Pipeline System: Mechanical Design & Specification (PASTI JALAN)

Pipeline System: Mechanical Design & Specification

Santika Hotel, Balikpapan, East Kalimantan | May 23rd- 26th 2011|IDR 7.000.000 / participant

 

1. Objectives

After completion of training, participants will be able to:

• Having knowledge more expanded in Piping and Pipeline


• Understanding parametes which determining of design


• Be able to do material selection


• Understanding the fabrication ways of components and testing


• Be able to handle critical problems related to piping and pipeline

 

2. Course Outline

1. Piping Design

• Design Concept of Pipeline based on ASME B31.1 and ASME B31.3


• Line Pipe Material Selection


• Piping Fabricationa and Inspection


• Mechanics of Fluids / Hydraulics Calculation and Piping Diameter Selection


• Internal Pressure, Stress Analysis and Piping Thickness Determination


• Plastic Deformation Analysis


• Thermal Expansion Analysis


• Vibration and Fatigue Analysis of the Piping


• Piping Isometric, PFD and P&ID Basic Concept

2. Piping Components

• Valves Criteria and Sizing Selections


• Flanges and Elbow


• Connector, Supports and Other Junctions


• Piping Insulator and Coating Selection


• Metering and Instrumentation System

 

Course Method

Presentation, Discussion, Simulation, Case Study, and Evaluation.

 

Who Should Attend

• Piping and Pipeline Engineers


• Operation Engineers


• Maintenance Engineers


• Production Engineers


• Technical Supports Engineers


• Technical Staffs


• Everyone who want to know and have interest in piping system

 

Instructor

Ir. Subarmono MT, PE ( Expert in Mechanical Material )

 

Duration: 4 days training

 

Time:

May 23rd- 26th 2011

 

Venue:

Santika Hotel, Balikpapan, East Kalimantan

 

Course fee:

• IDR 7.000.000 / participant (non residential)


• Special rate: IDR 6.500.000/ participant (non residential) for min. 3 participants from same company.

 

PIPING AND PIPELINE: DESIGN, INSTALLATION, OPERATION, MAINTENANCE AND INTEGRATED MANAGEMENT

PIPING AND PIPELINE: DESIGN, INSTALLATION, OPERATION, MAINTENANCE AND INTEGRATED MANAGEMENT

Bandung | November 8 - 11,  2011 | IDR 8.750.000,-/ Person

This special practical approach course is designed to provide a comprehensive understanding of appliedpiping and pipeline technology: design aspects of piping & pipeline system, selection of materials andtypes of pipes, flanges, valves and fittings, handling of those materials, welding & installation techniques andprocedures, and the operation, inspection and maintenance of oil & gas piping and pipeline systems.

WHAT PARTICIPANT WILL GET:

After completion of this special course participant will:

• Better understand the description, classification, requirement and specification of pipes, flanges, valvesand fittings used for oil and gas transportation operation


• Improve ability on design, installation and maintenance


• Interpret and evaluate pipeline operation performance data


• Identify and solve problems in oil and gas transportation pipeline

WHO SHOULD ATTEND?

Technical and non-technical personnel of Oil and Gas Company who involves in or concern with design,selection, handling, installation, operation and maintenance of up-stream and down-stream oil and gaspipelines and/or industrial piping and those who responsible in stability of oil and gas or industrial fluidtransportation through pipeline system.

COURSE OUTLINE:

In this specially designed practical course participants will learn from and discuss with professional instructor the following subjects:

1. Oil & Gas Flow Stream Characteristics, Equipment and Facilities

• Hydrocarbon Properties and Oil & Gas Fluid Flow Characteristics


• Multi-phase Flow Gathering Lines, Manifolds and Accessory Equipment


• Oil & Gas Separation Stations and Facilities


• Water Treating and Disposal Equipment, Transportation Lines & Facilities


• Gas Treating and Processing Equipment, Transmission Lines & Facilities

2. Piping & Pipeline Materials, Standards and Codes

• Steel Materials for Piping & Pipeline


• Metallic Materials for Valves, Flanges and Fittings


• Piping Manufacturing Methods and Variation ofProducts


• Oil & Gas Pipeline Related Standards and Codes


• API 5L Line Pipe Specifications

3. Pipeline Operation Principles

• Piping & Pipeline Layout, Topography and Configuration


• Principles of Fluid Flow and Practical Flow Equation


• Multi-phase and Single-phase Oil & Gas Transportation/Transmission Practice


• Pump Operation in Oil and Water Pipeline system


• Compressor Operation in Gas Pipeline system

4. ANSI B.31 Series Standards and Requirements

• Preliminary Selection of Economic Diameter for Minimum Investment


• Stress Formula for Wall Thickness and Design Pressure Computation


• Pipeline Economics Computation Methods


• Oil or Water Transportation Pipeline Design Concept


• Gas Transmission Pipeline Design Concept

5. Pipeline Construction and Installation

• Choice of Design Procedure


• Stress Computation Methods in Design and Construction


• Pipeline Concrete Coating Parameters


• Hydrostatic Testing Requirements


• Construction/Installation Material Requirements

6. Pipeline Maintenance and Pigging Operation

• Potential Operating Problems and Maintenance of Pipeline Systems


• Inspection Techniques for Potential Failures and Wall Thickness & MAWP Reduction


• Pipeline Cleaning and Pigging Operations


• Pipeline Internal Maintenance and Chemical Injection


• Pipeline External Maintenance and the Cathodic Protection

7. Access Fittings for Maintenance, Chemical Injection and Monitoring

• Access Fitting Specifications, Configurations and Materials


• Chemical Injection, Fluid Sampling and Monitoring Equipment & Facilities


• Chemical Inhibitor, Scale Inhibitor and Biocide Materials


• On-line Corrosion and Scale Monitoring Techniques


• NACE Standards and Computation Methods for Pipeline Monitoring

Course Leader:

Hilman Ahmad

This specially designed course will be conducted by Hilman Ahmad & Associates, an Independent Consultant in industrial oil and gas, member of the Society of Indonesian Petroleum Engineers, who manage the Professional Industrial Oil & Gas Education Center, and has been practicing production operation & safety and corrosion control engineering in Indonesia for more than twenty-five years. He post-graduated from Tokyo Institute of Technology (sponsored by UNESCO) in 1977. He joined in-field-practice program at Nippon Kokan Steel Company & Research Center Kawasaki, Japan for production facility design & construction and corrosion prevention & control in 1983, and collaborated with Cormon Industrial Research Center Brighton UK for on-line corrosion monitoring development in 2000. He has been delivering training course in production operation, maintenance & safety and corrosion control for personnel from Oil & Gas Company and Petrochemical Industry since 1979.

General Information

Certificate of Appreciation

All attendees will receive a certificate of appreciation attesting to their participant in the training. This certificate will be providing in exchange for a completed training questionnaire.

Documentation

• Quality training material kits will be on registration, additional papers, & handouts assignment by Our Partner.


• Note-taking by participants is encourage. However, to ensure free and open discussions, no formal records will be kept.

Dress Code

Casual clothing is recommended. The training atmosphere is informal.

Facilities

• Quality training material (hardcopy and softcopy)


• Quality training kits included calculator, T-shirt or jacket, cap, ect.


• Interactive presentation with discussion


• Convenient training facilities with five star quality


• Lunch per day


• Morning and afternoon coffee / tea breaks for along the training


• Certificate of Completion


• Local drop and pick up for arrival and departure between airport to hotel.


• Half day city tour at the end of training session following by dinner with entertainment  (optional)


• Exclusive flash disk.

 

Tuition Fee & Registration  Deadline

• IDR 8.750.000,-/ Person


• Registration deadline a weeks before training held.

Minimum Participant

This training will be conducted if we receive registration letter from 3 (three) participants (Minimum)

Date:

February 8 - 11,  2011

Venue :

Bandung

Price:

• IDR 8.750.000,-


• discount 10 % if register three or more persons  from one company

INTERNAL AND EXTERNAL CORROSION CONTROL AND MONITORING FOR PIPELINE AND SURFACE FACILITY (Pasti Jalan)

INTERNAL AND EXTERNAL CORROSION CONTROL AND MONITORING FOR PIPELINE AND SURFACE FACILITY

Hotel Golden Flower Bandung | 1 – 4 November 2010 | Rp 7.950.000/participant

 

DESCRIPTION :

This course focuses on corrosion – from either internal or external source – and its potential problem, and the protection methods to stop or control them. Review on corrosion and technique by which it can be identified, monitored and controlled will be given in detail. Active participation is encouraged through case studies and examples especially on the use of painting and coatings, transformer-rectifier of impressed current, magnesium, zinc and alum sacrificial anodes for external protection, and the injection of corrosion inhibitors and biocides for internal corrosion control.

PRE-REQUISITE :

NONE. No previous training in corrosion control is required. However, to gain the most from this course, a basic understanding of physics, chemistry and basic unit operations will be helpful.

TRAINING MATERIAL OUTLINE :

1. Review of oil & gas surface production facility and operations.


2. Review of metallic materials used in surface production facility and pipelines and the corrosion problem usually happen.


3. Case studies and examples of oil & gas material failure caused by corrosion from internal and external source.


4. Uniform, galvanic and localized corrosion failures.


5. Internal corrosion of pipeline, vessel and processing equipment caused by sour component, H2S, CO2, organic acid, brine, and the SRB (sulfate reducing bacteria).


6. External corrosion of underground, underwater and under-seawater pipeline and structure caused by impurities in soil and water environment.


7. External corrosion of topside structure caused by marine atmosphere.


8. Basic electrochemistry of corrosion process, Ohm’s law and the corrosion rate.


9. Corrosion control and prevention with painting & coatings and the cathodic protection.


10. Measurement of corrosion potential and corrosion current.


11. Protection with sacrificial anode and impressed current.


12. Understanding NACE Standard RP-01-69 to stop external corrosion attack.


13. Requirement, design and criteria of cathodic protection.


14. Sacrificial anode specification, installation and construction.


15. Testing, monitoring, and inspection of cathodic protection.


16. Inspection and maintenance of transformer-rectifier and sacrificial anode.


17. Field test, measurement techniques and instrument.


18. Data recording and evaluation of cathodic protection system.


19. Case studies of corrosion control and prevention with cathodic protection.


20. Internal corrosion problem in the pipeline and surface facility.


21. Oil/gas/water fluid properties and the corrosion tendency.


22. Deterioration by H2S, CO2, and acidic corrosive components.


23. Pipeline leakage and rupture by microbial induced corrosion.


24. Corrosion caused by SRB and the pitting mechanism.


25. Corrosion caused by oxygen penetration.


26. Examples and case studies of equipment corrosion damage and pipeline leakage.


27. Understanding NACE Standard RP-0775 for internal corrosion control and monitoring.


28. Practical internal corrosion monitoring methods.


29. Access fittings, corrosion coupon and corrosion probes.


30. Practical internal corrosion control and prevention methods.


31. Internal corrosion control with inhibitors and the selection of suitable corrosion inhibiting chemicals.


32. Dosage and injection methods of corrosion inhibitors.


33. SRB control with biocides and the selection of suitable and low risk biocide formula.


34. Dosage and injection methods of biocides.


35. Oxygen control by de-aeration and chemical injection, and the selection of suitable oxygen scavenger chemicals.


36. Dosage and injection methods of oxygen scavenger.


37. Safety in the use of chemicals for internal corrosion prevention.


38. Review of gas dehydration process and operations.


39. Internal corrosion problem in glycol contactor (dehydration) unit.


40. Method and materials use to control the corrosiveness of rich glycol solution.


41. Review of amine sweetening process and operations.


42. Internal corrosion problem in amine sweetening unit.


43. Method and materials use to control the corrosiveness of rich amine solution.


44. Examples and case studies of internal corrosion control

 

THIS TRAINING IS DESIGNED FOR :

• Anyone who needs to recognize corrosion and understand its devastating potential, especially as it relates to his or her area of responsibility, in oil and gas surface production facility and pipelines.


• Anyone involved in combating and controlling corrosion from internal and external source.


• Technicians and field operators and engineers of any discipline.


• Onshore / offshore facility and pipeline cathodic protection inspectors.


• Onshore / offshore structure painting and coating applicators and inspectors.


• Amine sweetening, glycol dehydration and gas processing plant operators.


• Beginners who interested in.

TRAINING METHOD :

The training will be delivered in the form of classroom exposition, case studies and open discussion.

INSTRUCTOR :

Dr. Hilman Ahmad and Team
Hilman Ahmad, PhD., an Independent Consultant in industrial oil and gas, member of the Society of Indonesian Petroleum Engineers, who manage the Industrial Oil & Gas Education Center for Professionals and has been practicing production operation & safety and corrosion control engineering in Indonesia for more than twenty-five years. He post-graduated from Tokyo Institute of technology (sponsored by UNESCO) in 1977. He joined in-field-practice program at Nippon Kokan Steel Company & Research Center Kawasaki, Japan for production facility design & construction and corrosion prevention & control in 1983, and collaborated with Cormon Industrial Research Center Brighton UK for on-line corrosion monitoring development in 2000.He has been delivering consultative course in production operation, maintenance & safety and corrosion control for personnel from Oil & Gas Company and Petrochemical Industry since 1979.

 

VENUE :

Hotel Golden Flower Bandung

TRAINING DURATION :

4 days

TRAINING TIME :

1 – 4 November 2010

INVESTATION PRICE/PERSON : exclude tax

• Rp 7.950.000/participant (full fare)  or


• Rp 7.750.000/participant (early bird, payment before  25 October 2010) or


• Rp 7.500.000/participant (for 3 participants or more from the same company)

FACILITIES FOR PARTICIPANTS:

1. Training Module


2. Training CD contains training material


3. Certificate


4. Stationeries: NoteBook and Ballpoint


5. Jacket or waistcoat or T-Shirt


6. Bag or backpackers


7. Training Photo


8. Training room with full AC facilities and multimedia


9. Once lunch and twice coffeebreak every day of training


10. Qualified and experienced instructor


11. Transportation for participants from hotel of participants to/from hotel of training (if minimal number of participants from one company is 4 persons)

 

Pipeline Systems - Design, Construction, Maintenance and Asset Management (PASTI JALAN)

Pipeline Systems - Design, Construction, Maintenance and Asset Management

Grand Seriti Hotel, Bandung | 17 - 21 Mei 2010 | Rp. 8.250.000,-

 

INTRODUCTION

Within industry, piping is a system of pipes used to convey fluids (liquids and gases) from one location to another. The engineering discipline of piping design studies the efficient transport of fluid.

Industrial process piping (and accompanying in-line components) can be manufactured from wood, glass, steel, aluminum, plastic, copper, and concrete. The in-line components, known as fittings, valves, and other devices, typically sense and control the pressure, flow rate and temperature of the transmitted fluid, and usually are included in the field of piping design. Piping systems are documented in Piping and Instrumentation Diagrams (PID). If necessary, pipes can be cleaned by the tube cleaning process.

Plumbing is a piping system that most people are familiar with, as it constitutes the form of fluid transportation that is used to provide potable water and fuels to their homes and business. Plumbing pipes also remove waste in the form of sewage, and allow venting of sewage gases to the atmosphere. Fire sprinkler systems also use piping, and may transport potable or nonpotable water, or other fire-suppression fluids.

Piping also has many other industrial applications, which are crucial for moving raw and semi-processed fluids for refining into more useful products. Some of the more exotic materials of construction are titanium, chrome-moly and various other steel alloys.

CONTENTS

Introduction

• Purpose .


• Applicability


• References


• Distribution


• Scope


• Metrics


• Brand Names


• Accompanying Guidance


• Specification


• Manual Organization

Design Strategy

• Design Analyses


• Specifications


• Drawings


• Basis of Design


• Loading Conditions


• Piping Layout

General Piping Design

• Materials of Construction


• Design Pressure


• Sizing


• Stress Analysis


• Flange, Gaskets and Bolting


• Materials


• Pipe Identification


• Piping Supports


• Testing and Flushing

Metallic Piping Systems

• General


• Corrosion


• Design Pressure


• Piping Supports for Metallic


• Piping Systems


• Joining


• Thermal Expansion


• Ductile Iron


• Carbon Steel


• Nickel and Nickel Alloys


• Aluminum


• Copper

Plastic Piping Systems

• General


• Polyvinyl Chloride (PVC)


• Polytetrafluoroethylene (PTFE)


• Acrylonitrile-Butadiene-Styrene


• ABS


• Chlorinated Polyvinyl Chloride


• CPVC


• Polyethylene (PE)


• Polypropylene (PP)


• Polyvinylidene Fluoride (PVDF)

Rubber and Elastomer Piping Systems

• General


• Design Factors


• Sizing


• Piping Support and Burial


• Fluoroelastomer


• Isobutylene Isoprene


• Acrylonitrile Butadiene


• Polychloroprene


• Natural Rubber

Thermoset Piping Systems

• General


• Reinforced Epoxies


• Reinforced Polyesters


• Reinforced Vinyl Esters


• Reinforced Furans

Double Containment Piping Systems

• General


• Piping System Sizing


• Double Containment Piping


• System Testing


• Leak Detection Systems

Lined Piping Systems

• General


• Plastic Lined Piping Systems


• Other Lined Piping Systems

Valves

• General


• Valve Types


• Valve Sizing and Selection


• Valve Schedule

Ancillary Equipment

• Flexible Couplings


• Air and Vacuum Relief


• Drains


• Sample Ports


• Pressure Relief Devices


• Backflow Prevention


• Static Mixers


• Expansion Joints


• Piping Insulation


• Heat Tracing


• Corrosion Protection


• Cathodic Protection


• Isolation Joints


• Protective Coatings

Corrosion Protection

• Corrosion Protection


• Cathodic Protection


• Isolation Joints


• Protective Coatings

LEARNING OUTCOMES / OBJECTIVES

At the end of the program, participants will be able to:

• Develop a working knowledge of piping systems ;


• Differentiate between the different classes of piping;


• Understand better the design, construction, operations and maintenance requirements of piping systems;


• Implement strategies and methodologies to create an effective piping maintenance program;


• Enhance their knowledge and skills to identify and address piping operational problems at all levels;


• Implement mechanisms to measure piping performance at all levels;


• Analyse and understand the impact of piping knowledge on the maintenance strategy;


• Develop and implement an effective piping maintenance budget;


• Use life cycle costing techniques to deliver best practice piping maintenance;


• Implement maintenance plans that are cost effective and aligned to the organisation?s strategic goals;


• Improve performance by developing detailed specifications with service partners;


• Establish an effective maintenance team.

WHO SHOULD ATTEND

Facilities engineers, maintenance engineers, design engineers, production and manufacturing engineers, architects, property and asset managers, technicians and any one involved in piping systems and would like to widen their knowledge.

 

Instructor
Prof. DR. Ir. IGN. Wiratmaja Puja

Prof. DR. Ir. IGN. Wiratmaja Puja has 16 years continuous mechnanical engineering experience in failure and stress analysis, mining machinery and design as well as mechanical drawing and has been a consulting engineering expert in machinery and equipment maintenance for PT. Tambang Batubara Tanjung Enim, KONDUR Petroleum and PT. Kereta Api Indonesia. He also has served as an in-company training instructor for several major oil and gas companies such as PT. Badak LNG, PT. Freeport Indonesia, VICO and PT. Timah Tbk.

Mr. Wiratmaja has authored numerous publications and presentations related to mechanical engineering and mining machinery. He holds a M.Sc. and Ph.D. degree in Mechanical Engineering from the University of Kentucky, USA.

Schedule
17 - 21 Mei 2010
5 days

Venue
Grand Seriti Hotel, Bandung

Tuition Fee
Rp. 8.250.000,- per participant, excluding accommodation & tax.

Internal and External Corrosion Control and Monitoring for Pipeline and Surface Facility

Internal and External Corrosion Control and Monitoring for Pipeline and Surface Facility

Hard Rock Hotel, Bali | April 06-09, 2010 | US$ 990.00/person

 

 

This Course is designed for

• Anyone who needs to recognize corrosion and understand its devastating potential, especially as it relates to his or her area of responsibility, in oil and gas surface production facility and pipelines.


• Anyone involved in combating and controlling corrosion from internal and external source.


• Technicians and field operators and engineers of any discipline.


• Onshore / offshore facility and pipeline cathodic protection inspectors.


• Onshore / offshore structure painting and coating applicators and inspectors.


• Amine sweetening, glycol dehydration and gas processing plant operators.


• Beginners who interested in.

 

Pre-Requisite

NONE. No previous training in corrosion control is required. However, to gain the most from this course, a basic understanding of physics, chemistry and basic unit operations will be helpful.

 

Description

This course focuses on corrosion – from either internal or external source - and its potential problem, and the protection methods to stop or control them. Review on corrosion and technique by which it can be identified, monitored and controlled will be given in detail. Active participation is encouraged through case studies and examples especially on the use of painting and coatings, transformer-rectifier of impressed current, magnesium, zinc and alum sacrificial anodes for external protection, and the injection of corrosion inhibitors and biocides for internal corrosion control.

 

Course Content

• Review of oil & gas surface production facility and operations.


• Review of metallic materials used in surface production facility and pipelines and the corrosion problem usually happen.


• Case studies and examples of oil & gas material failure caused by corrosion from internal and external source.


• Uniform, galvanic and localized corrosion failures.


• Internal corrosion of pipeline, vessel and processing equipment caused by sour component, H2S, CO2, organic acid, brine, and the SRB (sulfate reducing bacteria).


• External corrosion of underground, underwater and under-seawater pipeline and structure caused by impurities in soil and water environment.


• External corrosion of topside structure caused by marine atmosphere.


• Basic electrochemistry of corrosion process, Ohm’s law and the corrosion rate.


• Corrosion control and prevention with painting & coatings and the cathodic protection.


• Measurement of corrosion potential and corrosion current.


• Protection with sacrificial anode and impressed current.


• Understanding NACE Standard RP-01-69 to stop external corrosion attack.


• Requirement, design and criteria of cathodic protection.


• Sacrificial anode specification, installation and construction.


• Testing, monitoring, and inspection of cathodic protection.


• Inspection and maintenance of transformer-rectifier and sacrificial anode.


• Field test, measurement techniques and instrument.


• Data recording and evaluation of cathodic protection system.


• Case studies of corrosion control and prevention with cathodic protection.


• Internal corrosion problem in the pipeline and surface facility.


• Oil/gas/water fluid properties and the corrosion tendency.


• Deterioration by H2S, CO2, and acidic corrosive components.


• Pipeline leakage and rupture by microbial induced corrosion.


• Corrosion caused by SRB and the pitting mechanism.


• Corrosion caused by oxygen penetration.


• Examples and case studies of equipment corrosion damage and pipeline leakage.


• Understanding NACE Standard RP-0775 for internal corrosion control and monitoring.


• Practical internal corrosion monitoring methods.


• Access fittings, corrosion coupon and corrosion probes.


• Practical internal corrosion control and prevention methods.


• Internal corrosion control with inhibitors and the selection of suitable corrosion inhibiting chemicals.


• Dosage and injection methods of corrosion inhibitors.


• SRB control with biocides and the selection of suitable and low risk biocide formula.


• Dosage and injection methods of biocides.


• Oxygen control by de-aeration and chemical injection, and the selection of suitable oxygen scavenger chemicals.


• Dosage and injection methods of oxygen scavenger.


• Safety in the use of chemicals for internal corrosion prevention.


• Review of gas dehydration process and operations.


• Internal corrosion problem in glycol contactor (dehydration) unit.


• Method and materials use to control the corrosiveness of rich glycol solution.


• Review of amine sweetening process and operations.


• Internal corrosion problem in amine sweetening unit.


• Method and materials use to control the corrosiveness of rich amine solution.


• Examples and case studies of internal corrosion control

 

Instructor

This specially designed course will be conducted by *Hilman Ahmad & Associates*, an Independent Consultant in industrial oil and gas, member of the Society of Indonesian Petroleum Engineers, who manage the Bandung Industrial Oil & Gas Education Center, and has been practicing production operation and corrosion control engineering in Indonesia for more than twenty-five years. He post-graduated from Tokyo Institute of Technology (sponsored by UNESCO) in 1977. He joined in-field-practice program at Nippon Kokan Steel Company & Research Center Kawasaki, Japan for production facility design & construction and corrosion prevention & control in 1983, and collaborated with Cormon Industrial Research Center Brighton UK for on-line corrosion monitoring development in 2000. He has been delivering training course in production operation and maintenance and corrosion control for personnel from Oil & Gas Company and Petrochemical Industry since 1979.

 

Duration

This course is designed for four days. It is possible to tailor for specific goal, upon request.

 

Training Method & Materials

The training will be delivered in the form of classroom exposition, case studies and open discussion. Course materials will be handed out by organizer.

 

Registration Fee:

• Registration Deadline: March 26, 2010


• US$ 990.00/person from 1 (one) Company


• US$ 880.00/person for more than 3 (three) Participants from 1 (one) Company

 

Fee includes the following:

• four-day registration fee for all Training sessions


• Lunch per day


• Daily coffee/tea breaks


• Integrated Quality Training Materials (SOFTCOPY AND HARDCOPY)


• Quality Training Kits


• Convenient Training Facilities


• Certificate of Completion

 

For additional course dates and locations, and registration please contact us via this form:

Pipeline Design Practice in Oil & Gas

Pipeline Design Practice in Oil & Gas

Novotel Hotel Bandung | April 12-16, 2010 | Rp. 8.250.000,-

OBJECTIVES

This course is designed to improve and provide a comprehensive understanding of piping & pipeline maintenance and technology. Pipeline technical calculation commonly practiced in oil & gas or industrial fluid production and transportation operation will also be discussed and learned. Therefore, after attending this 5-day course participants will have:

• Better understand and get improvement on the description, classification, requirement and specification of steel pipeline in oil and gas, petrochemical, etc.


• Improvement on ability to interpret and evaluate piping and pipeline performance data.


• Skill to identify and solve problems in oil and gas transportation system.


• Better knowledge of maintenance integrity properly in piping and pipeline

COURSE OUTLINE

Nature of Industrial Fluid, Oil and Gas Field Fluid

• Physical and thermodynamic properties of oil and gas-field fluid


• Pressure-volume-temperature relationship


• Energy balance of fluid flowing in the pipeline

Specification and Standard of Oil and Gas or Industrial Pipeline

• Technical requirements of steel materials for oil and gas pipeline


• Specification, standard and recommended practice


• Pressure rating of pipeline, valve and fittings

Fundamental Design of Piping

• Flow Rate Calculation


• Pressure Drop/Pressure Loss/Head Loss Calculation in Pipe and Joint


• Flow Rate and Pressure Drop Calculation on Branch Pipes (Hardy Cross)


• Forces Calculation on Piping , Pipe Strength, Allowable Stress, Design Factor


• Basic Analysis of Piping System Flexibility


• Piping and Pipeline Insulation and Corrosion Protection


• Problem and Calculation Exercise

Design of Pipeline Supports

• Standard Component Supports


• Pipe Support Service


• Pipe Support Classifications


• Structural Shapes and Pipe Support Group

Pipeline Operation and Basic Technical Calculation

• Formulas for fluid transportation operation


• How to calculate head loss and pressure drop


• Pump and compressor installation in the pipeline

Erosion and Corrosion Problems in the Pipeline

• Erosion and Corrosion in sour oil and gas production


• How to calculate the maximum allowable working pressure


• How to estimate the remaining service life of the pipeline

Pipeline Maintenance, Control and Monitoring

• Pigging and cleaning of the pipeline


• Criteria, standards and recommended practices for internal pipeline corrosion control


• Installation of access fitting and fluid sampling assembly

Introduction to Risk-Based Inspection concept

RECOMMENDED PARTICIPANTS

Technical Personnel of Oil and Gas or Industrial Company Who Involves in or Concern With Handling Operation and Maintenance of Up-Stream Oil and Gas or Industrial Pipeline and Those Who Responsible in Oil and Gas or Industrial Fluid Transportation through Pipeline System.

Instructor
Prof. DR. Ir. IGN. Wiratmaja Puja

Prof. DR. Ir. IGN. Wiratmaja Puja has 16 years continuous mechnanical engineering experience in failure and stress analysis, mining machinery and design as well as mechanical drawing and has been a consulting engineering expert in machinery and equipment maintenance for PT. Tambang Batubara Tanjung Enim, KONDUR Petroleum and PT. Kereta Api Indonesia. He also has served as an in-company training instructor for several major oil and gas companies such as PT. Badak LNG, PT. Freeport Indonesia, VICO and PT. Timah Tbk.

Mr. Wiratmaja has authored numerous publications and presentations related to mechanical engineering and mining machinery. He holds a M.Sc. and Ph.D. degree in Mechanical Engineering from the University of Kentucky, USA.

 

Schedule
April 12-16, 2010
5 days

Venue
Novotel Hotel Bandung

Tuition Fee
Rp. 8.250.000,- per participant, excluding accommodation & tax.