 43 26 5 0.94
ΔTℓ
73.56
24
163
126
189.2
104
Heat removed in waste heat boiler
Pre-scrubber cooler E-103:
Stream(11) is cooled from 76.5C to 50C before it enters Gas Scrubber. For energy ba assuming 50C as reference temperature.
heat removed in pre-scrubber = {ehtahlpy of stream (12)}-{enthalpy of stream (11)
component
m
Nitrogen Oxygen Water CO2 MAN CO Benzene Quinone
Cpℓ 3014 512 225 122 25.35 26 4.71 0.71
ΔTℓ
72.94
26.5
148
26.5
137 171.2
26.5 26.5
heat removed in Pre-Scrubber cooler
Mixer MIX-101:
Pure water stream (16) is added to scrubbed liquid (13) to keep the concentration of solution up to 40%. Assuming water enters at 30C and 101Kpa while scrubbed liquid entering at 45C. stream (15) and (17) are leaving at same temperature. So T15 = T17 = T Energy balance around mixer MIX-101 is
assuming 30oC as reference temperature Enthalpy of stream (13) component Water MAC Quinone
m 4426.43 495.81 0.71
Cpℓ 72.8 206.5 164.3
ΔTℓ 15 15 15
Total Enthalpy
### KJ/hr
Enthalpy of stream (15) component
m
Water MAC
Cpℓ 4551.1 470.9
Total Enthalpy
72.8 206.5 ### (T-30)
ΔTℓ (T-30) (T-30) KJ/hr
Enthalpy of stream (17) component Water MAC Quinone
m
Cpℓ 236.3 24.89 0.71
Total Enthalpy
72.8 206.5 164.3 ### (T-30)
ΔTℓ (T-30) (T-30) (T-30) KJ/hr
temperature of stream(15) and (17)T
### 44.1
Scrubber T-100:
MAN is absorbed in 40% solution of MAC entering at 44.2C while the gases leaves fro of scubber in vent stream (14). For energy balance assuming 44.2C as reference temperature.
Reaction involved in scrubber Reaction taking place: C4H2O2 + H20
C4H4O4 (maleic acid) ∆H
### KJ/kgmol
m
Cpℓ
Enthalpy of stream (12) component Nitrogen Oxygen Water CO2 MAN CO Benzene Quinone
3014.4 512 234 122 25.35 26.22 4.71 0.71
ΔTℓ
29.33 29.51 72.78 39.25 144.4 29.91 133.3 167 Total Enthalpy
6.8 6.8 6.8 6.8 6.8 6.8 6.8 6.8 ###
Enthalpy of stream (13) component Water MAC Quinone
m
Cpℓ
4426.43 495.81 0.71
ΔTℓ
72.8 206.5 164.3 Total Enthalpy
0.8 0.8 0.8 ###
Enthalpy of stream (14) component Nitrogen Oxygen Water CO2 MAN
m
Cpg 3014 512 333.6 122 0.43
29.26 29.48 72.79 39.16 144.4
ΔTg (T-44.2) (T-44.2) (T-44.2) (T-44.2) (T-44.2)
CO Benzene
26 4.71
29.22 131.2
(T-44.2) (T-44.2)
Total Enthalpy energy balance provides
T14
### 48.03 C
Dehydrator feed pre-heater E-104:
Feed is heated from 44.2C to 95C in vapor phase befor it enters the dehydrator component Water MAC Quinone
m
Cpℓ 236.3 24.89 0.71
ΔTℓ
73.1 215.8 173.6
heat duty of Dehydrator feed preheater
Dehydrator T-101:
Operating conditions:
51 51 51
Top plate temperature = 55C Re-boiler temperature = 120 C Operating pressure = 15.2 kpa Assuming 100C as reference temperature Reactions involved
(maleic acid)
(fumaric acid)
Overhead condenser:
Overhead product is condensed from 55C to 45C at 15.2Kpa. Boiling point of water at 15.2Kpa = 53. Boiling point of O-xylene at 15.2Kpa = Taking 25oC as reference temperature Enthalpy of stream (19) component
m
Water O-xylene
Cpℓ 248 72
72.77 194.3 Total Enthalpy
Enthalpy of stream (20) component Water O-xylene
m
Cpℓ 248 72
72.77 192.3 Total Enthalpy
heat duty of overhead condenser
heat duty of overhead condenser
###
Enthalpy of stream (18) entering at 95C and 101Kpa component
m
Water MAC Quinone
Cpℓ 236.3 24.89 0.71
72.9 212.4 170.4 Total Enthalpy
Enthalpy of stream (26) leaving at 120oC and 15.2KPa component Water MAN O-xylene Fumaric acid Quinone
m
Cpℓ 13.07 24.77 3.79 0.12 0.71
72.77 149.7 200.4 251 173.8 Total Enthalpy
Enthalpy of reflux stream (21)
###
Heat required by reaction (R1)
###
Heat required by reaction (R2)
###
Total heat required for reactions
###
heat duty of Re-boiler
heat duty of Re-boiler
Mixer MIX-102
Stream (27) entering at 120oC and 101Kpa is mixed with cr
Assuming 25oC as reference temperature so Enthalpy of st component
m
Water MAN O-Xylene Fumaric Acid Quinone
13.07 24.77 3.79 0.12 0.71
Enthalpy of stream (28) component
m
Water MAN O-Xylene Fumaric Acid Quinone
14.75 42.51 3.79 0.12 0.94 Total Enthalpy
Enthalpy of stream (10) component water
m 17.74
MAN quinon
1.68 0.23
enthalpy balance around mixer is ### = ###
Distillation Coulmn T-102
Operating conditions: Top plate temperature = 160oC Re-boiler temperature = 200oC
Ope
Assuming 25C as reference temperature Enthalpy of feed stream (29) entering at 108C component Water MAN
m 14.75 42.51
O-Xylene Fumaric Acid Quinone
3.79 0.12 0.94
Enthalpy of stream (30) component
m
Water MAN O-Xylene Quinone
54.15 1.03 13.27 3.06
Enthalpy of stream (31) component
m
Water MAN O-Xylene Quinone
36.9 0.73 9.5 2.2
Enthalpy of stream (32) component
m
Water MAN O-Xylene Quinone
14.75 0.29 3.79 0.87
Enthalpy of stream (36) component MAN Fumaric Acid Quinone
m 42.21 0.12 0.17
Heat duty of condenser
Heat duty of condenser Heat duty of re-boiler
ENERGY BALANCE
Pressure
101 Kpa
4
2 1.3
0.38 R Zi
Pressure Pressure
202 Kpa 202 Kpa
202 Kpa 202 Kpa
1.3 0.3 231.47 0.08 m3atm/kgmolK 8.31 KJ/kgmolK 1
m Cp ### ###
(R1)
∆H
### KJ/kgmol
(R2)
∆H
### KJ/kgmol
(R3)
∆H
### KJ/kgmol
(R4)
∆H
### KJ/kgmol
tput from reactor
CpℓΔTℓ
5470.5 7049
CpℓΔTℓ
5470.5 27966 7049 28210 KJ/hr
KJ/hr KJ/hr KJ/hr KJ/hr KJ/hr KJ/hr
Cpg
ΔTg
32.21 35.65 136.4
Cpg 30.16 30.94 35.83 43.87 162.5 29.81 140.4 172.6
Cpg∆Tg 338 263 285
ΔTg
### ### 38874
Cpg∆Tg 375 375 300 375 198 375 322 220
λ
11310 ### 10749 ### 32175 ### ### 37972
### ###
λ
### ### ### ###
.5C at 152Kpa. For energy e temperature.
CpℓΔTℓ
### 20538
### ### KJ/hr
Scrubber. For energy balance
enthalpy of stream (11)}
Cpg 30.27 31.18 35.77 44.47 162.2 29.93 140.2 172.3
ΔTg
Cpg∆Tg 324 324 300 324 198 324 322 220
### ### 10731 ### ### ### ### 37906
λ
### ### ### ###
CpℓΔTℓ
Cpg
ΔTg
Cpg∆Tg
29.4 29.6
26.5 26.5
779.1 784.4
39.72
26.5
###
29.22
26.5
774.33
### 3922 3630.5 4536.8 ### KJ/hr
ep the concentration of MAC pa while scrubbed liquid is
5 = T17 = T
CpℓΔTℓ 1092 3097.5 2464.5
∆H ### ### 1749.8
λ
∆H ### (T-30) ### (T-30)
∆H ### (T-30) ### (T-30) 116.65 (T-30)
C C
hile the gases leaves from the top
C4H4O4 (maleic acid)
CpℓΔTℓ 199.44 200.67 494.9 266.9 981.92 203.39 906.44 1135.6
∆H ### ### ### ### ### ### ### 806.28
KJ/hr
CpℓΔTℓ 58.24 165.2 131.44 KJ/hr
∆H ### (T-44.2) ### (T-44.2) ### (T-44.2) ### (T-44.2) 62.09 (T-44.2)
∆H ### ### 93.32
759.72 (T-44.2) 617.95 (T-44.2) (T-44.2) KJ/hr
ers the dehydrator CpℓΔTℓ 3728.1 ### 8853.6
### KJ/hr
∆H ### ### ###
e = 120 C = 15.2 kpa
∆H
### KJ/kgmol
∆H
### KJ/kgmol
45C at 15.2Kpa. water at 15.2Kpa = 53.6C O-xylene at 15.2Kpa = 85.05C
ΔTℓ
CpℓΔTℓ
28.6 30
Cpg
2081.22 5829
33.8
### KJ/hr
ΔTℓ
CpℓΔTℓ 20 20
### KJ/hr
1455.4 3846
∆H ### 276912
ΔTg
Cpg∆Tg 1.4
47.32
KJ/hr
ΔTℓ
CpℓΔTℓ 70 70 70
5103 14868 11928
∆H ### ### ###
### KJ/hr
ΔTℓ
y of Re-boiler
28.6 95 60 95 95
CpℓΔTℓ 2081.22 14221.5 12024 23845 16511 ### KJ/hr
### KJ/hr
Cpg
ΔTg
Cpg∆Tg
34.03
66.4
###
163.1
35
5708.5
101Kpa is mixed with crude MAN stream (10).
rature so Enthalpy of stream (27) Cpℓ
ΔTℓ
CpℓΔTℓ
72.77 149.7 207 251 173.8
75 95 95 95 95
### ### 19665 23845 16511 Total Enthalpy
Cpℓ 73.12 149.7 207 251 173.8 Total Enthalpy
Cpℓ 145.3
Cpg
ΔTℓ
CpℓΔTℓ 75
ΔTg
34.42
20
### KJ/hr
Cpg
5484
34.4
ΔTg (T-100)
(T-25) (T-25) (T-25) (T-25) 670889
ΔTℓ
+
507.4 (T-100) +
CpℓΔTℓ 51.5
###
### (T-25)
∆H ###
72.8 168.5
51.5 51.5
3749.2 ###
Total Enthalpy
670889
T
### KJ/hr
+
=
### ###
507.4 (T-100) +
### + =
### (T-25)
### T 95.42 C
Top plate temperature = 160C Re-boiler temperature = 200 C Reflux temperature
= 112C
Operating pressure = 101 kpa ce temperature
29) entering at 108C Cpℓ 73.12 148.4
ΔTℓ
CpℓΔTℓ 75 83
5484 ###
Cpg 34.38
ΔTg 8
204.9 250.2 172
83 83 83
Total enthalpy
Cpℓ
### KJ/hr
ΔTℓ
73.12 153.6 212.3 179.1
CpℓΔTℓ 75 135 119 135
Total enthalpy
Cpℓ
ΔTℓ
CpℓΔTℓ 75 87 87 87
Total enthalpy
ΔTℓ
5484 ### ###
CpℓΔTℓ 75 87 87 87
Total enthalpy
157.8 256.6 181.9
ΔTg
34.57
60
181.8
16
Cpg
ΔTg
34.38
12
### KJ/hr
73.12 148.4 204.9 172
Cpℓ
5484 20736 ###
Cpg
### KJ/hr
73.12 148.4 204.9 172
Cpℓ
### ### 14276
5484 ### ### 14964
Cpg
ΔTg
34.38
12
### KJ/hr
ΔTℓ
CpℓΔTℓ 175 175 155
27615 44905 ###
Cpg
152.2
ΔTg
20
Total enthalpy
### KJ/hr
condenser
uty of condenser
### KJ/hr
re-boiler
Heat duty of re-boiler
### KJ/hr
∆H ### ### ###
∆H ### ### ### ### ### ### 406289 ###
∆H ### ### ### ### ### ### 375722 ###
∆H ### ### ### ### ### ### ### ###
λ
∆H ###
### 419688
λ
∆H ### ###
### ### ### 2861.4 ###
Cpg∆Tg
λ
688.4
Cpg∆Tg 34.4 (T-100)
∆H ###
λ
### ### ### 2861.4 ###
∆H ###
670889 + ### (T-25) 784.53 (T-25) 30.12 (T-25) 163.37 (T-25)
507.4 (T-100)
Cpg∆Tg 275.04
λ
∆H 40000
### ###
### ### ###
Cpg∆Tg
λ
∆H
2074.2
40000
2908.8
37000
Cpg∆Tg
λ
412.56
Cpg∆Tg
3044
∆H 40000
λ
412.56
Cpg∆Tg
### ### ###
### ### ###
∆H 40000
λ
### ### ### ###
∆H
46000
### 5388.6 ###
Compressor K-100:
Inlet Conditions: Outlet conditions: mass flow rate of air
Temperature Pressure ### 1.07
303 K 202 Kpa
kg/hr kgmol/sec
Inlet volumetric flow rate:
26.74 poly tropic efficiency 76% Outlet temperature for poly-tropic flow:
then
m T2
Work per mole for poly-tropic flow
0.38 393.2 K
m3/sec
120.05 C
n Work
1.6 68.9
KJ/kgmol
Power Requirement actual work power requirment
90.66 97.45
KJ/kgmol KW
Air Pre-heater E-101:
Inlet conditions Outlet conditions reference temperature moisture in air
heat taken by air
temperature temperature 120 C 107.5 kgmol
120.05 C 380 C
### KJ/hr
Benzene Pre-heater E-100:
Inlet conditions temperature Outlet conditions temperature boiling point of benzene 104.7 C reference temperature 30 C heat taken by benzene feed from benzene preheater
30 C 110 C
Pressure Pressure
heat taken by benzene
###
KJ/hr
Feed Mixer MIX-100:
reference temperature
110 C
Assuming Tmix average temperature
350 C 230 C
component
m (kgmole/hr)
Air Benzene
Cp (KJ/kgmole oC)
### 59.02
### (Tmix-110)
=
30.57 59.02 ### Tmix 363.36 C
Reactor PFR-100:
Chemical Reactions: C6H6 + 4.5 O2 C6H6 + 7.5O2 C6H6 + 4.5 O2
C4H2O3 + 2CO2 +2H2O (Maleic Anhydride) 6CO2 +3H2O 6C0 + 3H2O
C6H6 + 1.5 O2
C6H4O2 + H2O (quinon)
At steady state Heat input to reactor = Heat output from reactor
component
m
Air Moisture Benzene
Cpℓ 3816 107.5 59
entahlpy of reactants
ΔTℓ
72.94 133
75 53
### KJ/hr
Enthalpy of products leaving at 400C: component Nitrogen Oxygen Water CO2 MAN CO Benzene Quinone
m
Cpℓ 3014 512 225 122 43 26 5 0.94
ΔTℓ
72.94
75
158
177
133 182
53 155
Enthalpy of products leaving at 400C
###
Heat produced by reactions assuming reaction takes place at 25C By reaction (R1) By reaction (R2) By reaction (R3) By reaction (R4) Total Heat of reaction at 25C ΔHR Heat taken by cooling salt
Waste Heat Boiler E-102:
### ### ### ### ### ###
Product steam (8) from the reactor is cooled from 400C to 76.5C at 152Kpa. For ener balance around Waste Heat Boiler assume 76.5C as reference temperature. average temperature
238.25 C
enthalpy of stream (8) component Nitrogen Oxygen Water CO2 MAN CO Benzene Quinone
m
Cpℓ 3014 512 225 122 43 26 5 0.94
ΔTℓ
73.56
24
163
126
189.2
104
Heat removed in waste heat boiler
Pre-scrubber cooler E-103:
Stream(11) is cooled from 76.5C to 50C before it enters Gas Scrubber. For energy ba assuming 50C as reference temperature.
heat removed in pre-scrubber = {ehtahlpy of stream (12)}-{enthalpy of stream (11)
component
m
Nitrogen Oxygen Water CO2 MAN CO Benzene Quinone
Cpℓ 3014 512 225 122 25.35 26 4.71 0.71
ΔTℓ
72.94
26.5
148
26.5
137 171.2
26.5 26.5
heat removed in Pre-Scrubber cooler
Mixer MIX-101:
Pure water stream (16) is added to scrubbed liquid (13) to keep the concentration of solution up to 40%. Assuming water enters at 30C and 101Kpa while scrubbed liquid entering at 45C. stream (15) and (17) are leaving at same temperature. So T15 = T17 = T Energy balance around mixer MIX-101 is
assuming 30oC as reference temperature Enthalpy of stream (13) component Water MAC Quinone
m 4426.43 495.81 0.71
Cpℓ 72.8 206.5 164.3
ΔTℓ 15 15 15
Total Enthalpy
### KJ/hr
Enthalpy of stream (15) component
m
Water MAC
Cpℓ 4551.1 470.9
Total Enthalpy
72.8 206.5 ### (T-30)
ΔTℓ (T-30) (T-30) KJ/hr
Enthalpy of stream (17) component Water MAC Quinone
m
Cpℓ 236.3 24.89 0.71
Total Enthalpy
72.8 206.5 164.3 ### (T-30)
ΔTℓ (T-30) (T-30) (T-30) KJ/hr
temperature of stream(15) and (17)T
### 44.1
Scrubber T-100:
MAN is absorbed in 40% solution of MAC entering at 44.2C while the gases leaves fro of scubber in vent stream (14). For energy balance assuming 44.2C as reference temperature.
Reaction involved in scrubber Reaction taking place: C4H2O2 + H20
C4H4O4 (maleic acid) ∆H
### KJ/kgmol
m
Cpℓ
Enthalpy of stream (12) component Nitrogen Oxygen Water CO2 MAN CO Benzene Quinone
3014.4 512 234 122 25.35 26.22 4.71 0.71
ΔTℓ
29.33 29.51 72.78 39.25 144.4 29.91 133.3 167 Total Enthalpy
6.8 6.8 6.8 6.8 6.8 6.8 6.8 6.8 ###
Enthalpy of stream (13) component Water MAC Quinone
m
Cpℓ
4426.43 495.81 0.71
ΔTℓ
72.8 206.5 164.3 Total Enthalpy
0.8 0.8 0.8 ###
Enthalpy of stream (14) component Nitrogen Oxygen Water CO2 MAN
m
Cpg 3014 512 333.6 122 0.43
29.26 29.48 72.79 39.16 144.4
ΔTg (T-44.2) (T-44.2) (T-44.2) (T-44.2) (T-44.2)
CO Benzene
26 4.71
29.22 131.2
(T-44.2) (T-44.2)
Total Enthalpy energy balance provides
T14
### 48.03 C
Dehydrator feed pre-heater E-104:
Feed is heated from 44.2C to 95C in vapor phase befor it enters the dehydrator component Water MAC Quinone
m
Cpℓ 236.3 24.89 0.71
ΔTℓ
73.1 215.8 173.6
heat duty of Dehydrator feed preheater
Dehydrator T-101:
Operating conditions:
51 51 51
Top plate temperature = 55C Re-boiler temperature = 120 C Operating pressure = 15.2 kpa Assuming 100C as reference temperature Reactions involved
(maleic acid)
(fumaric acid)
Overhead condenser:
Overhead product is condensed from 55C to 45C at 15.2Kpa. Boiling point of water at 15.2Kpa = 53. Boiling point of O-xylene at 15.2Kpa = Taking 25oC as reference temperature Enthalpy of stream (19) component
m
Water O-xylene
Cpℓ 248 72
72.77 194.3 Total Enthalpy
Enthalpy of stream (20) component Water O-xylene
m
Cpℓ 248 72
72.77 192.3 Total Enthalpy
heat duty of overhead condenser
heat duty of overhead condenser
###
Enthalpy of stream (18) entering at 95C and 101Kpa component
m
Water MAC Quinone
Cpℓ 236.3 24.89 0.71
72.9 212.4 170.4 Total Enthalpy
Enthalpy of stream (26) leaving at 120oC and 15.2KPa component Water MAN O-xylene Fumaric acid Quinone
m
Cpℓ 13.07 24.77 3.79 0.12 0.71
72.77 149.7 200.4 251 173.8 Total Enthalpy
Enthalpy of reflux stream (21)
###
Heat required by reaction (R1)
###
Heat required by reaction (R2)
###
Total heat required for reactions
###
heat duty of Re-boiler
heat duty of Re-boiler
Mixer MIX-102
Stream (27) entering at 120oC and 101Kpa is mixed with cr
Assuming 25oC as reference temperature so Enthalpy of st component
m
Water MAN O-Xylene Fumaric Acid Quinone
13.07 24.77 3.79 0.12 0.71
Enthalpy of stream (28) component
m
Water MAN O-Xylene Fumaric Acid Quinone
14.75 42.51 3.79 0.12 0.94 Total Enthalpy
Enthalpy of stream (10) component water
m 17.74
MAN quinon
1.68 0.23
enthalpy balance around mixer is ### = ###
Distillation Coulmn T-102
Operating conditions: Top plate temperature = 160oC Re-boiler temperature = 200oC
Ope
Assuming 25C as reference temperature Enthalpy of feed stream (29) entering at 108C component Water MAN
m 14.75 42.51
O-Xylene Fumaric Acid Quinone
3.79 0.12 0.94
Enthalpy of stream (30) component
m
Water MAN O-Xylene Quinone
54.15 1.03 13.27 3.06
Enthalpy of stream (31) component
m
Water MAN O-Xylene Quinone
36.9 0.73 9.5 2.2
Enthalpy of stream (32) component
m
Water MAN O-Xylene Quinone
14.75 0.29 3.79 0.87
Enthalpy of stream (36) component MAN Fumaric Acid Quinone
m 42.21 0.12 0.17
Heat duty of condenser
Heat duty of condenser Heat duty of re-boiler
ENERGY BALANCE
Pressure
101 Kpa
4
2 1.3
0.38 R Zi
Pressure Pressure
202 Kpa 202 Kpa
202 Kpa 202 Kpa
1.3 0.3 231.47 0.08 m3atm/kgmolK 8.31 KJ/kgmolK 1
m Cp ### ###
(R1)
∆H
### KJ/kgmol
(R2)
∆H
### KJ/kgmol
(R3)
∆H
### KJ/kgmol
(R4)
∆H
### KJ/kgmol
tput from reactor
CpℓΔTℓ
5470.5 7049
CpℓΔTℓ
5470.5 27966 7049 28210 KJ/hr
KJ/hr KJ/hr KJ/hr KJ/hr KJ/hr KJ/hr
Cpg
ΔTg
32.21 35.65 136.4
Cpg 30.16 30.94 35.83 43.87 162.5 29.81 140.4 172.6
Cpg∆Tg 338 263 285
ΔTg
### ### 38874
Cpg∆Tg 375 375 300 375 198 375 322 220
λ
11310 ### 10749 ### 32175 ### ### 37972
### ###
λ
### ### ### ###
.5C at 152Kpa. For energy e temperature.
CpℓΔTℓ
### 20538
### ### KJ/hr
Scrubber. For energy balance
enthalpy of stream (11)}
Cpg 30.27 31.18 35.77 44.47 162.2 29.93 140.2 172.3
ΔTg
Cpg∆Tg 324 324 300 324 198 324 322 220
### ### 10731 ### ### ### ### 37906
λ
### ### ### ###
CpℓΔTℓ
Cpg
ΔTg
Cpg∆Tg
29.4 29.6
26.5 26.5
779.1 784.4
39.72
26.5
###
29.22
26.5
774.33
### 3922 3630.5 4536.8 ### KJ/hr
ep the concentration of MAC pa while scrubbed liquid is
5 = T17 = T
CpℓΔTℓ 1092 3097.5 2464.5
∆H ### ### 1749.8
λ
∆H ### (T-30) ### (T-30)
∆H ### (T-30) ### (T-30) 116.65 (T-30)
C C
hile the gases leaves from the top
C4H4O4 (maleic acid)
CpℓΔTℓ 199.44 200.67 494.9 266.9 981.92 203.39 906.44 1135.6
∆H ### ### ### ### ### ### ### 806.28
KJ/hr
CpℓΔTℓ 58.24 165.2 131.44 KJ/hr
∆H ### (T-44.2) ### (T-44.2) ### (T-44.2) ### (T-44.2) 62.09 (T-44.2)
∆H ### ### 93.32
759.72 (T-44.2) 617.95 (T-44.2) (T-44.2) KJ/hr
ers the dehydrator CpℓΔTℓ 3728.1 ### 8853.6
### KJ/hr
∆H ### ### ###
e = 120 C = 15.2 kpa
∆H
### KJ/kgmol
∆H
### KJ/kgmol
45C at 15.2Kpa. water at 15.2Kpa = 53.6C O-xylene at 15.2Kpa = 85.05C
ΔTℓ
CpℓΔTℓ
28.6 30
Cpg
2081.22 5829
33.8
### KJ/hr
ΔTℓ
CpℓΔTℓ 20 20
### KJ/hr
1455.4 3846
∆H ### 276912
ΔTg
Cpg∆Tg 1.4
47.32
KJ/hr
ΔTℓ
CpℓΔTℓ 70 70 70
5103 14868 11928
∆H ### ### ###
### KJ/hr
ΔTℓ
y of Re-boiler
28.6 95 60 95 95
CpℓΔTℓ 2081.22 14221.5 12024 23845 16511 ### KJ/hr
### KJ/hr
Cpg
ΔTg
Cpg∆Tg
34.03
66.4
###
163.1
35
5708.5
101Kpa is mixed with crude MAN stream (10).
rature so Enthalpy of stream (27) Cpℓ
ΔTℓ
CpℓΔTℓ
72.77 149.7 207 251 173.8
75 95 95 95 95
### ### 19665 23845 16511 Total Enthalpy
Cpℓ 73.12 149.7 207 251 173.8 Total Enthalpy
Cpℓ 145.3
Cpg
ΔTℓ
CpℓΔTℓ 75
ΔTg
34.42
20
### KJ/hr
Cpg
5484
34.4
ΔTg (T-100)
(T-25) (T-25) (T-25) (T-25) 670889
ΔTℓ
+
507.4 (T-100) +
CpℓΔTℓ 51.5
###
### (T-25)
∆H ###
72.8 168.5
51.5 51.5
3749.2 ###
Total Enthalpy
670889
T
### KJ/hr
+
=
### ###
507.4 (T-100) +
### + =
### (T-25)
### T 95.42 C
Top plate temperature = 160C Re-boiler temperature = 200 C Reflux temperature
= 112C
Operating pressure = 101 kpa ce temperature
29) entering at 108C Cpℓ 73.12 148.4
ΔTℓ
CpℓΔTℓ 75 83
5484 ###
Cpg 34.38
ΔTg 8
204.9 250.2 172
83 83 83
Total enthalpy
Cpℓ
### KJ/hr
ΔTℓ
73.12 153.6 212.3 179.1
CpℓΔTℓ 75 135 119 135
Total enthalpy
Cpℓ
ΔTℓ
CpℓΔTℓ 75 87 87 87
Total enthalpy
ΔTℓ
5484 ### ###
CpℓΔTℓ 75 87 87 87
Total enthalpy
157.8 256.6 181.9
ΔTg
34.57
60
181.8
16
Cpg
ΔTg
34.38
12
### KJ/hr
73.12 148.4 204.9 172
Cpℓ
5484 20736 ###
Cpg
### KJ/hr
73.12 148.4 204.9 172
Cpℓ
### ### 14276
5484 ### ### 14964
Cpg
ΔTg
34.38
12
### KJ/hr
ΔTℓ
CpℓΔTℓ 175 175 155
27615 44905 ###
Cpg
152.2
ΔTg
20
Total enthalpy
### KJ/hr
condenser
uty of condenser
### KJ/hr
re-boiler
Heat duty of re-boiler
### KJ/hr
∆H ### ### ###
∆H ### ### ### ### ### ### 406289 ###
∆H ### ### ### ### ### ### 375722 ###
∆H ### ### ### ### ### ### ### ###
λ
∆H ###
### 419688
λ
∆H ### ###
### ### ### 2861.4 ###
Cpg∆Tg
λ
688.4
Cpg∆Tg 34.4 (T-100)
∆H ###
λ
### ### ### 2861.4 ###
∆H ###
670889 + ### (T-25) 784.53 (T-25) 30.12 (T-25) 163.37 (T-25)
507.4 (T-100)
Cpg∆Tg 275.04
λ
∆H 40000
### ###
### ### ###
Cpg∆Tg
λ
∆H
2074.2
40000
2908.8
37000
Cpg∆Tg
λ
412.56
Cpg∆Tg
3044
∆H 40000
λ
412.56
Cpg∆Tg
### ### ###
### ### ###
∆H 40000
λ
### ### ### ###
∆H
46000
### 5388.6 ###
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