Hydraulic Jet Pump
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HydraulicJetPump.xls Input Data 1 Reservoir depth (TD): 10,000 ft 4000 psia Productivity index (J): 2 stb/d-psi Formation oil gravity (API): 40 Pump depth (D): 9,700 ft 758 stb/day Design pump area ratio R-value: 0.262 0.16 0.255 0.90 Oil formation volume factor (Bo): 1.2 rb/stb 0.8 Solution Dimensionless head at peak efficiency (Hp) = 0.28 3,621 psia 3,514 psia 1,011 bbl/day 1,920 bbl/day 2917 psia 3,535 psia 3,519 psia 500 psi Required input power (HP) = 8.59 hp Description: This spreadsheet calculates parameters for hydraulic jet pump selecti Instruction: 1) Click a unit-box to choose a unit system; 2) Update parameter valu Data section and in the Solution section; 3) View result in the Solution section a Reservoir pressure (pr): o API Produced fluid rate (q3): Jet nozzle area (Aj): in 2 Pump peak efficiency (hp): Dimensionless rate at peak efficiency (Mp): Power fluid specific gravity (g1): Flowing bottom hole pressure (pwf) = Intake pressure (p3) = Power fluid rate (q1) = Total return flow rate (q2) = Input required discharge pressure based on TPR (p2,r Required power fluid pressure (p1) = Available discharge pressure from the pump (p2) = Input required surface operating pressure (ps):
description
Hoja Excel de cálculos para el diseño de Bombeo Hidráulico Jet
Transcript of Hydraulic Jet Pump
HydraulicJetPump.xls
Input Data 1
Reservoir depth (TD): 10,000 ft
4000 psia
Productivity index (J): 2 stb/d-psi
Formation oil gravity (API): 40
Pump depth (D): 9,700 ft
758 stb/dayDesign pump area ratio R-value: 0.262
0.16
0.255
0.90
Oil formation volume factor (Bo): 1.2 rb/stb
0.8
SolutionDimensionless head at peak efficiency (Hp) = 0.28
3,621 psia
3,514 psia
1,011 bbl/day
1,920 bbl/day
2917 psia
3,535 psia
3,519 psia
500 psi
Required input power (HP) = 8.59 hp
Description: This spreadsheet calculates parameters for hydraulic jet pump selection.
Instruction: 1) Click a unit-box to choose a unit system; 2) Update parameter values in the Input Data section and in the Solution section; 3) View result in the Solution section and charts.
Reservoir pressure (pr):
oAPI
Produced fluid rate (q3):
Jet nozzle area (Aj): in2
Pump peak efficiency (hp):
Dimensionless rate at peak efficiency (Mp):
Power fluid specific gravity (g1):
Flowing bottom hole pressure (pwf) =
Intake pressure (p3) =
Power fluid rate (q1) =
Total return flow rate (q2) =
Input required discharge pressure based on TPR (p2,r ):
Required power fluid pressure (p1) =
Available discharge pressure from the pump (p2) =
Input required surface operating pressure (ps):
A9
bgg4826:
HydraulicJetPump.xls
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3,000 m 10000 ft
20 MPa 4000 psia
23 2 stb/d-psi
0.80 S.G. 40 0.8251 S.G.
2,800 m 9,700 ft
100 758 stb/day0.262 0.262
0.5 0.16
0.26 0.255
0.95 0.9
1.2 1.20 rb/stb
0.80 0.80
0.28
25 MPa
24 MPa
161
305
2917 psia
24.05 MPa
23.94 MPa
3.40 MPa
6.40 kW
1) Click a unit-box to choose a unit system; 2) Update parameter values in the Input Data section and in the
m3/d-MPa
oAPI
sm3/day
cm2 in2
m3/sm3
m3/day
m3/day
NvlN vg
0.575 ( ppst )0 .1 CNLND
N vgN L0 .38
N D2 .14
N vgN L0 .38
N D2 .14
