(ihs) Pel - Pl - Cal - 003 Pipeline Stability And Bouyancy Calculation Benoa - Pesanggaran (rev 0).docx

FRONT END ENGINEERING DESIGN (FEED) PIPELINE GAS DARI PELABUHAN BENOA KE PLTG PESANGGARAN - BALI

PIPELINE STABILITY AND BOUYANCY CALCULATION BENOA - PESANGGARAN Document No: PEL-PL-CAL-003

0

17 FEBRUARY 2015

ISSUED FOR BID

BM

MI

B

9 FEBRUARY 2015

ISSUED FOR REVIEW

BM

MI

A

2 FEBRUARY 2015

ISSUED FOR REVIEW

BM

MI

PREP’D

CHK’D/ APP’D

REV.

DATE

DESCRIPTION

APP’D

PT. LAPI ITB

PT. PEL

STATUS CODE: IFR = Issued for Review, IFI = Issued for Information, IFA = Issued for Approval, IFB = Issued for Bid Total or partial reproduction and/or utilization of this document are forbidden without prior written authorization of PT Pelindo Energi Logistik.

DOCUMENT NUMBER

REVISION

STATUS

PEL-PL-CAL-003

0

IFB

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TABLE CONTENT 1.

INTRODUCTION ..................................................................................................... 3

2.

OBJECTIVE ............................................................................................................. 3

3.

DEFINITIONS .......................................................................................................... 3

4.

CODES, STANDARD AND REFERENCES ............................................................. 3

5.

DESIGN ................................................................................................................... 4

6.

CALCULATION ........................................................................................................ 7

APPENDIX A .................................................................................................................... 9

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INTRODUCTION PT. Pelindo Energi Logistik (PEL) plans to build gas pipeline from Port Benoa to PLTG Pesanggaran Indonesia Power. Gas transported is coming from LNG regasification plant at Port Benoa and will be utilized to provide fuel gas for PLTG Pesanggaran, which is belong to PT Indonesia Power. This project will include construction of new pipeline from Port Benoa to PLTG Pesanggaran complete with metering station at PLTG Pesanggaran.

2.

OBJECTIVE This document presents pipe concrete coating thickness calculation for stabilize pipe with weight and buoyancy equation force based on code ASME B31.8 Gas Transportation and Distribution Piping System. In this calculation will be calculated concrete thickness for pipeline area from Benoa to Pesanggaran.

3.

DEFINITIONS The definitions contained in this document are as follows: a.

CLIENT, refers to PT Pelindo Energi Logistik (PEL) as the ultimate user and owner.

b.

CONSULTANT, refers to PT. LAPI ITB as the party providing the technical consultation services "Front End Engineering Design (FEED) Gas Pipeline from Port Benoa to PLTG Pesanggaran - Bali".

c.

CONTRACTOR, refers to company selected by COMPANY, which may provides services to perform part of the contract scope of work on behalf Client.

d.

VENDOR/MANUFACTURER, refers to the company selected by COMPANY or CONTRACTOR, which is responsible for the purchase agreement specification.

e.

MIGAS, is Indonesian Government body which is responsible for issuing licenses and permits oil and gas facilities.

4.

CODES, STANDARD AND REFERENCES The project specifications and the applicable codes and standards as follow:

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Code & Standard ASME B31.8

: Gas Transportation and Distribution Piping System

API 5L

: Specification of Line Pipe

PEL-PRO-GEN-001

: Process Design Basis

PEL-PL-CAL-001

: Pipeline Wall Thickness Benoa – Pesanggaran

PEL-PL-SPC-001

: Specification Pipeline

PEL-PL-SPC-002

: Specification External Coating

PEL-PL-SPC-007

: Specification for Concrete Coating

5.

DESIGN

5.1

Methodology of Buoyancy Calculation Analysis of buoyancy and hydro-dynamic stability needs to be done considering survey result due to proposed new pipeline against hydrodynamic force. Criteria required in the ASME B31.8 standard are total weight ratio of the pipe and its contents against the bouyancy force of fluid (mud) is transferred by a pipe buried at a minimum marsh is 1.1 (W / B = 1.1) to obtain the effect of negative buoyancy so that the pipe is stable in the marsh and not float when immersed.

Figure 1 Separated Free Body Diagram Pipe Due to Buoyancy Effect

Buoyancy analysis conducted to determine how much the minimum force necessary to counteract the effects of buoyancy. We calculate the buoyancy force generated by the mud,

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and calculating a weight force generated by the pipe and fluid. When the weight of the fluid produced by the pipe and its contents cannot resist buoyancy force, it is necessary to design concrete weight (ballast) to be installed on the pipe to resist buoyancy forces. The configuration of the coating is shown in Figure 2.

Figure 2 Concrete Weight Coating Configuration 5.2

Pipe Data

The design condition accordance to the document number PEL-PRO-GEN-001 shows at Table 1. Table 1 Design Data Data

Benoa - Pesanggaran

Design pressure (psig)

223

Design temperature (oF)

151

The selected wall thickness and other properties of pipeline accordance to the document number PEL-PL-CAL-001, PEL-PL-SPC-001 and API Spec. 5L shows at Table 2. Table 2 Pipe Properties Data Specification - Grade

Benoa - Pesanggaran API 5L – X42

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Data

Benoa - Pesanggaran

Nominal Pipe Size (NPS)

406.4 mm or 16 inch

Outside diameter

406.4 mm or 16 inch

Selected wall thickness

9.525 mm or 0.375 inch

Length per unit (L) Plain-end weight per unit length

5.3

12 m or 39.37 ft 93.72 kg/m or 62.64 lb/ft

Anti-Corrosion Pipe Coating

The first layer applied in pipeline concrete coating is used in order to protect pipe material from being corroded. According to document number PEL-PL-SPC-002, the anti-corrosion layer coating is 3-LPE. Table 3 show the 3-LPE coating data.

Table 3 LPE Coating Data Anti-Corrosion Coating Total coating thickness Coating density (common product data)

5.4

3 mm (0.93 – 0.96) gr/cm3

Concrete

Concrete or cement is required for the manufacture of concrete weight is must follow document number PEL-PL-SPC-007. The density stated in that document is 190 lb/ft3. The concrete must be reinforced with mesh.

5.5

Mud Data

Based on the Benoa - Pesanggaran route of proposed pipeline, pipeline will go across mud. CONSULTANT assume the average mud density. The value of average mud density is 1773 kg/m3.

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6.

CALCULATION

6.1

Bouyancy Force and Total Weight Formula

Weight of line pipe and it,s coating (W) must be higher than buoyancy forces (B). The ratio of weight against of buoyancy forces (W / B) should meet the minimum requirements of the W / B = 1.1. So that, the pipeline can not counteract the effects of buoyancy (Figure 3).

Figure 3 Buoyancy Uplift and Weight Force

𝑾 = 𝑾𝒑 + 𝑾𝒂 + 𝑾𝒄 With, Wp is bare pipe weight, Wa is Epoxy coating weight, and Wc is weight of concrete applied in line pipe. These weight can be calculated by following formulas. 𝑊𝑝 = (𝑃𝑙𝑎𝑖𝑛 − 𝑒𝑛𝑑 𝑤𝑒𝑖𝑔ℎ𝑡 𝑝𝑒𝑟 𝑢𝑛𝑖𝑡 𝑙𝑒𝑛𝑔𝑡ℎ)(𝑙𝑒𝑛𝑔𝑡ℎ)(𝑔) 𝜋 𝑊𝑎 = ( 𝜌𝑎 × 𝐿 × ((𝐷 + 2𝑡𝑎 )2 − 𝐷 2 )) 𝑔 4 𝜋 𝑊𝑐 = ( 𝜌𝑐 × (𝐿 − 2𝐶) × ((𝐷 + 2𝑡𝑎 + 2𝑡𝑐 )2 − (𝐷 + 2𝑡𝑎 )2 )) 𝑔 4 Where, 𝜌𝑎

: Anti-corrosion coating density, kg/m3

𝜌𝑐

: Concrete density, kg/m3

L

: Pipe length/joint, m

C

: Cut off length, m (Figure 4)

D

: Outside diameter, m

tp

: Pipe wall thickness, m

ta

: Anti-corrosion coating thickness, m

tc

: Concrete coating thickness, m

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The buoyancy force depends on density of the mud/liquid on outer of the line pipe and line volume includes the coating. Then, the buoyancy force will be calculated as formula below.

Figure 4 Cut off Schematics 𝜋 𝐵 = ( × 𝜌𝑚𝑢𝑑 × (2𝐶 × (𝐷 + 2𝑡𝑎 )2 + (𝐿 − 2𝐶) × (𝐷 + 2𝑡𝑎 + 2𝑡𝑐 )2 )) 𝑔 4 Since, 𝑊 𝐵

= 1.1

then 𝑊𝑝 + 𝑊𝑎 + 𝑊𝑐 = 1.1 𝐵 6.2

Calculation Result Based on bouyancy force and total weight calculation, CONSULTANT can extract formula for calculating concrete thickness. The output of calculation can be shown in Table 4 below. Table 4 Calculation Result No 1

Description Buoyancy force

2

Total weight

3 4 5 6a 6b

Results Symbol B

Value 178.55

Unit Kg/m

W

163.89

Kg/m

Bare pipe weight

Wp

93.23

Kg/m

Epoxy coating weight

Wc

3.70

Kg/m

Fluid Content

Wf

66.96

Kg/m

Concrete thickness

tc

48.724

mm

Concrete thickness

tc

2

inch

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APPENDIX A BOUYANCY CALCULATION CHECK

Pipa NPS 16 Inch; API 5L-X42 NO.

DESCRIPTION

Data - Pipeline 1 Nominal Pipe Size

SYMBOL

UNIT

CASE 1

CASE 2

CASE 3

NPS

inch

16

16

16

2

Pipe Outside Diameter

OD

inch

16

16

16

3

Wall thickness

t

inch

0.375

0.375

0.375

4

Coating Thickness

t coating

mm

3

3

3

5

Pipe Length per unit

Lp

m

12.00

12.00

12.00

6

Specified Minimum Yield Strength

SMYS

psi

42000

42000

42000

7

Modulus of Elasticity

E

3.00E+07

3.00E+07

3.00E+07

8

Pipe Density

ρ Steel

psi kg/m 3

7850

7850

7850

9

Coating Density

ρ coating

kg/m 3

960.00

960.00

960.00

ρ mud

kg/m 3

Data - Field 10 Mud Density

1337

1337

1337

11

Gas Density (Operation gas)

ρ gas

kg/m 3

9.10

9.10

9.10

12

Water Density (for Hydrotest)

ρ water

kg/m 3

1000

1000

1000

Weight in The Air 13 Bare Pipe Weight per meter

Wp

kg/m

93.23

93.23

93.23

14

Pipe Coating weight per meter

Wc

kg/m

3.70

3.70

3.70

15

Fluid Content per meter

Wf

kg/m

0.00

1.07

117.84

16

Total Weight (Wp+Wc+Wf)

W

kg/m

96.93

98.00

214.77

B

kg/m

178.55

178.55

178.55

W/B

kg/m

0.54

0.55

1.20

NOT OK!

NOT OK!

OK!

Buoyancy check --> Min W/B = 1.1 17 Buoyancy 18

Buoyancy Check Status

Noted 1) CASE 1 : Empty Condition 2) CASE 2 : Operation Condition (Pipe weight + gas content weight ) 3) CASE 3 : Hydrotest Condition (Pipe weight + Water content weight )

REMARK

Sch 40

Case 1 & 2 need concrete weight

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APPENDIX B CONCRETE COATING CALCULATION

INPUT DATA No

Description

Symbol

Value

Unit

1 Length

L

2 Gravitation

g

12.000 9.810

3 Epoxy coating density

ρa

930.000

m/s2 kg/m3

ta

0.003

meter

5 Outside diameter

O.D.

0.406

meter

6 Concrete density

ρc

3043.508

kg/m3

7 Mud density

ρmud

1337.000

kg/m3

8 phi

π

9 Pipe density

ρp

7850.000

kg/m3

tp C

0.010 0.3

m m

Total epoxy coating thickness

10 Selected wall thickness pipe 11 Cut off

meter

3.143

OUTPUT DATA No

Description

Symbol

Value

Unit

1 Buoyancy

B

3251.788

kg

2 1.1 Buoyancy

1.1 B

3576.967

kg

3 Bare pipe weight

Wp

1118.715

kg

4 Coating weight

Wc

2523.815

kg

5 Epoxy coating weight

Wa

44.44997

kg

6 Total weight

W

3686.98

kg

7a Concrete thickness

tc

0.050067

meter

7b Concrete thickness

tc

50.06658

mm

7c Concrete thickness

tc

1.971125

inch

7d Concrete thickness

tcselected

2

inch

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APPENDIX C CONCRETE WEIGHT CALCULATION

CONCRETE WEIGHT DESIGN

Pipa dalam kondisi kosong (case 1) dipilih sebagai acuan dalam merancang concrete weight No

Description

SYMBOL

UNIT

CASE 1

REMARKS

CAPTION

Data - Pipeline Nominal Pipe Size

NPS

Inch

Outside Diameter

OD

Inch

16 16

Wall thickness

t

Inch

0.375

Total Weight (Pipe + Fluid Content)

W

kg/m

96.93

Total Pipe Length at Swamp and Ricefield Area

Ltotal

m

1740

Buoyancy concrete weight

B

337.81

Concrete Density (ρcon)

ρcon

kg k g/m 3

3043

d = 0.2032 m

Clearence

CL

m

Length (Cross Section)

f A

m m2

e = 0.412 m

Area

0.0029972 0.81 0.31

A1

m2

0.50

f = 0.8128 m

A2

m2

0.04

A3

m2

0.07

A4

m2

0.09

3

0.25

a = 0.412 m Sch 40 b = 0.2032 m

Concrete Weight - Calculation

c = 0.412 m

Volume

V

m

Concrete Weight

ms

kg

Concrete Weight - Bouyancy

ms

kg

Minimum Less Weight per meter

kg/m

Minimum Less Weight per unit pipe

kg

Quantity of concrete weight per unit pipe Quantity of concrete weight per unit pipe selected Total quantity of concrete weight Length between concrete weight

m

g=2m h=4m

769.05 431.24 99.47 1193.64 2.77 3 402.00 4