Design of Pipeline (600HP) Pumps Foundation

July 31, 2017 | Author: micktunx | Category: Resonance, File Format, Microsoft Excel, Mechanics, Mathematics
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spreadsheet calculation for the Design of Pipeline (600HP) Pumps Foundation...

Description

Calculation Cover Sheet Customer Project Title Calculation Title Elec File Location

Proj No Calc No Phase/CTR

CHEVRON NIG. LTD ESCRAVOS PRODUCED WATER DISPOSAL PROJECT

Pipeline (600 HP) Pumps Calculation Note

10104

2 4

\\vboxsrv\conversion_tmp\scratch_1\[165735015.xls.ms_office.xls]Calculation Cover Sheet

Project File Location Page 1 of 14 Calculation Objective The purpose of this calculation is to document the Design of Pipeline (600HP) Pumps Foundation for the Dehydration Facilities.

Calculation Method [1] Determine the imposed load from the Pumps to the soil and compare with an assumed allowable gross soil bearing capacity. [2] Determine the dimensions for the Pumps' Foundation and assess its dynamic performance. [3] Determine the reinforcemt for the Pumps' Foundation and assess its dynamic performance.

Assumptions Grade of concrete, f cu = 30 N/mm 2 , Grade of steel, f y = 410 N/mm 2 , Assumed soil bearing capacity= 50 KN/m 2 .

Software Used Title Excel

Version 97-2003

Validation (Y / N / N/A) N/A

References [1] Basis of Design Report - PWD-PW03-STR-BOD-DAE-000-90001-00 [2] BS 8110 - Part 1: 1997 - Structural use of concrete. [3] W.H. Mosley and J.H. Bungey - Reinforced Concrete Design, Second edition. [4] Design of Structures and Foundations for Vibrating Machines, by S. C. Arya, M. O'Neill, G. Pincus, 1978, Gulf Publishing Co. Chapter 6, Example 2. [5] Preliminary GA drawing from Sulzer. [6] CIV-DU-5009-H "Structural Design Criteria"

Conclusions The results of the analysis show that the foundation dimensions are adequate to support the dead and dynamic loads. The imposed stress to the soil, the eccentric and natural frequency are acceptable. Nominal reinforcement provided is adequate.

H01 E01 D01 Rev

03-Dec-10 08-Nov-10 11-Oct-10 Date

Issued for Design Issued for Review Issued for IDC Description

I.Oguntuase F. Adeshina F. Adeshina By

G. Mahadeo G. Mahadeo G. Mahadeo Checked

C. Imuse C. Imuse C. Imuse Approved

This Calculation represents the work of DeltaAfrik performed to recognized engineering principles and practices appropriate for the terms of reference provided by DeltaAfrik contractual Customer. This Calculation is confidential and prepared solely for the use of the Customer. The contents of this Calculation may not be disclosed to or relied upon by any party other than the Customer, and neither DeltaAfrik , its subconsultants nor their respective employees assume any liability for any reason, including, but not limited to, negligence, to any other party for any information or representation herein..

Corporate Base

Note: to create a within a cell, pre Alt+Enter.

Calculation Checklist Customer Project Title Calculation Title

CHEVRON NIG. LIMITED ESCRAVOS PRODUCED WATER DISPOSAL PROJECT Pipeline (600 HP) Pumps Calculation Note

Proj No Calc No Phase/CTR

Elec File Location

\\vboxsrv\conversion_tmp\scratch_1\[165735015.xls.ms_office.xls]Calculation Cover Sheet

Project File Location Page Please check boxes for all applicable items checked or mark as "N/A" if not appropriate: Calculations:

10104 2 4

2

of

14

Calculation number assigned and registered (refer to project numbering system or Document Numbering System EPP-0040 for format). Project title shown. Calculation title shown. Revision history box complete and signed. Table of Contents. Appropriate stamp for preliminary issues. Calculation objectives (aims) stated. Calculation method defined or described (including formulae if relevant). Reference made to text, standard or code. Check version/edition with that required for project. Source of input data stated (with revision number and date if relevant). Customer's requirements included/addressed. Assumptions stated. Summary of results or conclusions if appropriate. For software based calculations, reference to software verification if available. Approach used is appropriate for problem being solved. Method clear and easy to follow. Input data correct. Calculation arithmetically correct OR software previously verified and reference to verification checked. Calculation result within expected limits. Calculation tolerances stated if significant. Units used as required by customer. Unit conversions correctly performed. Abbreviations correct. Appropriate cross-references. Sketches included and clearly labelled, where required. Appendices included and referenced, as required. Considered design reviews, Hazop actions, client input, safety and environmental issues, etc. Document Sign-offs (typed full names of Originator, Checker, Approver; to be initialed beside at sign-off) Dates in standard format (DD-MMM-YY) Checking Records: Checked and annotated copy of calculation filed (use "Check Print" stamp). Corrections made as required and calculation dated and signed on cover sheet by checker. Alternative method calculation and/or representative check performed and filed, as required. Revisions: Changes clouded. Revision history block updated. Calculation re-checked if required. H01 E01 D01 Rev

03-Dec-10 08-Nov-10 11-Oct-10 Date

Issued for Design Issued for Review Issued for IDC Description

I.Oguntuase F. Adeshina F. Adeshina By

G. Mahadeo G. Mahadeo G. Mahadeo Checked

C. Imuse C. Imuse C. Imuse Approved

This Calculation represents the work of DeltaAfrik performed to recognized engineering principles and practices appropriate for the terms of reference provided by DeltaAfrik contractual Customer. This Calculation is confidential and prepared solely for the use of the Customer. The contents of this Calculation may not be disclosed to or relied upon by any party other than the Customer, and neither DeltaAfrik , its subconsultants nor their respective employees assume any liability for any reason, including, but not limited to, negligence, to any other party for any information or representation herein.. Corporate Base

Calculation Sheet Customer Project Title Calculation Title

CHEVRON NIG. LTD ESCRAVOS PRODUCED WATER DISPOSAL PROJECT Pipeline (600 HP) Pumps Calculation Note

Proj No Calc No Phase/CTR

Elec File Location

\\vboxsrv\conversion_tmp\scratch_1\[165735015.xls.ms_office.xls]Calculation Cover Sheet

10104 2 4

Project File Location Rev Date By

Checked

Rev

Date

By

Checked

Rev

Page Date

3 By

11-Oct-10

G. Mahadeo

E01

08-Nov-10

F. Adeshina

G. Mahadeo

H01

03-Dec-10

I.Oguntuase

D01

F. Adeshina

of

14 Checked G. Mahadeo

Table of Contents Pages 1.0

Pipeline (600HP) pumps Foundation Design

4

2.0

Selection of Foundation Configuration

4

3.0

Dynamic Analysis

5

4.0

Reinforcement

8

Appendix A

Pump Performance Data Sheet

9

This Calculation represents the work of DeltaAfrik performed to recognized engineering principles and practices appropriate for the terms of reference provided by DeltaAfrik contractual Customer. This Calculation is confidential and prepared solely for the use of the Customer. The contents of this Calculation may not be disclosed to or relied upon by any party other than the Customer, and neither DeltaAfrik , its subconsultants nor their respective employees assume any liability for any reason, including, but not limited to, negligence, to any other party for any information or representation herein..

Corporate Base

Calculation Sheet Customer Project Title Calculation Title Elec File Location

CHEVRON NIG. LTD ESCRAVOS PRODUCED WATER DISPOSAL PROJECT Pipeline (600 HP) Pumps Calculation Note

Proj No Calc No Phase/CTR

10104 2 4

\\vboxsrv\conversion_tmp\scratch_1\[165735015.xls.ms_office.xls]Calculation Cover Sheet

Project File Location Rev Date By D01

1.0

11-Oct-10

F. Adeshina

Checked

Rev

Date

By

Checked

Rev

Page Date

G. Mahadeo

E01

08-Nov-10

F. Adeshina

G. Mahadeo

H01

03-Dec-10

4 By

of

14 Checked

I.Oguntuase

G. Mahadeo

PIPELINE (600HP) PUMPS FOUNDATION DESIGN (A) Machine Data : C. G. of Pump

Motor

Pump Weight of Pump (Wp) =

13.4 KN

Operating Speed (f) = (w) = C.L. of shaft elevation = C.O.G of pump/motor elevation =

1780 186 100.71 100.71

c

Weight of Motor =

rpm Operating Speed (f) = rad/sec (w) = m C.L. of Shaft elevation = m Weight of base plate =

Total Wt of Equip. (Pump + Motor + Base Plate) =

X

11.6 KN 1780 rpm 186 rad/sec 100.71 m 14.0 KN

Y

39.04 KN

C. G. of Pump/Motor

(B) Soil Data : G = Shear Modulus n = Poisson Ratio Sall = Allowable Net Soil Brg. Cap. = g = Soil Density Di = Internal Damping Ratio Neglected soil cover depth

= 40.00 = 0.40 50.0 = 20 = 0.05 = 0.00

2

N/mm

40000

KN/m (Assumed, table 4-8, ref 4) 2

Z

KN/m2 KN/m3

T. O. FDN EL. Grade EL.

m

b3

(C) Concrete Data : gc, Concrete Density 2.0

24

KN/m3

a3

SELECTION OF FOUNDATION CONFIGURATION : (A) Trial Size of Foundation Length of footing, c3 = Width of footing, a3 = Thickness of footing b3 =

3.90 m 1.60 m 1.60 m

Grade Elev. = T.O. Ftg El. =

99.70 m 100 m

Spring Constant Coefficient : a3/c3 = 0.41 For by, bx, bz by = 0.43 bx = 1.01 bz = 2.13

(B) Check Machine & Foundation Wt Ratio : Wt of Machine = Wt of Fdn. = Total Wt. =

39.0 239.6 278.7

= 6.14 > 3.0 OK !

Wt Ratio = Fdn. Wt / Machine Wt

(C) Locate C.G. of Pump Assembly & Conc. Fdn. :(w.r.t. C.G. of Pump) ITEM

W/(KN)

Pump Motor Base Plate Foundation Summation =

13.4 11.6 14.0 239.6 278.7 Xo =

X/(m)

WX/(KN)

0.00 0.00 0.00 0.05

0.04 m

0.00 0.00 0.00 11.98 11.98 Yo = 0.78 m

Y/(m)

WY/(KN)

0.00 1.80 0.77 0.77

0.00 20.84 10.80 184.50 216.14

Z/(m) 0.00 0.00 0.71 1.51

WZ/(KN) 0.00 0.00 9.97 362.06 372.03

Zo= 1.34 m

This Calculation represents the work of DeltaAfrik performed to recognized engineering principles and practices appropriate for the terms of reference provided by DeltaAfrik contractual Customer. This Calculation is confidential and prepared solely for the use of the Customer. The contents of this Calculation may not be disclosed to or relied upon by any party other than the Customer, and neither DeltaAfrik , its subconsultants nor their respective employees assume any liability for any reason, including, but not limited to, negligence, to any other party for any information or representation herein..

Corporate Base

Calculation Sheet Customer Project Title Calculation Title Elec File Location

CHEVRON NIG. LTD ESCRAVOS PRODUCED WATER DISPOSAL PROJECT Pipeline (600 HP) Pumps Calculation Note

Proj No Calc No Phase/CTR

10104 2 4

\\vboxsrv\conversion_tmp\scratch_1\[165735015.xls.ms_office.xls]Calculation Cover Sheet

Project File Location Rev Date By 11-Oct-10

D01

F. Adeshina

Checked

Rev

Date

By

Checked

Rev

Page Date

G. Mahadeo

E01

08-Nov-10

F. Adeshina

G. Mahadeo

H01

03-Dec-10

5 By

of

14 Checked

I.Oguntuase

G. Mahadeo

(D) Eccentricity and Check Static Settlement Criteria : The COG of footing

(w.r.t. COG of Pump)

======>

@ X = @ Y = ey =

ex = 0.88% dPump = 0.77 m

Where :

dMotor =

0.05 0.77 0.29%

m m

1.03

m

dPump = Distance from COG Ftg to COG Pump in Y - Direction dMotor = Distance from COG Ftg to COG Motor in Y - Direction

>> The C.G. of Machine Assembly and Foundation is 5% of Ftg dimension in X & Y Direction. Foundation is for static differential settlement criteria !

less than OK

(E) Check Static Soil Bearing : Wt of Pump Assembly = Wt of Fdn. = Total =

39.0 239.6 278.7

50% Net allowable soil bearing = Gross soil bearing, P/A = Net soil bearing, P/A - g*(soil depth) = 3.0

KN KN KN 2

25.0 KN/m

2 44.7 KN/m 2 18.7 KN/m

25.0

KN/m2

OK !

DYNAMIC ANALYSIS (A) Mass moment of Inertia For Rocking

Notes:

Iy : w.r.t. bottom of ftg Iyo : w.r.t. COG of Pump sssembly and conc ftg

1. Axis of rotation is @ base of ftg parallel to the shaft. 2. a = Width of conc block (m); b = Height of conc block (m)

ITEM

Pump Motor Base Plate Foundation Summation =

(1) W/(KN) 13.4 11.6 14.0

239.6 278.7

(2) a

(3) b

(4) X-Xo

(5) Z-Zo

0.00 0.00 0.00 1.60

0.00 0.00 0.00 1.60

-0.04

-1.34

-0.04

-1.34

-0.04

-0.62

0.01

0.18

Iyo = (6) + (7) = Iy = Iyo + m H2 = Mass moment of Inertia ratio = Iyo/Iy =

(6) W{(X-Xo)2+(Z-Zo)2}/g 2444.5 2105.5 559.6 757.1 5866.6

(7) W(a2+b2)/(12g) 0.0 0.0 0.0 10421.6 10421.6

16288 kgm2 43342 kgm2 0.376

This Calculation represents the work of DeltaAfrik performed to recognized engineering principles and practices appropriate for the terms of reference provided by DeltaAfrik contractual Customer. This Calculation is confidential and prepared solely for the use of the Customer. The contents of this Calculation may not be disclosed to or relied upon by any party other than the Customer, and neither DeltaAfrik , its subconsultants nor their respective employees assume any liability for any reason, including, but not limited to, negligence, to any other party for any information or representation herein..

Corporate Base

Calculation Sheet Customer Project Title Calculation Title Elec File Location

CHEVRON NIG. LTD ESCRAVOS PRODUCED WATER DISPOSAL PROJECT Pipeline (600 HP) Pumps Calculation Note

Proj No Calc No Phase/CTR

10104 2 4

\\vboxsrv\conversion_tmp\scratch_1\[165735015.xls.ms_office.xls]Calculation Cover Sheet

Project File Location Rev Date By D01

11-Oct-10

Checked

Rev

Date

By

Checked

Rev

Page Date

G. Mahadeo

E01

08-Nov-10

F. Adeshina

G. Mahadeo

H01

03-Dec-10

F. Adeshina

6 By

of

14 Checked

I.Oguntuase

G. Mahadeo

(B) Mass moment of Inertia For Torsion Iq : w.r.t. vertical axis thru COG of the sssembly Notes: 1. Axis of rotation is vertical through the COG of the assembly 2. a = Width of concrete block (m) ; c = Length of concrete block (m) ITEM

Pump Motor Base Plate Foundation Summation =

(1) W/(KN)

(2) a/m

13.4 11.6 14.0 239.6 278.7

Iq = (6) + (7) =

(3) c/m

0.00 0.00 0.00 1.60

38242

(4) X-Xo

0.00 0.00 0.00 3.90

-0.04

-0.78

-0.04

1.02

-0.04

-0.01

0.01

-0.01

(6) m{(X-Xo)2+(Y-Yo)2}/g 827 1240 3 2 2072

(7) m(a2+c2)/(12g) 0 0 0 36170 36170

kgm2

(C) Vertical Excitation (1) Equivalent radius (ro)

ro = (c3*a3/p) 0.5 =

(2) Mass (m)

m = W/g = Bz = (1-n)W/(4gro3) =

(3) Mass ratio (Bz) (4) Damping Ratio (Dz)

Dz = Dg + Di =

Dg = 0.425*az/(Bz) 0.5 = effective h = h' = az = Damping ratio embedment factor = [1 + 1.9(1-n)h'/ro]/nz0.5 = nz = Embedment coeff. of spring constant = 1 + 0.6(1-n)h'/ro = Where

bz =

(5) Spring Coefficient (bz) (6) Equivalent Spring Constant (k z)

kz = G*bz*nz(c3*a3)0.5/(1-n) =

(7) Natural Frequency (fnz)

fnz = 60(kz/m) 0.5/ 2p =

(8) Resonance Frequency (f mr)

fmr = fnz/(1-2Dz2) 0.5 =

(9) Frequency Ratio (R)

RPump = foperating/fmr RMotor = foperating/fmr

(r)

(5) Y-Yo

rPump = foperating/fnz rMotor = foperating/fnz

1.41 m 28406 kg 0.75 0.92 Di =

0.87

0.05

1.30 m 1.78 1.33 2.13 4.73E+08

N/m

1232

rpm

Resonance not possible = N/A = N/A

Resonance not possible Resonance not possible

=1.45 =1.45

(D) Horizontal Excitation : (1) Equivalent radius (ro) (2) Mass (m) (3) Mass ratio (Bx)

ro = (c3*a3/p)0.5 =

1.41 ft

m = W/g =

28406

Bx = (7 - 8n)W/{32(1 - n)gro3} =

(4) Damping Ratio (Dx) Where

kg

0.99

0.87 Dx = Dg + Di = Dg = 0.288*ax /(Bx)0.5= 0.82

Di = 0.05

This Calculation represents the work of DeltaAfrik performed to recognized engineering principles and practices appropriate for the terms of reference provided by DeltaAfrik contractual Customer. This Calculation is confidential and prepared solely for the use of the Customer. The contents of this Calculation may not be disclosed to or relied upon by any party other than the Customer, and neither DeltaAfrik , its subconsultants nor their respective employees assume any liability for any reason, including, but not limited to, negligence, to any other party for any information or representation herein..

Corporate Base

Calculation Sheet Customer Project Title Calculation Title Elec File Location

CHEVRON NIG. LTD ESCRAVOS PRODUCED WATER DISPOSAL PROJECT Pipeline (600 HP) Pumps Calculation Note

Proj No Calc No Phase/CTR

10104 2 4

\\vboxsrv\conversion_tmp\scratch_1\[165735015.xls.ms_office.xls]Calculation Cover Sheet

Project File Location Rev Date By D01

11-Oct-10

F. Adeshina

Checked

Rev

Date

By

Checked

Rev

Page Date

G. Mahadeo

E01

08-Nov-10

F. Adeshina

G. Mahadeo

H01

03-Dec-10

7 By

of

14 Checked

I.Oguntuase

G. Mahadeo

effective h = h' = 1.30 ax = Damping ratio embedment factor = [1 + 1.9(2-n)h'/ro]/nx 0.5 =2.83 nx = Embedment coeff. of spring constant = 1 + 0.55(2-n)h'/ro =1.81 bx =

(5) Spring Coefficient (bx)

1.01

(6) Equivalent Spring Constant (k x) kx = 2(1 + n)G*bx*nx(c3*a3)0.5 = (7) Natural Frequency (fnx)

fnx = 60(kx/m) 0.5/ 2p =

(8) Resonance Frequency(f mr)

fmr = fnx/(1-2Dx2) 0.5 =

(9) Frequency Ratio (R)

RPump = foperating/fmr = RMotor = foperating/fmr =

5.12E+08 1282

N/m

rpm

Resonance not notpossible possible

N/A N/A

Resonance not possible Resonance not possible

(E) Rocking Oscillation : (1) Equivalent Radius (ro)

ro = (c3*a33/(3p)) 0.25 =

(2) Mass Mom of Inertia (Iy)

Iy = By = 3(1-n)(Iy)g/{8gro5} =

(3) Mass ratio (By) (4) Damping Ratio (Dy)

1.14 m 2 43342 kgm

2.47

Dy = Dg + Di =

0.1

Where Dy = 0.15*ay/{(1+ny*By)(ny*By)0.5} = effective h = h' = ay = Damping ratio embedment factor

0.05

= {1+ 0.7(1 - n)(h'/ro) + 0.6(2 - n)(h'/ro)3}/ny 0.5 = ny = Inertia ratio correction factor (or g) =

1.91

(5) Spring Coefficient (by) (6) Equiv Spring Constant (k ys)

by = kys = G*by*c3*a32*ny/(1-n) =

Di = 0.05

1.30 m

1.13

(Adjusted for By)

0.431 6.58E+08

Nm/rad

ny = Embedment coefficient of spring constant =

1 + 1.2(1 - n)(h'/ro) + 0.2(2 - n)(h'/ro)3 =

(7) Natural Frequency (fn) (8) Resonance Frequency (f my) (9) Frequency Ratio (R)

fn = 60(kys/Iy)0.5/ (2*p) = fmy = fn/(1 - 2Dy2)0.5 = RPump = foperating/fmy = RMotor = foperating/fmy =

2.29

1177

rpm

1187 rpm

1.5 1.5

>1.2 OK ! >1.2 OK !

This Calculation represents the work of DeltaAfrik performed to recognized engineering principles and practices appropriate for the terms of reference provided by DeltaAfrik contractual Customer. This Calculation is confidential and prepared solely for the use of the Customer. The contents of this Calculation may not be disclosed to or relied upon by any party other than the Customer, and neither DeltaAfrik , its subconsultants nor their respective employees assume any liability for any reason, including, but not limited to, negligence, to any other party for any information or representation herein..

Corporate Base

Calculation Sheet Customer Project Title Calculation Title Elec File Location

CHEVRON NIG. LTD ESCRAVOS PRODUCED WATER DISPOSAL PROJECT Pipeline (600 HP) Pumps Calculation Note

Proj No Calc No Phase/CTR

10104 2 4

\\vboxsrv\conversion_tmp\scratch_1\[165735015.xls.ms_office.xls]Calculation Cover Sheet

Project File Location Rev Date By D01

11-Oct-10

F. Adeshina

Checked

Rev

Date

By

Checked

Rev

Page Date

G. Mahadeo

E01

08-Nov-10

F. Adeshina

G. Mahadeo

H01

03-Dec-10

8 By

of

14 Checked

I.Oguntuase

G. Mahadeo

(F) Combined Rocking & Sliding (Coupling): Ref. : "Foundations for Machines: Analysis and Design" By: Shamsher Prakash & Vijay K. Puri (1) Natural Frequency of Sliding

wx =

134.2

rad/s

(2) Natural Frequency of Rocking

wy =

123.2

rad/s

(3) Coupled Frequencies

w1 = w2 =

281.3

rad/s =

(4) Frequency Ratio (R)

95.9 rad/s =

2687 916

rpm rpm

RPump = foperating/w1 = RMotor = foperating/w1 =

0.66 0.66

1.2 OK !

(G) Torsional Oscillation : (1) Equivalent Radius (ro)

ro = (c3*a3(c32 + a32)/(6p) 0.25 =

(2) Mass Moment of Inertia (Iq)

Iq = Bq = Iq*g/{g*(ro)5} =

(3) Mass ratio (Bq)

where g =

(4) Damping Ratio (Dq)

(5) Geometry Factor

Dq = Dg + Di = Where Dg = 0.5/(1+2Bq) =

1.56 m 2 38242 kgm

2.05 9,81 m/s2

0.15 0.10

Di = 0.05

N/A

(6) Equivalent Spring Constant (k q) kq = 16G(ro)3/3 =

8.06E+08 Nm/rad

(7) Natural Frequency (fn)

fn = 60(kq/Iq)0.5/(2p) =

(8) Resonance Frequency (f mq)

fmq = fn/(1-2Dq2) 0.5 =

1418

(9) Frequency Ratio (R)

RPump = foperating/fmq = RMotor = foperating/fmq =

1.26 >1.2 OK !

rPump = foperating/fn = rMotor = foperating/fn =

1.28 1.28

4.0

1386

rpm

1.26 >1.2 OK !

REINFORCEMENT

Nominal reinforcement percentage =

0.13 %

Cross sectional area of foundation =

2 2.56 m

Total reinforcement area = Number of Y12 required =

2 3328 mm

29.5

Provide Y12@150

This Calculation represents the work of DeltaAfrik performed to recognized engineering principles and practices appropriate for the terms of reference provided by DeltaAfrik contractual Customer. This Calculation is confidential and prepared solely for the use of the Customer. The contents of this Calculation may not be disclosed to or relied upon by any party other than the Customer, and neither DeltaAfrik , its subconsultants nor their respective employees assume any liability for any reason, including, but not limited to, negligence, to any other party for any information or representation herein..

Corporate Base

Calculation Sheet Customer Project Title Calculation Title Elec File Location

CHEVRON NIG. LTD ESCRAVOS PRODUCED WATER DISPOSAL PROJECT Pipeline (600 HP) Pumps Calculation Note

11-Oct-10

10104 2 4

\\vboxsrv\conversion_tmp\scratch_1\[165735015.xls.ms_office.xls]Calculation Cover Sheet

Project File Location Rev Date By D01

Proj No Calc No Phase/CTR

F. Adeshina

Checked

Rev

Date

By

Checked

Rev

Page Date

9 By

G. Mahadeo

E01

08-Nov-10

F. Adeshina

G. Mahadeo

H01

03-Dec-10

I.Oguntuase

of

14 Checked G. Mahadeo

Appendix A PUMP PERFORMANCE DATA SHEET

This Calculation represents the work of DeltaAfrik performed to recognized engineering principles and practices appropriate for the terms of reference provided by DeltaAfrik contractual Customer. This Calculation is confidential and prepared solely for the use of the Customer. The contents of this Calculation may not be disclosed to or relied upon by any party other than the Customer, and neither DeltaAfrik , its subconsultants nor their respective employees assume any liability for any reason, including, but not limited to, negligence, to any other party for any information or representation herein..

002-000-PDF-566 (015311) EPF-0027 Rev 7 (1-Mar-10)

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