Gambar A.1 Diagram Alir Neraca Massa
A-1
LAMPIRAN A PERHITUNGAN NERACA MASSA •
Spesifikasi Bahan Baku Asam Tereftalat
: p-C6H4C!!H"# $ min %&'()*t Cu
$ ma+ 1'()*t ,T Mitsu.ishi Chemical /n0nesia"
Metanl
: CH2!H
$ min %%'4)*t
H#!
$ ma+ 3'6)*t ,T altim Metanl /n0ustri"
Spesifikasi atalis Alumina Aktif 51)!H •
The Merck /n0e+' nc7clpe0ia"
Spesifikasi ,r0uk DMT
: p-C6H4C!!CH2"# $ min %%'(()*t
apasitas pr0uksi
$ 1(3333 tn8th $ 1(3333 tn8th + 132 kg8tn + 1 th8223 hari +1 hr8#49am $ 1&%2%'2% kg89am
aktu perasi
Basis perhitungan
: 1 tahun
$ 223 hari
1 hari
$ #4 9am
: 1 9am perasi
A.1 Kode Komponen dan Berat Molekl Tabel A.1 0e mpnen' Berat Mlekul 0an Titik Di0ih Rm! Kode Komponen p-C6H4C!!H"# CH2!H H#! p-C6H4C!!CH2"# Cu !# N#
Kode Komponen A B C D ; <
Berat Molekl " k# $ kmol % 166'12 2#'34 1&'3# 1%4'1& 62'(3 21'%% #&'31 =a*s' 1%%%"
A-#
A.& Nera'a Ma!!a Per Alat 1.
Nera'a Ma!!a d( !ek(tar Sbl(mator "S)*1%
M1 M# Su.limatr
M2
Gambar A.& Diagram Alir Neraca Massa 0i Su.limatr
,erhitungan Bahan Baku
a p-C6H4C!!H"# 7ang 0ise0iakan p-C6H4C!!H"# .ahan .aku
$
1 kml89am + 166'12 kg8kml 3'%&(
$ 16&'66 kg89am
Cu 0alam p-C6H4C!!H"# ttal $ 3'31( + 16&'66 kg89am $ #'(2 kg89am p-C6H4C!!H"# umpan
$ 16&'66 - #'(2" kg89am $ 166'12 kg89am
. CH2!H 7ang 0ise0iakan >arutan CH2!H .ahan .aku $
% kml89am + 2#'34kg8kml 3'%%4
$ #%3'31 kg89am
H#! 0alam CH2!H $ 3'336 + #&&'#? kg89am $ 1'?4 kg89am CH2!H murni umpan $ #%3'31 @ 1'?4" kg89am $ #&&'#? kg89am Tabel A.& Hasil ,erhitungan Neraca Massa 0i Su.limatr Komponen
CH2!H p-C6H4C!!H"# Cu
Total
Inpt "k#$+am% M1 M# #&&'#? 3'33 3'33 166'12 3'33 #'(2
4(?'3#
,tpt "k#$+am% M2 #&&'#? 166'12 #'(2
4(?'3#
A-2
&.
Nera'a Ma!!a d( !ek(tar S(klon I "C-)*1%
M2 M( Sikln
M4 Gambar A. Diagram Alir Neraca Massa 0i Sikln /
fisiensi Sikln / $%&)
Mc etta' 1%&4"
Cu 0alam M4" $ #'(2 + %&) $ #'4& Cu 0alam M(" $ #'(2@#'4&" $ 3'3(
Tabel A. Hasil ,erhitungan Neraca Massa 0i Sikln / Komponen
CH2!H p-C6H4C!!H"# Cu Total .
Inpt "k#$+am% M2 M4 #&&'#? 3'33 166'12 3'33 #'(2 #'4& 4(?'3#
,tpt "k#$+am% M( #&&'#? 166'12 3'3( 4(?'3#
Nera'a Ma!!a d( !ek(tar Reaktor "R)*1%
M(
M6 eaktr
Gambar A./ Diagram Alir Neraca Massa 0i eaktr •
Neraca Massa Ttal : M(
•
$ M6
Neraca Massa mpnen eaksi
: p-C6H4C!!H"# g" CH2!H g"
nersi : %&) nersi DMT
p-C6H4C!!CH2"#
g"
H#!g"
S ,atent 2%?#%1#" $
ml p - C6H4C!!H"# .ereaksi ml p - C6H4C!!H"# mula - mula
+ 133) A-4
%&)
$
ml p - C6H4C!!H"# .ereaksi 1 kml
+ 133)
ml p-C6H4C!!H"# .ereaksi $ 3'%& kml p-C6H4C!!H"# g" #CH2!H g"
p-C6H4C!!CH2"#
g"
#H#!g"
m :
1
%
-
r :
3'%&
1'%6
3'%&
1'%6
?'34
3'%&
1'%6
s :
3'3#
-
,er.an0ingan ml p-C 6H4C!!H"# : CH2!H $ 1 : %
,erhitungan ,ereaktan 7ang Bereaksi
a p-C6H4C!!H"# Ml p-C6H4C!!H"# .ereaksi $ 3'%& + 1 kml89am $ 3'%& kml89am p-C6H4C!!H"# .ereaksi
$ 3'%& kml89am + 166'12 kg8kml $ 16#'& kg89am
. CH2!H
Ml CH2!H .ereaksi
$ 1'%6kml89am
CH2!H .ereaksi
$ 1'%6 kml89am + 2#'34kg8kml $ 6#'?% kg89am
,erhitungan ,ereaktan Sisa
a p-C6H4C!!H"# Diketahui : Ml p-C6H4C!!H"# umpan Ml p-C6H4C!!H"# .ereaksi
$ 1 kml89am $ 3'%& kml89am
Ml p-C6H4C!!H"# sisa
$ 1-3'%&" kml89am $ 3'3# kml89am
Massa p-C6H4C!!H"# sisa
$ 3'3# kml89am + 166'12 kg8kml $ 2'2# kg89am
. CH2!H Diketahui : Ml CH2!H umpan Ml CH2!H .ereaksi Ml CH2!H sisa
$ % kml89am $ 1'%6 kml89am
$ %-1'%6" kml89am $ ?'34 kml89am
Massa CH2!H sisa $ ?'34 kml89am + 2#'34 kg8kml $ ##('(6 kg89am
,erhitungan ,r0uk 7ang Dihasilkan
a Dari reaksi 0iketahui .ah*a ml p-C6H4C!!CH2"# 7ang ter.entuk se.esar 3'%&kml89am Massa p-C6H4C!!CH2"#
$ 3'%& kml89am + 1%4'1& kg8kml $ 1%3'#% kg89am
. Dari reaksi 0iketahui .ah*a ml H#! 7ang ter.entuk se.esar 1'%6 kml89am A-(
Massa H#!
$ 1'%6 kml89am + 1&'31 kg8kml $ 2('#2 kg89am
Tabel A.0 Hasil ,erhitungan Neraca Massa 0i eaktr' -31 Komponen
p-C6H4C!!H"# CH2!H H#! p-C6H4C!!CH2"# Cu Total /.
Inpt "k#$+am% M( M6 166'12 2'2# #&&'#?3 ##('(6 3'33 2('#2 3'33 1%3'#% 3'3( 3'3( 4(4'4(
,tpt "k#$+am%
4(4'4(
Nera'a Ma!!a d( !ek(tar e!bl(mator "S)*1%
M6
M? Desu.limatr
M2 Gambar A.3 Diagram Alir Neraca Massa 0i Desu.limatr Tabel A.3 Hasil ,erhitungan Neraca Massa 0i Desu.limatr Komponen
p-C6H4C!!H"# CH2!H H#! p-C6H4C!!CH2"# Cu Total
Inpt M6 2'2# ##('(6 2('#2 1%3'#% 3'3( 4(44(
,tpt
M? 33? ##('(6 2('#2 1%3'#%
M& 2'#(
3'3( 4(44(
3. Nera'a Ma!!a d( !ek(tar Konden!or Total "CN)*&%
A-6
M? n0ensr Ttal
M13
Gambar A.2 Diagram Alir Neraca Massa 0i n0ensr Ttal
Tabel A.2 Hasil ,erhitungan Neraca Massa 0i n0ensr Ttal Komponen
p-C6H4C!!H"# CH2!H H#! p-C6H4C!!CH2"# Total
Inpt "k#$+am% M? M13 3'3? 3'3? ##('(6 ##('(6 2('#2 2('#2 1%3'#% 1%3'#% 4(1'1(
,tpt "k#$+am%
4(1'1(
4. Nera'a Ma!!a d( !ek(tar Cooler "C)*15C)*&6C)*%
M13
M11 Cler
Gambar A.7 Diagram Alir Neraca Massa 0i Cler Tabel A.7 Hasil ,erhitungan Neraca Massa 0i Cler Komponen
p-C6H4C!!H"# CH2!H H#! p-C6H4C!!CH2"# Total
Inpt "k#$+am% M13 M11 3'3? 3'3? ##('(6 ##('(6 2('#2 2('#2 1%3'#% 1%3'#% 4(1'1(
,tpt "k#$+am%
4(1'1(
2. Nera'a Ma!!a d( !ek(tar Kr(!tal(8er "CR)*1%
M11
M1# ristaliser
M1& Gambar A.1* Diagram Alir Neraca Massa 0i ristaliEer •
nsentrasi DMT keluar ristaliEer se.esar %6)
Mcetta' 1%&4" A-?
MT 0alam M1#" sli0 $ 1%3'#% + %6) $ 1'6? MT 0alam M1#" liFui0$ 1%3'#% - 1'6?$ ?'6#
Tabel A.1* Hasil ,erhitungan Neraca Massa 0i ristaliEer Komponen
p-C6H4C!!H"# CH2!H H#! p-C6H4C!!CH2"# p-C6H4C!!CH2"# Total Neraca Massa Ttal
s" l"
Inpt "k#$+am% M11 M1& M1# 3'3? 3'33 3'3? ##('(6 3'33 ##('(6 2('#2 3'33 2('#2 3'33 ('#6 1&?'%2 1%3'#% 3'33 ?'6# 4(6'41 4(6'41
,tpt "k#$+am%
M11 M1& $ M1#
#1"
Neraca Massa mpnen
mpnen DMT D11 D1& $ D1#
##"
Aliran M1& merupakan ,r0uk offspec 2) 0ari 9umlah pr0uk Aliran M16 merupakan pr0uk keluaran rtar7 0r7er D1& $ 3'32 + D16 D1& $ 3'32D16
#2"
Dengan efisiensi tar7 Dr7er %&)' maka D16 $ 3'%& + D14 Dengan efisiensi ;ilter Centrifuge %&)' maka D14$3'%& + D1# Dari persamaan #2" 0iperleh: D1&$3'32"3'%&"3'%&"D1# D1&$3'32"3'%&"3'%&"+D1# D1&$('#6 Ga0i' mpnen DMT sli0 0alam aliran M1#" a0alah 1'6? ('#6 $ 1&?'%2 7. Nera'a Ma!!a d( !ek(tar 9(lter Centr(:#e "9C)*1%
M1#
;ilter Centrifuge
M14
M12 Gambar A.11 Diagram Alir Neraca Massa 0i ;ilter Centrifuge
A-&
fisiensi ;ilter Centrifuge $%&) •
Mc etta' 1%&4"
DMT sli0 DMT 0alam M14" $ 1&?'%2 + %&) $ 1&4'1? DMT 0alam M12" $ 1&?'%2 @1&4'1?" $ 2'?6
•
DMT liFui0 DMT 0alam M12" $ ?'6#+ %&) $ ?'46 DMT 0alam M14" $ ?'6#@?'46" $ 3'16
•
Metanl 0alam M12" $ ##('(6 + %&) $ ##1'34 Metanl 0alam M14" $ ##('(6-##1'34" $ 4'(# Tabel A.11 Hasil ,erhitungan Neraca Massa 0i ;ilter Centrifuge Komponen
p-C6H4C!!H"# CH2!H H#! p-C6H4C!!CH2"# p-C6H4C!!CH2"# Total
s" l"
Inpt "k#$+am% M1# M12 3'3? 3'3? ##('(6 ##1'34 2('#2 3'33 1&?'%2 2'?6 ?'6# ?'46 4(6'41
,tpt "k#$+am% M14 3'33 4'(# 2('#2 1&4'1? 3'16 4(6'41
1*. Nera'a Ma!!a d( !ek(tar Rotar; r;er "R)*1%
1 M14
M16 tar7 Dr7er
M1(
Gambar A.1& Diagram Alir Neraca Massa 0i tar7 Dr7er
fisiensi tar7 Dr7er $ %&) •
Mc etta' 1%&4"
DMT sli0 DMT 0alam M16" $ 1&4'1? + %&) $ 1&3'4& DMT 0alam M1(" $ 1&4'1? @1&3'4&" $ 2'6% A-%
•
DMT liFui0 DMT 0alam M1(" $ 3'16 + %&) $ 3'1(? DMT 0alam M16" $ 3'16 @3'1(?" $ 3'332
•
Metanl liFui0 Metanl 0alam M1(" $ 4'(# + %&) $ 4'4# Metanl 0alam M16" $ 4'(#@4'4#" $ 31
•
Air Air 0alam M1(" $ 2('#2 + %&) $ 24'(# Air 0alam M16" $ 2('#2 @24'(#" $ 3'?1
Neraca Massa mpnen
mpnen H #! C" C14 C1 $ C1(C16 C14 $ 2('#2 kg89am
an0ungan air 0alam u0ara setelah mele*ati filter' 0iasumsikan ti0ak a0a 0ara 7ang 0igunakan a0alah u0ara kering' maka C1 $ 3 kg89am a0ar pr0uk keluar 0r7er : p-C 6H4C!!CH2"# $ %&)' H#! $ #) Mc etta' 1%&4 0an S ,atent 2%?#%1#" C16 $ 3'3# + D16" : 3'%& C16 $ 3'3# + 1&3'4&" : 3'%& kg89am $ 2'6& kg89am
C1( $ C14 C1 @ C16 C1( $ 2('#2 3 @ 2'6& $ 21'(( kg89am
mpnen p-C6H4C!!CH2"# D" D14 $ D16 $ 1&3'4& kg89am
mpnen ! # " M14 $ B14 C14 D14 $ 4'4# 2('#2 1&3'4& $ ##3'12 kg89am
,er.an0ingan u0ara 7ang masuk 0engan fee0 $ # :1
S ,atent 2%?#%1#"
Massa u0ara .asah $ # + M14 $ # + ##3'12 kg89am $ 443'#6 kg89am 0ara .asah pa0a T0r7 .ul. $ 44C T*et .ul. $ 2('? C A-13
= $ 3'33& Maka massa H#! $ 7 + massa u0ara .asah $ 3'33& + 443'#6 kg89am $ 2'(# kg89am Massa u0ara kering $ massa u0ara .asah @ massa H#! $ 443'#6 - 2'(#" kg89am $ 426'?4 kg89am 1 $ 1( $ 3'#1 + massa u0ara kering $ 3'#1 + 426'?4 kg89am $ %1'?# kg89am
,err7' #33&"
mpnen N # ;"
;1 $ ;1(
$ 3'?% + massa u0ara kering $ 3'?% + 426'?4 kg89am $ 24('3# kg89am Tabel A.1& Hasil ,erhitungan Neraca Massa 0i tar7 Dr7er
Komponen
M14 4'(# 2('#2 1&4'1? 3'16 3'33 3'33
CH2!H H#! p-C6H4C!!CH2"# s" p-C6H4C!!CH2"# l" !# N# Total
Inpt "k#$+am% 1 M1( 3'33 4'4# 3'33 24'(# 3'33 2'6% 3'33 3'1(? 2'(# 2'(# 24('3# 24('3# (6%'1
,tpt "k#$+am% M16 3'1 3'?1 1&3'4& 3'332 3'33 3'33 (6%'1
11. Nera'a Ma!!a d( !ek(tar S'reen(n# "SC)*1%
M16
M1& off spec) Screening
M1?
Gambar A.1 Diagram Alir Neraca Massa 0i Screening •
DMT sli0 DMT 0alam M1&" $ 2) pr0uk offspec 0ari M16
Mc etta' 1%&4"
DMT 0alam M1&" $ 3'32 + 1&3'4&$ ('#6
Tabel A.1 Hasil ,erhitungan Neraca Massa 0i Screening Komponen
Inpt "k#$+am% M16 M1?
,tpt "k#$+am% M1&
A-11
CH2!H H #! p-C6H4C!!CH2"# s" p-C6H4C!!CH2"# l" Total
3'1 3'1 3'?1 3'?1 1&3'4& 1?('## 3'332 3'332 1&1'#%2
3'33 3'33 ('#6 3'33 1&1'#%2
. 1&. Nera'a Ma!!a d( !ek(tar
I1
I# IapriEer
Gambar A.1/ Diagram Alir Neraca Massa 0i IapriEer
Tabel A.1/ Hasil ,erhitungan Neraca Massa 0i IapriEer Komponen
CH2!H H #! Total
Inpt "k#$$+am% I1 6?'2# 3'4 6?'?#
,tpt I# 6?'2# 3'4 6?'?#
1/. Nera'a Ma!!a d( !ek(tar Separator "S)*1%
I4 I# Separatr I( I2
Gambar A.13 Diagram Alir Neraca Massa 0i Separatr
A-1#
Tabel A.13 Hasil ,erhitungan Neraca Massa 0i Separatr Komponen
Inpt "k#$+am% I# I2 6?'2# 3'4 3'4 #&&'?6
I( ##1'34 3'33
CH2!H H #! Total
,tpt "k#$+am% I4 #&&'#?
#&&'?6
10. Nera'a Ma!!a d( !ek(tar 9rna'e "9)*1%
I4
M1 ;urnace
Tabel A.14 Hasil ,erhitungan Neraca Massa 0i ;urnace Komponen
Inpt "k#$+am% I4 M1 #&&'#? #&&'#? #&&'#?
CH2!H Total
,tpt "k#$+am%
#&&'#?
10. Nera'a Ma!!a d( !ek(tar S(lo "SL)*1%
S1
M# Sil
M& Tabel A.14 Hasil ,erhitungan Neraca Massa 0i Sil Komponen
p-C6H4C!!H"# Cu Total
Inpt "k#$+am% S1 M& 16#'&& 2'#( #'4& 3'3( 16&'66
,tpt "k#$+am%
M# 166'12 #'(2 16&'66
13. Nera'a Ma!!a 9la!= rm "9)*1%
M12
I( ;lash Drum
I6
A-12
Gambar A.12 Diagram Alir Neraca Massa 0i ;lash Drum Tabel A.12 Hasil ,erhitungan Neraca Massa 0i ;lash Drum Komponen
p-C6H4C!!H"# CH2!H p-C6H4C!!CH2"# p-C6H4C!!CH2"# Total
s" l"
Inpt "k#$+am% M12 3'3? ##1'34 2'?6 ?'46 #2#22
I( 3'33 ##1'34 3'33 3'33
,tpt "k#$+am% I6 3'3? 3'33 2'?6 ?'46 #2#22
SCALE UP PERHITUNGAN NERACA MASSA
Menghitung Scale p
Ttal arus keluar M1&"
$ 1&1'#%2 kg89am
apasitas pr0uksi
$ 1&%2%'2% kg89am
Scale up $
1&%2%'2% kg89am 1&1'#&2 kg89am
$ 134'4?
Tabel A.& Hasil ,erhitungan Neraca Massa 0i Su.limatr Komponen
CH2!H p-C6H4C!!H"# Cu
Inpt "k#$+am% M1 M# 2311('(? 3'33 3'33 1?2(('6 3'33 #64'2
4??2('4?
Total
,tpt "k#$+am% M2 2311('(? 1?2(('6 #64'2
4??2('4?
Tabel A. Hasil ,erhitungan Neraca Massa 0i Sikln / Komponen
CH2!H p-C6H4C!!H"# Cu Total
Inpt "k#$+am% M2 M4 2311('(? 3'33 1?2(('6 3'33 #64'2 #(%'1 4??2('4?
,tpt "k#$+am% M( 2311('(? 1?2(('6 ('## 4??2('4?
A-14
Tabel A.0 Hasil ,erhitungan Neraca Massa 0i eaktr' -31 Komponen
p-C6H4C!!H"# CH2!H H#! p-C6H4C!!CH2"# Cu Total
Inpt "k#$+am% M( M6 1?2(('6 246'&4 2311('(? #2(64'#( 3'33 26&3'4? 3'33 1%&?%'(% ('## ('## 4?4?6'4
,tpt "k#$+am%
4?4?6'4
Tabel A.3 Hasil ,erhitungan Neraca Massa 0i Desu.limatr Komponen
p-C6H4C!!H"# CH2!H H #! p-C6H4C!!CH2"# Cu Total
M6 246'&4 #2(64'#( 26&3'4? 1%&?%'(% ('##
Inpt "k#$+am% M? M& ?'21 22%'(# #2(64'#( 3'33 26&3'4? 3'33 1%&?%'(% 3'33 3'33 ('## 4?4?6'4
,tpt "k#$+am%
4?4?6'4
Tabel A.2 Hasil ,erhitungan Neraca Massa 0i n0ensr Ttal Komponen
p-C6H4C!!H"# CH2!H H#! p-C6H4C!!CH2"# Total
Inpt "k#$+am% M% M13 ?'21 ?'21 #2(64'#( #2(64'#( 26&3'4? 26&3'4? 1%&?%'(% 1%&?%'(% 4?121'6#
,tpt "k#$+am%
4?121'6#
A-1(
Tabel A.7 Hasil ,erhitungan Neraca Massa 0i Cler Komponen
Inpt "k#$+am% M13 M11 ?'21 ?'21 #2(64'#( #2(64'#( 26&3'4? 26&3'4? 1%&?%'(% 1%&?%'(% 4?121'6#
p-C6H4C!!H"# CH2!H H#! p-C6H4C!!CH2"# Total
,tpt "k#$+am%
4?121'6#
Tabel A.1* Hasil ,erhitungan Neraca Massa 0i ristaliEer Komponen
p-C6H4C!!H"# CH2!H H#! p-C6H4C!!CH2"# p-C6H4C!!CH2"# Total
s" l"
Inpt "k#$+am% ,tpt "k#$+am% M11 M1& M1# ?'21 3'33 ?'21 #2(64'#( 3'33 #2(64'#( 26&3'4? 3'33 26&3'4? 3'33 (4%(1 1%622'34 1%&?%'(% 3'33 ?%6'36 4?6&1'12 4?6&1'12
Tabel A.11 Hasil ,erhitungan Neraca Massa 0i ;ilter Centrifuge Komponen
p-C6H4C!!H"# CH2!H H#! p-C6H4C!!CH2"# p-C6H4C!!CH2"# Total
s" l"
Inpt "k#$+am% M1# M12 ?'21 ?'21 #2(64'#( #23%#'34 26&3'4? 3'33 1%622'34 2%#'& ?%6'36 ??%'24 4?6&1'12
,tpt "k#$+am% M14 3'33 4?#'# 26&3'4? 1%#43'#2 16'? 4?6&1'12
Tabel A.1& Hasil ,erhitungan Neraca Massa 0i tar7 Dr7er Komponen
CH2!H H#! p-C6H4C!!CH2"# p-C6H4C!!CH2"# !#
s" l"
M14 4?#'# 26&3'4? 1%#43'#2 16'? 3'33
Inpt "k#$+am% 1 M1( 3'33 461'? 3'33 2636'2 3'33 2&('4 3'33 16'4 26?'?2 26?'?2
,tpt "k#$+am% M16 13'44? ?4'1 1&&(4'?4 3'2 3'33
A-16
N#
3'33
26344'#4 (%4(2'&?
Total
26344'#4
3'33 (%4(2'&?
Tabel A.1 Hasil ,erhitungan Neraca Massa 0i Screening Komponen
CH2!H H#! p-C6H4C!!CH2"# p-C6H4C!!CH2"# Total
s" l"
Inpt "k#$+am% M16 M1? 13'44? 13'44? ?4'1 ?4'1 1&&(4'?4 1&23('# 3'2 3'2 1&%2%'6
,tpt "k#$+am% M1& 3'33 3'33 (4%'( 3'33 1&%2%'6
1&. Nera'a Ma!!a d( !ek(tar
Tabel A.1/ Hasil ,erhitungan Neraca Massa 0i IapriEer Komponen
Inpt "k#$$+am%
CH2!H H#! Total
I1 ?32#'% 41'?& ?3?4'?
,tpt "k#$$+am%
I# ?32#'% 41'?& ?3?4'?
1. Nera'a Ma!!a d( !ek(tar Separator Tabel A.10 Hasil ,erhitungan Neraca Massa 0i Separatr Komponen
CH2!H H #! Total
I( #23%#'3( 3'33
Inpt "k#$+am% I# I2 ?32#'%# 41'?& 41'?& 23166'?(
,tpt "k#$+am% I4 2311('(?
23166'?(
Tabel A.13 Hasil ,erhitungan Neraca Massa 0i ;urnace Komponen
CH2!H Total
Inpt "k#$+am% I4 M1 231#4'%6 231#4'%6 231#4'%6
,tpt "k#$+am%
231#4'%6
A-1?
Tabel A.14 Hasil ,erhitungan Neraca Massa 0i Sil Komponen
p-C6H4C!!H"# Cu Total
Inpt "k#$+am% S1 M& 1?316'3? 22%'(# #(%'3& ('## 1?61%'%1
,tpt "k#$+am%
M# 1?2(('6 #64'2 1?61%'%1
Nera'a Ma!!a Separator "9)*1%
M12
I( ;lash Drum
I6 Gambar A.12 Diagram Alir Neraca Massa 0i Separatr
Tabel A.12 Hasil ,erhitungan Neraca Massa 0i Separatr Komponen
p-C6H4C!!H"# CH2!H p-C6H4C!!CH2"# s" p-C6H4C!!CH2"# l" Total
Inpt "k#$+am%
M12 ?'21 #23%#'3( 2%#'& ??%'24 #4#?1'(
I( 3'33 #23%#'3( 3'33 3'33
,tpt "k#$+am% I6 ?'21 3'33 2%#'& ??%'24 #4#?1'(
A-1&