user manual
TABLE4.3-4
SERVICEMODULERCSLOADINGP_TERS ANDCALCULATIONS- QUADB
_F.
Fuel
Secondary Fuel
A. Loading Temperature (°F)
B. Tank Volume (in 3) @ 0.0 PSIG
BI. Liquid Line Volume (in 3)
C. Tank Stretch Factor (in3/PSl) 0.034
D. Initial Weight of Bleed Unit
Prior to Loading (Ib)
E. Final Weight of Bleed Unit
After Loading (Ib)
Resulting Load (ib) (Item D less
Item E)
G. Specification Nominal Load
at 70 ±5 ° F (ib)
H. Volume of GHE-GSE Line (in 3)
I. Volume of S/C GHE Line (in 3)
J. GSE Line Pressure (PSIG)
K. Bladder Pressure (PSIG)
L. Stabilized Equilibrium
Pressure (PSIG)
M. Primary Liquid Close-Out
Pressure (PSIG)
N. Specification Ullage @ A Above
Maximum
Minimum
O. Ullage Volume (in3). Solve the
following equation by substituting
the values contained in the indi-
cated steps.
Ullage Volume = H (_-Z--K)J- L _
(C + s)(e + K + 14.7) + S(M)- I
Primary Fuel
P. Loading Temperature (°F)
Q. Tank Volume (in 3) @ 0.0 PSIG
•
R. Liquid Line Volume (in)
S. Tank Stretch Factor (in3/PSI) 0.0652
Oxidizer
Secondary Oxidizer
A. Tank Volume (in 3) @ 0.0 PSIG
AI. Liquid Line Volume (in 3)
B. Tank Stretch Factor (in3/PSl)
Primary Oxidizer
C. Tank Volume (in 3) @ 0.0 PSIG
CI. Liquid Line Volume (in 3)
D. Tank Stretch Factor (in3/PSl)
0.045
0.088
PV Parameters for Combined
Primary and Secondary Oxidizer Tanks
E. Volume of GHE-GSE Line (in 3)
F. Volume of S/C GHE Line (in 3)
G. GSE Line Pressure (PSIG)
H. Bladder Pressure (PSIG)
I. Stabilized Equilibrium
Pressure (PSIG)
J. Loading Temperature (°F)
K. Oxidizer Density (ib/in3); solve
equation (4) below where T = Tempera-
ture @ J above
L. Specification Value @ Temperature J
above (Ib)
Maximum
Minimum
M. PV Calculated Oxidizer Load (Ib); solve
equation (5) and (6) below by sub-
stituting the values contained in the
above indicated steps where U =
Volume of tank gas (in 3) in both tanks
and He system, and Fo -- PV calculated
oxidizer load for both tanks
-+2.3
N. Specification Nor_inal Value @ Tempera-
ture J above (ib)
(4) Oxidizer Density = 0.451591(10 -4 )
(11.8 - T) + 0.05475906
(5) U = E _ - (B+D)(I+I{+I4.7)
(6) Fo = K(A + C + AI + CI - U + F)
4.3-6
SNA-8-D-027 (III) REV 2
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