attachment - 4 river bathymetric survey map · 2019. 3. 27. · gt master 20.0 system planning...
TRANSCRIPT
Attachment - 4 River bathymetric survey map
Attachment - 5 Plot Plan
Attachment - 6 Heat Balance
Am
bien
t1.
013
P10
T76
.51%
RH
GT
MA
STE
R 2
0.0
Sys
tem
Pla
nnin
g G
roup
p [b
ar]
T [C
] M
[t/h
], S
team
Pro
perti
es: T
herm
oflo
w -
STQ
UIK
651
2012
-01-
20 1
8:30
:45
file
=C:\T
oyo
pp\Ir
aq\S
TPR
O 0
9_01
_201
2\C
oole
d A
CC
with
Dsa
l\221
x2 M
HI F
4 ba
se 1
0C A
CC
0w
ater
.GTM
GT
MA
STE
R 2
0.0
Sys
tem
Pla
nnin
g G
roup
Gro
ss P
ower
1865
555
kWN
et P
ower
1805
957
kWD
esal
inat
ed w
ater
6.48
MIG
D
Aux
. & L
osse
s59
598
kWLH
V G
ross
Hea
t Rat
e61
79 k
J/kW
hLH
V N
et H
eat R
ate
6383
kJ/
kWh
LHV
Gro
ss E
lect
ric E
ff.58
.26
%LH
V N
et E
lect
ric E
ff.56
.4 %
Fuel
LH
V In
put
3202
037
kWth
Fuel
HH
V In
put
3544
626
kWth
Net
Pro
cess
Hea
t0
kWth
1.01
3 p
85.8
7 T
1050
7 M
5.29
5 p
29.2
6 T
1674
M
HP
HP
B13
0.1
p33
0.9
T12
54.4
M
465
T34
1.9
T
IP
IPB
36.0
7 p
244.
3 T
177.
7 M
283.
3 T
256
T
LP
LPB
4.04
4 p
144
T22
5.4
M
198.
6 T
155.
4 T
Col
d R
ehea
t
36.7
7 p
363.
6 T
1225
.3 M
2 x
ST =
5945
49 k
W
0.71
43 M
1.04
7 p
598.
9 T
1050
7 M
Iqaq
Nat
ural
gas
248.
3 M
3202
037
kWth
LH
V 4 x
Mts
b 70
1 F
(Phy
sica
l Mod
el)
@ 1
00%
load
1271
007
kW
1.01
3 p
10 T
1025
9 M
76.5
1% R
H
1.00
3 p
10 T
1025
9 M
0.04
07 p
29.2
9 T
1656
M
100
full
spee
d ce
lls 0
hal
f spe
ed c
ells
0 c
ells
off
to H
RS
G
Sto
p V
alve
123.
8 p
545.
7 T
1254
.4 M
3.50
3 p
293.
3 T
225.
4 M
32.1
6 p
545.
1 T
1403
M
Hot
Reh
eat
RO
Des
alin
atio
n6.
48 M
IGD
( 2 X
3.2
4 M
IGD
)A
ux =
306
0 kW
Sea
wat
er s
uppl
y1.
013
p30
T15
30 M
Brin
e bl
owdo
wn
1.01
3 p
31.0
8 T
306
M
Des
alin
ated
wat
er (6
.48
MIG
D)
1.01
4 p
31.0
5 T
1224
M
Am
bien
t1.
013
P30
T16
.97%
RH
GT
MA
STE
R 2
0.0
Sys
tem
Pla
nnin
g G
roup
p [b
ar]
T [C
] M
[t/h
], S
team
Pro
perti
es: T
herm
oflo
w -
STQ
UIK
651
2012
-01-
20 1
3:10
:31
file
=C:\T
oyo
pp\Ir
aq\S
TPR
O 0
9_01
_201
2\C
oole
d A
CC
with
Dsa
l\221
x2 M
HI F
4 ba
se 3
0C A
CC
No
wat
er.G
TM
GT
MA
STE
R 2
0.0
Sys
tem
Pla
nnin
g G
roup
Gro
ss P
ower
1688
487
kWN
et P
ower
1631
358
kWD
esal
inat
ed w
ater
6.48
MIG
D
Aux
. & L
osse
s57
129
kWLH
V G
ross
Hea
t Rat
e62
34 k
J/kW
hLH
V N
et H
eat R
ate
6452
kJ/
kWh
LHV
Gro
ss E
lect
ric E
ff.57
.75
%LH
V N
et E
lect
ric E
ff.55
.8 %
Fuel
LH
V In
put
2923
831
kWth
Fuel
HH
V In
put
3236
654
kWth
Net
Pro
cess
Hea
t0
kWth
1.01
3 p
92.4
T97
93 M
3.48
3 p
48.5
4 T
1606
.6 M
HP
HP
B12
8 p
329.
6 T
1220
.2 M
470.
9 T
340
T
IP
IPB
35.0
1 p
242.
6 T
158.
6 M
279.
6 T
253.
1 T
LP
LPB
3.88
7 p
142.
6 T
211.
9 M
196.
6 T
153.
2 T
Col
d R
ehea
t
35.7
8 p
374
T11
92.1
M
2 x
ST =
5571
36 k
W
0.65
36 M
1.04
3 p
614.
5 T
9793
MIqaq
Nat
ural
gas
226.
7 M
2923
831
kWth
LH
V 4 x
Mts
b 70
1 F
(Phy
sica
l Mod
el)
@ 1
00%
load
1131
351
kW
1.01
3 p
30 T
9566
M16
.97%
RH
1.00
3 p
30 T
9566
M
0.11
59 p
48.7
5 T
1589
.3 M
100
full
spee
d ce
lls 0
hal
f spe
ed c
ells
0 c
ells
off
to H
RS
G
Sto
p V
alve
121.
8 p
559.
6 T
1220
.2 M
3.39
p29
1.7
T21
1.9
M
31.2
6 p
559.
2 T
1350
.7 M
Hot
Reh
eat
RO
Des
alin
atio
n6.
48 M
IGD
( 2 X
3.2
4 M
IGD
)A
ux =
306
0 kW
Sea
wat
er s
uppl
y1.
013
p30
T15
30 M
Brin
e bl
owdo
wn
1.01
3 p
31.0
8 T
306
M
Des
alin
ated
wat
er (6
.48
MIG
D)
1.01
4 p
31.0
5 T
1224
M
Am
bien
t1.
013
P50
T12
.55%
RH
GT
MA
STE
R 2
0.0
Sys
tem
Pla
nnin
g G
roup
p [b
ar]
T [C
] M
[t/h
], S
team
Pro
perti
es: T
herm
oflo
w -
STQ
UIK
651
2012
-01-
20 1
4:29
:26
file
=C:\T
oyo
pp\Ir
aq\S
TPR
O 0
9_01
_201
2\C
oole
d A
CC
with
Dsa
l\221
x2 M
HI F
4 ba
se 5
0C A
CC
20%
RH
.GTM
GT
MA
STE
R 2
0.0
Sys
tem
Pla
nnin
g G
roup
Gro
ss P
ower
1435
311
kWN
et P
ower
1380
998
kWD
esal
inat
ed w
ater
6.48
MIG
D
Aux
. & L
osse
s54
313
kWLH
V G
ross
Hea
t Rat
e65
51 k
J/kW
hLH
V N
et H
eat R
ate
6809
kJ/
kWh
LHV
Gro
ss E
lect
ric E
ff.54
.95
%LH
V N
et E
lect
ric E
ff.52
.87
%Fu
el L
HV
Inpu
t26
1206
2 kW
thFu
el H
HV
Inpu
t28
9152
9 kW
thN
et P
roce
ss H
eat
0 kW
th
1.01
3 p
97.2
9 T
8968
M
3.21
5 p
63.4
4 T
1531
.1 M
HP
HP
B12
2.2
p32
6 T
1137
.4 M
472.
2 T
335.
5 T
IP
IPB
33.5
9 p
240.
2 T
138.
9 M
275.
1 T
249.
6 T
LP
LPB
3.66
6 p
140.
5 T
191.
1 M
192.
6 T
150
T
Col
d R
ehea
t
34.3
8 p
375.
5 T
1135
.9 M
2 x
ST =
4635
44 k
W
0.62
31 M
1.03
8 p
628.
9 T
8968
MIqaq
Nat
ural
gas
202.
6 M
2612
062
kWth
LH
V 4 x
Mts
b 70
1 F
(Phy
sica
l Mod
el)
@ 1
00%
load
9717
67 k
W
1.01
3 p
50 T
8766
M12
.55%
RH
1.00
3 p
50 T
8766
M
0.23
63 p
80.9
T15
15.1
M
100
full
spee
d ce
lls 0
hal
f spe
ed c
ells
0 c
ells
off
to H
RS
G
Sto
p V
alve
116.
4 p
560
T11
62.8
M
3.23
8 p
290
T19
1.1
M
30.0
7 p
560
T12
98.5
M
Hot
Reh
eat
RO
Des
alin
atio
n6.
48 M
IGD
( 2 X
3.2
4 M
IGD
)A
ux =
306
0 kW
Sea
wat
er s
uppl
y1.
013
p30
T15
30 M
Brin
e bl
owdo
wn
1.01
3 p
31.0
8 T
306
M
Des
alin
ated
wat
er (6
.48
MIG
D)
1.01
4 p
31.0
5 T
1224
M
Attachment - 7 Water Balance
per 2 on 1 Multi Shaft 900MW class CCPP one (1) Train
Number
Description
Unit
Raw water from river
t/h
Desalinated Water
t/h
3Pre-Treatment Back-Wash and Rejection Water
t/h
4Service water
t/h
5ACC cooling water injection (@ ambient temperature of 50 C)
t/h
6Quench water
t/h
7Inlet to makeup demineralizer system
t/h
8Miscellaneous service water uses
t/h
Potable water
t/h
10
Demineralized water produced
t/h
11
Demineralizer system waste water
t/h
12
HRSG/steam turbine cycle makeup
t/h
13
Combustion turbine wash water
L/day
14
Vent losses from HRSG/steam turbine cycle
t/h
15
HRSG blowdown
t/h
16
ACC cooling water evapolation to atmosphere
t/h
17
N/A
t/h
18
Discharge to river
t/h
19
N/A
t/h
20
Closed cooling water system cooling water
t/h
Notes:
1. All flows except combustion turbine wash water are average ton per hour.
2. Combustion turbine wash water flow is average liters per day.
3. HRSG blowdown is assumed to be 4% of total steam flow.
4. Vent losses are assumed to be 1% of total steam flow.
5. Demineralized water flow of *1, *2, *3 and *4 are included in ⑦.
Water Flow
1470
94
2374
96
328 -
74
46
300
300 -
3,800
20
524
228
40 6 40
R
AW
W
ATER
F
RO
M R
iver
SER
VIC
EW
ATER
TA
NK
PLA
NT U
SES
PLA
NN
T A
UXIL
IAR
YH
EA
T L
OA
Ds
CLO
SED
CO
OLIN
G
WA
TER
FIN
FA
N C
OO
LER
PO
TA
BLE
WA
TER
OIL
SEP
AR
ATO
R
HR
SG
/ S
TEA
MTU
RB
INE
CYC
LE
CO
MB
USTIO
NTU
RB
INE
WA
STE W
ATER
PIT
V
EN
T L
OSSES
D
ISC
HA
RG
E T
O R
iver
1
5
11
13
16
DEM
INER
ALIZ
ED
WA
TER
TA
NK
DEM
INER
ALIZ
ED
WA
TER
SYSTEM
NEU
TR
ALIZ
ATIO
NP
IT
FIR
E P
RO
TEC
TIO
NSYSTEM
0t/
h
HYD
RO
GEN
GEN
ER
ATIO
N
SEP
TIC
TA
NK
WA
STE
SA
NIT
AR
Y
WA
STE
OIL
Y
AU
XIL
IAR
YB
OIL
ER
CC
WEXP
AN
SIO
N T
AN
KC
YC
LE C
HEM
ICA
LFEED
*4
*3
*2
*1
AIR
CO
OLED
CO
ND
EN
SR
ATM
OSP
HER
EEV
AP
OR
ATIO
N
RA
W W
ATER
PR
E-TR
EA
TM
EN
T D
ESA
LIN
ATIO
NSYSTEM
2
3
4
6 7
8 9
10
12
14
15
18
20
Pre
para
tory
Stu
dy for
Pre
para
tory
Stu
dy for
Pre
para
tory
Stu
dy for
Pre
para
tory
Stu
dy for
Deve
lopm
ent
of South
ern
Deve
lopm
ent
of South
ern
Deve
lopm
ent
of South
ern
Deve
lopm
ent
of South
ern
Lar
ge S
cal
e T
herm
alLar
ge S
cal
e T
herm
alLar
ge S
cal
e T
herm
alLar
ge S
cal
e T
herm
alP
ow
er
Pla
nt
in IR
AQ
Pow
er
Pla
nt
in IR
AQ
Pow
er
Pla
nt
in IR
AQ
Pow
er
Pla
nt
in IR
AQ
Nas
irya
h II
Nas
irya
h II
Nas
irya
h II
Nas
irya
h II
CO
MB
INED
CYC
LE
CO
MB
INED
CYC
LE
CO
MB
INED
CYC
LE
CO
MB
INED
CYC
LE
PO
WER
PR
OJEC
TP
OW
ER
PR
OJEC
TP
OW
ER
PR
OJEC
TP
OW
ER
PR
OJEC
T2 o
n 1
Multi Shaf
t Tra
in2 o
n 1
Multi Shaf
t Tra
in2 o
n 1
Multi Shaf
t Tra
in2 o
n 1
Multi Shaf
t Tra
inW
ATER
BA
LA
NC
EW
ATER
BA
LA
NC
EW
ATER
BA
LA
NC
EW
ATER
BA
LA
NC
ED
IAG
RA
MD
IAG
RA
MD
IAG
RA
MD
IAG
RA
M(A
CC
with C
oolin
g C
ase)
(AC
C w
ith C
oolin
g C
ase)
(AC
C w
ith C
oolin
g C
ase)
(AC
C w
ith C
oolin
g C
ase)
Jan
. 21, 2012 R
ev.
0A
Attachment - 8 Single Line Diagram
Cab
leC
onne
ctio
n:O
verh
ead
Line
Con
nect
ion
Rev
.1/J
an-2
3-20
12
Attachment - 9 Nasiryah I Conceptual Plant Layout
400kV CABLE TO AUTO TRANSFORMER(BY OTHERS)
400kV CABLE TONASIRYAH II GENERATORSTEP-UP TRANSFORMERS
SPACE BETWEEN 400kV OHL GANTRY AND 132kV OHLGANTRY TO BE WIDE ENOUGH (20M TYPICAL) TOROUTE THE 400kV CABLES FROM NASIRYANH II.
DWG No. 143 E 9054, Rev.GJICA MARK-UP
Rev.1 (Feb-12-2012)
EXTENSIONFOR
NASIRIYAH IIPROJECT
OHL
Attachment - 10 Plant control system configuration
Pre
para
tory
Stu
dy f
or
Deve
lopm
ent
of
Sout
hern
Lar
ge
Scal
e T
herm
al P
ow
er
Pla
n in IR
AQ
JIC
AEt
hern
et Ca
bleFib
er O
ptic C
able
LEGE
ND
SWGR
CCTV
DCS
BOP
EWS
Balan
ce of
Plan
tCl
osed
Circ
uit T
elevis
ion
Distr
ibuted
Con
trol S
ystem
Switc
h Gea
r
Hard
wire
d
GCS
Gas T
urbin
e Gen
erato
r
MCC
Motor
Con
trol C
enter
DW
G N
O.
ATTA
CH
MEN
T-5.3
.3P
lant
Contr
ol Sys
tem
Configu
ration
Engin
eerin
g Wor
k Stat
ionGT
GGe
nera
tor C
ontro
l Sys
tem
CEMS
Conti
nuou
s Emi
ssion
Mon
itorin
g Sys
tem
MFAP
Main
Fire A
larm
Pane
l
GPS
Glob
al Po
sition
ing S
ystem
SCAD
AST
GSu
pervi
sory
Contr
ol An
d Data
Acq
uisitio
nSt
eam
Turb
ine G
ener
ator
PLC
Prog
ramm
able
Logic
Con
trolle
r
SWSw
itch T
ype I
nstru
ment
(by o
thers)
SCAD
A
SWJB
s
To/F
rom
DCS
SW
JBs
SWJB
s
STG
HMI
STG
EWS
GTG
(A)
EWS
Auxil
iary
Contr
ol Pa
nel
To/F
rom
DCS
Main
Fire
Alar
m Pa
nel
To/F
rom
DCS
Loca
l PLC
for P
acka
ge S
ystem
(Typ
ical)
DCS
HMI
Alar
m/E
vent
P
rinte
r (B
/W)
Rep
ort
Pint
er (B
/W)
Har
d C
opie
r(C
OLO
R)
DCS
HMI
DCS
HMI
DCS
HMI
CO
LOR
P
RIN
TER DC
S EW
SDC
S HM
I(fo
r Sup
ervis
or)
SW
JBs
GTG
(A)
HMI
SWJB
s
GTG
(B)
HMI
GTG
(B)
EWS