Training Course Seminar Workshop Provider

COURSE TIMINGS

Registration and coffee will be at 7:30 on Day One.The course will commence at 8:00 and conclude at 16:00 followed by lunch. There will be two networking and refreshment breaks at appropriate intervals.

COURSE METHODOLOGY

The course will be interactive, and participants from various disciplines will be encouraged to participate openly to share views, ideas and experience in developing decision making. Case study methods will be included to stimulate discussions and illustrate concepts of the course.

COURSE PARTICIPANTS

Petroleum engineers, Facilities engineers, Project engineers

COURSE OUTLINE

Course Introduction

Introduction of participants, course outline, expectations

Petroleum Macro Economics

Supply and demand Energy economics Impact of economic growth on energy Affects of fiscal and monetary policy International and national impacts

Petroleum Micro Economics

Theory of the firm in the petroleum sector Revenue concepts - cash flow and revenue Cash flow versus profits Fixed costs versus variable costs Marginal costs How costs, revenues and profits vary with output

Project Economics

Revenues Capital and operating costs Taxes and royalties Depreciation Inflation

Capital Markets And Finance

Company financing Investment alternatives Cost of capital Market assessment of oil and gas stocks Times earnings

Capital Budgeting In The Petroleum Industry

Building blocks: reserves, resources and production forecasts Estimating project revenues over time Estimating costs and cash outlays over time Looking at net cash flows

External Factors Affecting Project Analysis

Economic growth of economies Oil prices Inflation rates Interest rates Interest rate yield curves Government takes

Decision Criteria And Cash Flow Analysis

Introduction to Net Present Value (NPV) Internal Rate of Return (IRR) Payback Profitability Discount rates Break-even analysis

Risk And Uncertainty In Decision Making

Identifying project risks in -Revenues-Production flows-Oil prices-Costs-Interest rates

Probability Concepts

Expected outcomes Probability curves Best and worst case scenarios Decision trees Psychology of decision making in uncertainty

Risk Management

Examining alternatives and their costs Abandonment Flexibility Hedging

Sensitivity Analysis

Identifying likely outcomes Weighted average cost of capital Examining rates of return under various scenarios

Corporate Analysis Of Risk And Return

Portfolio theory and diversification techniques Opportunity cost of capital Investment alternatives

Beyond The Numbers

Corporate views of risk Marketing, negotiations and concessions Presentation of project analysis results

Implementation in Indonesia

Laws and Contractual Aspects BPMIGAS and Government Institution POD and AFE Supply Chain and Local Content Instructor Ir. M. Tavip Sunandar, MM, PMP and team

Schedule April 19-21, 2009 3 days

Venue Ibis Slipi Hotel Jakarta

Tuition Fee Rp. 5.250.000,- per participant, excluding accommodation & tax.

Registration Send by email -or- fax to:

PT. FOCUS TRACO INDONESIA Wisma Pakuan, Jl. Pakuan 12 BOGOR - 16143

(0251) 2169150, 9399988 (0251) 7534984 training@focustraco.com

WHAT WILL YOU LEARN

To learn the piping Codes, Standard and Regulations To learn Technical Piping Documentation To learn piping design loads and be able to conduct stress analysis To understand the ANSI Piping Codes and ASME Codes To learn piping support analysis & design To utilize software Caesar II to conduct static and dynamic stress calculation, including expansion, bend, flange, and other equipment

WHO SHOULD ATTEND

Piping Engineers Piping Designer Mechanical Engineers Maintenance Engineers and supervisors Service Engineers and supervisors Work over engineers and supervisors Plant Engineers Petroleum Engineers

COURSE OUTLINE

Basic Theory

Basic Stress Theory Piping Systems: Codes, Standards and Regulations Piping Design Loads Pipe Stress Requirement ANSI Piping Codes and ASME Codes Pipe Support Systems

Using Caesar II

Main Menu Modeling Approach Static Analysis Dynamics Analysis Structural and Buried Pipeline Output Processing

Case Studies: Real problem

Instructor Dr. Ir. I Wayan Suweca Schedule March 8-12, 2010 5 days Venue Novotel Hotel Bandung Tuition Fee Rp. 8.250.000,- per participant, excluding accommodation & tax. Registration Send by email -or- fax to:

PT. FOCUS TRACO INDONESIA Wisma Pakuan, Jl. Pakuan 12 BOGOR - 16143

(0251) 2169150, 9399988 (0251) 7534984 training@focustraco.com

INTRODUCTION

Hydrocarbon systems found in petroleum reservoirs are known to display multi-phase behavior over wide ranges of pressure and temperatures. The most important phases that occur in petroleum reservoirs are: liquid phase (crude oil or condensates) and gas (natural gases). This course will explain the hydrocarbon phase behavior and practical application in reservoir and production engineering. Firstly it will review the principles of phase behavior and illustrate the use of phase diagram in describing the volumetric behavior of single-component, two-component, and multi-component system.

It will also present numerous mathematical and graphical correlations for estimating physical and critical properties of the undefined petroleum fraction, evaluation of properties of natural gases and introduces their application in Darcy's equation and material balance equation. A complete and cohesive independent unit on methods of determining the crude oil physical properties, presents the concept and application of vapor-liquid phase equilibrium, developments and advanced in the field of empirical cubic equation of state and application in petroleum engineering. Details scheme of splitting and lumping of petroleum-fraction.

Properly understanding the reservoir fluid properties is very significant and are very importance steps during the entire life of the oil and reservoir developments and operations. This five-day training will provide a comprehensive knowledge and understanding of reservoir fluid properties and application to reservoir and production engineering to keep excellent reservoir and production performance as long as possible.

OBJECTIVE

Refresh the knowledge of the participants on reservoir fluid properties. Understand the basic principles of hydrocarbon phase behavior and its application in petroleum engineering. Learn the numerous mathematical and graphical correlation for estimating physical and critical properties of the undefined petroleum fraction Enhance the knowledge on hydrocarbon phase behavior, reservoir fluid properties and application. Gain additional knowledge on recent technology in reservoir fluid properties calculation and correlation. Knowledge sharing among the participants and instructors

COURSE OUTLINE

1. Basic Phase Behavior

Single Component Systems Two Component Systems Multi Component Systems Classification of Reservoir and Reservoir Fluids

2. Pure Component Physical Properties and Characterizing Undefined Petroleum Fraction

General Correlation for Estimating Physical Properties of Hydrocarbon Fraction Critical Compressibility Factors Characterizing Hydrocarbon Heavy Fractions Determining of Physical Properties of Heavy Petroleum Fraction from Correlation

3. Properties of Natural Gases

Behavior of Ideal Gases Ideal Gas Mixtures Properties of Ideal Gas Mixtures Behavior of Real Gases Effect of Non Hydrocarbon Components on the Z-Factor Correction for Non Hydrocarbons Correction for High-Molecular-Weight Gases Direct Calculation of Compressibility Factors Compressibility of Natural Gases Gas Formation Volume Factor & Viscosity Engineering Application of natural gases PVT Properties

4. Phase Behavior of Crude Oils

Crude Oil Density and Specific Gravity Methods for Determining Density of Crude Oils as Unknown Composition Methods for Determining Density of Liquids as Unknown Composition Isothermal Compressibility Coefficient of Undersaturated Crude Oils Density of Undersaturated Crude Oils Gas Solubility Oil Formation Factor of Undersaturated Crude Oils Total Formation Volume Factor Total System Isothermal Compressibility Coefficient Crude Oil Viscosity Bubble Point and Surface Tension Application of the Crude Oil PVT P The Material Balance Equation for Oil Reservoirs

5. Vapor-Liquid Phase Equilibrium

Equilibrium Ratio & Flash Calculation Application of Equilibrium Ratio in Petroleum Engineering

6. Equation of State

The General Sized Form of Equation of State Application of Equation of State for Petroleum Engineering Three-Phase Equilibrium Calculation

7. Splitting Lumping Schemes of Petroleum Fraction

Splitting Schemes & Lumping Schemes Simulation of Laboratory PVT Data by Equation of State

WHO SHOULD ATTEND

The following selected participants should attend this course:

Field Young and Senior Operators. Fresh Petroleum, Reservoir, Production and Facility/Process Engineer Geoscientist Asset Management Team members and Business Development Manager Production staff , and Operation Personnel who is responsible for the Oil and Gas Reservoir development design and implementation Experienced professional who wants to refresh or broaden their understanding of Oil and Gas Properties in the purposes of fields development. Other professionals who want a better understanding of the subject Instructor Dr. Ir. Sudjati Rachmat, DEA Schedule March 8-11, 2010 4 days Venue Jayakarta Hotel Bandung Tuition Fee Rp. 7.250.000,- per participant, excluding accommodation & tax. Registration Send by email -or- fax to:

PT. FOCUS TRACO INDONESIA Wisma Pakuan, Jl. Pakuan 12 BOGOR - 16143

(0251) 2169150, 9399988 (0251) 7534984 training@focustraco.com

BACKGROUND

Merupakan salah satu masalah lubang sumur di operasi pemboran Menyebabkan timbulnya biaya ekstra yang cukup besar Berpotensi menyebabkan hilangnya sebagian atau semua fasilitas pemboran di lapangan karena kick dan blow out yang tidak terkontrol Menunda waktu produksi sumur (POP)

OBJECTIVES

Mengetahui gejala kejadian kick dan blow out. Mengetahui kerugian akibat kick yang tidak terkontrol atau blow out. Mengetahui usaha pencegahan terjadinya blow out. Mengetahui cara mengidentifikasi mekanisme kick yang terjadi. Mengetahui kronologi terjadinya kick dan blow out dan cara penanggulangannya dengan Well Control.

PRE-REQUISITE

Operator/ Sr. Operator/ Jr. Engineer/ Non Engineer Petroleum Engineers, Reservoir Engineers, Production Engineers Well Service Engineers Everybody or professionals who wants to better understanding and broaden their knowledge from the course subject

COURSE OUTLINE

1. Well Control Introduction

Introduction to course Basic Concepts Liquid Hydrostatics

2. Gas Behavior and Hydrostatics

Ideal Gases Effect of Temperature Real Gases Critical Temperature & Pressure Pseudo-Critical Temp. and Press. Gas Compressibility Gas Migration

3. Kick and Gas Migration

Density of real gasses Equivalent Mud Weight (EMW) Wellbore pressure before and after kick Gas migration rate - first order approx. Gas migration rate - w/mud compressibility

4. Gas Solubility

Solubility of Hydrocarbon Gasses in Oil Solubility of Non-Hydrocarbon Gasses in Oil Solution Volume Factors Oil Mud Recommendations

5. Pore Pressure Prediction

Mud Weight and Pore Pressure Mud Weight and Fracture Gradient Normal Pore Pressure Subnormal Pore Pressure Abnormal Pore Pressure Origins of Pore Pressure Bulk Density and Porosity vs. Depth

6. Drilling Rate and Pore Pressure

Forces on Subsurface Rock d-exponent dc-exponent Rehm and McClendon Zamora Comb's Method Bourgoyne and Young's Method

7. Other Indicators of Abnormal Pore Pressure

Moore's Equation - Drilling rate Gas in the Drilling Fluid Rock Sample Characteristics Use of Surge and Swab Pressure to determine Overbalance Changes in Drilling Fluid Properties Temperature Indications Hole Conditions

8. Logging While Drilling

Sonic Travel Time Resistivity and Conductivity Eaton's Equations (R, C, Dt, dc) Natural Gamma Ray

9. Fracture Gradients 1

Allowable Wellbore Pressures Rock Mechanics Principles Hooke's Law, Young's Mudulus, Poisson's Ratio Volumetric Strain, Bulk Modulus, Compressibility Triaxial Tests Rock Mechanics Principles (con't.) Rock Properties from Sound Speed in Rocks' Mohr's Circle Mohr-Coulomb Failure Criteria

10. Fracture Gradients 2

Radial and Tangential Stresses near the Wellbore Stresses in Rock near Wellbore Effect of Anisotropic Stresses Onshore vs. Offshore Fracture Gradients Fracture Gradients in Inclined Wellbores Oil Based and Water Based Drilling Fluids

11. Fracture Gradients Determination

Hubbert and Willis Matthews and Kelly Ben Eaton Christman Leak-Off Test (experimental)

12. Kick Detection and Control

Primary and Secondary Well Control What Constitutes a Kick Why Kicks Occur Kick Detection Methods Shut-in Procedures Soft and Hard Shut-in Water Hammer

13. Off Bottom Kick

Slugging of drillpipe Hole fill during trips Surge and Swab pressures Kick detection during trips Shut-In Procedures Blowout Case History

14. Control Pressures and Circulation Kill Techniques 1

Shut-In Pressures Weighting Up the Mud Driller's Method Wait & Weight Method

15. Control Pressures and Circulation Kill Techniques 2

Wait & Weight Method Concurrent Method Annulus Pressure Profiles Kicks in Oil-Based Mud

16. Secondary Well Control Complications

Volumetric Well Control Lubrication Complications During Conventional Kill Techniques to Reduce Annular Friction

17. Special Well Control Applications

Underbalanced Drilling Well Control in Unconventional Hole Programs Casing and Cementing Operations

18. Equipments

High Pressure Equipment Control System Equipment and Design BOP Inspection and Test Considerations Low-Pressure Equipment Equipment Arrangement: Design and Philosophy Casing Casing Heads and Spools Stack Equipment Choke and Kill Line Equipment Drillstem Control Equipment

19. Offshore Operations

Equipment Used in Floating Drilling Operational Considerations in Floating Well Contr Shallow Gas Hazards Trends in Deepwater Drilling Instructor DR. Ir. Sudjati Rachmat, DEA

Schedule February 22-25, 2010 4 days

Venue Jayakarta Hotel Bandung

Tuition Fee Rp. 7.250.000,- per participant, excluding accommodation & tax.

Registration Send by email -or- fax to:

PT. FOCUS TRACO INDONESIA Wisma Pakuan, Jl. Pakuan 12 BOGOR - 16143

(0251) 2169150, 9399988 (0251) 7534984 training@focustraco.com

OBJECTIVES

This course is designed to provide non-engineering petroleum industry technical professionals with a thorough overview of most key aspects of petroleum engineering technology and its applications. The course addresses engineering issues ranging from initial involvement with explorations to production optimization challenges.

COURSE CONTENTS

Basic petroleum geology Reservoir fluid and rock properties Fundamentals of reservoir fluid flow Oil and gas reservoir classification and Reserve Calculation Fundamentals of drilling operation and Well Completion Basic Production engineering and operation Surface production operations Enhanced recovery mechanisms

WHO SHOULD ATTEND

Fresh geologist and engineer Financial analysis/ accountant/ legal & Insurance Non technical manager who involve in Oil & Gas production operation Asset Management Team members and business development manager Instructor Ir. Joko Pamungkas, MT and Team

Schedule February 1-4, 2010 4 days

Venue Ibis Hotel Yogyakarta

Tuition Fee Rp. 7.250.000,- per participant, excluding accommodation & tax.

Registration Send by email -or- fax to:

PT. FOCUS TRACO INDONESIA Wisma Pakuan, Jl. Pakuan 12 BOGOR - 16143

(0251) 2169150, 9399988 (0251) 7534984 training@focustraco.com

COURSE OBJECTIVES

To produce oil, most of artificial lift uses Electric Submergible Pump (ESP). So, after completed this training the participant will be able to:

Know how to design, analyze the trouble shooting of ESP Understand the operation of pump testing Understand indication of Pump operation and Pump installation

COURSE OUTLINE

Introduction

History Basic Construction, Application

Installation Type

Negative Positive of ESP

Basic Electronic

OHM Low, DC and AC Flow Inductors and capacitors. Transformer, KVA Calculate

Pump Component

Submersible Pump Equipment Protector and Motor pump Cable Calculation, Temperature and switchboard

Pump Proclivities

IPR gradaient and Vogel IPR, THD Prediction, TDH and Fault PI Graphic of TDH versus

Pump Design

Basic Design and Pump choices, Data, TDH Basic Pump Design to submersible installing

Pump for High GOR

Pump Design Effect and Similarity, AGH and Poseidon Principles

Pump for Strong Oil

Effect and Similarity of Pump

Variable Speed Drives

Effect to RPM, BHP, Head and flow

Pump Repairs and replacement

Flat rate repairs Pump Repairs determining Recommended Practice Integrity Test For Pump Procedure testing of any kind of pump Unit Additional Lubricating, vacuum check, pressure test to REDA and

Centrilift, ODI, Failure report, Install Operation - Start Up, Pulling

Cabell connector Procedure, safety & Trouble Shooting ESP Tear Down Inspection Component description and pump disclosure procedure, motor, Protector, Failure Control Motor Maintenance

WHO SHOULD ATTEND

Reservoir Engineer/ Superintendent/ Supervisor Rotating Engineer/ Superintendent/ Supervisor Production, Power Plant Engineer/ Superintendent/ Supervisor Petroleum Engineer Everybody who wants to add the knowledge and gain benefits from this course Instructor DR. Ir. Sudjati Rachmat, DEA Schedule November 23-26, 2009 4 days Venue Santika Hotel Kuta, Bali Tuition Fee Rp. 9.950.000,- per participant, excluding accommodation & tax. Registration Send by email -or- fax to:

PT. FOCUS TRACO INDONESIA Wisma Pakuan, Jl. Pakuan 12 BOGOR - 16143

(021) 2169150, 9399988   (021) 41002917 (0251) 7534984 training@focustraco.com

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 Schedule April 19-23, 2010 5 days Venue Novotel Hotel Bandung Tuition Fee Rp. 8.250.000,- per participant, excluding accommodation & tax. Registration Send by email -or- fax to:

PT. FOCUS TRACO INDONESIA Wisma Pakuan, Jl. Pakuan 12 BOGOR - 16143

(0251) 9399988, 2169150 (0251) 7534984 training@focustraco.com

OBJECTIVES

To learn Codes, Standard and Regulations for Pipeline To learn Technical Pipeline Documentation To learn flow characteristic inside pipeline To learn optimization of the pipe size selection To learn pipeline design loads and be able to conduct stress analysis To understand the ANSI Codes and ASME Codes for pipeline To learn pipe support analysis & design

COURSE OUTLINE

Piping System Materials Fabrication, Assembly, Erection, And Maintenance Piping Documentation Technique System Pipe Fluida Failure Optimasi Pemilihan Diameter Pipa Sistem Kontrol Pada Instalasi Pipa : Valves Piping Design Loads Pipe Stress Analysis Pipe Stress Requirements Design Of Pressure Components Pipe Span Calculation Expansions Loops, Expansions Joints And Flanged Joints Pipe Support Systems Case Studies

WHO SHOULD ATTEND

The course is intended for Piping engineers, mechanical engineers, maintenance engineers & supervisors, Service engineers & supervisors, technicians and inspectors responsible for the design, work over engineers & supervisors, plant Engineers and Petroleum Engineers.

Instructor Prof. DR. Ir. IGN. Wiratmaja Puja

Schedule November 23-26, 2009 4 days

Venue Novotel Hotel Bandung

Tuition Fee Rp. 7.250.000,- per participant, excluding accommodation & tax.

Registration Send by email -or- fax to:

PT. FOCUS TRACO INDONESIA Wisma Pakuan, Jl. Pakuan 12 BOGOR - 16143

(0251) 9399988, 2169150 (021) 41002917 (0251) 7534984 training@focustraco.com

OBJECTIVES

The Participant will gain an in-depth knowledge of pipe and fitting material specifications, fabrication process and influence on mechanical properties of strength and toughness, to help in material selection and failure analysis. The participant will understand the technical background to the design equations, and their application to the design of piping systems and pipelines. The course addresses rules of good practice in layout of piping systems for reliable operation. The participant will gain a practical understanding of piping and pipeline corrosion mechanisms, how to recognize them, classify them and resolve them. The participant will be introduced to the latest techniques and research in piping and pipeline integrity to analyze a degraded condition due to either corrosion or mechanical damage. The participants will review case histories of field failures and will evaluate their cause and solutions to avoid recurrence.

WHO SHOULD ATTEND

The course is intended for engineers, maintenance technicians and inspectors responsible for the design, integrity, maintenance and repair of pipelines and piping systems.

COURSE OUTLINE

Day 1: Introduction, Material and Inspections

Welding

1. Introduction

History of Pipeline Technology ASME Codes and Standards API Standards NACA, MSS-SP, PFI Standards Fundamentals of Maintenance and Integrity

2. Materials

API 5Land ASTM Specifications Practical Aspects of Metallurgical Properties Chemistry and Material Test Reports Fabrication of Line Pipe and Forged Fittings Mechanical Properties: Strength and Toughness

3. Welding

Overview of Pipe and Pipeline Welding Practice API 1104 and ASME IX Requirement Welding In-service: Challenge and Solutions

Day 2: Integrity for Sustained Loads

1. Operating and Design Pressure

How to Establish the System Design Pressure Introduction to Pressure Relief Valves Pipe and Pipeline Sizing Formula with Applications

2. Layout and Support

Rules of Good Practice in layout Pump and Compressor Piping How to Support a piping System Review of Support Types and their Application Lesson learned from Poor Support Practices

3. Temperature Effects

Flexibility Layout Analysis Temperature Transients and Fatigue Damage

4. Vibration In Service

Mechanical and Hydraulic Induced Vibration in Piping How to Measure Analyze Resolve Vibration

Day 3: Integrity for Occasional Loads

1. Pressure Transients

Recognizing and Solving Liquid Hammer Pump Station Transients Study of Pipeline Failures Due to Transient Two-Phase Liquid –Vapor Transients Two-Phase Liquid-Gas Transients Gas Discharge Transients

2. Buried Pipe

Soil Loads Surface Loads Expansion of Buried Pipe Soil settlement n-service Movement of Pipeline

3. Pipeline Failures

Study Case Histories Understanding Why Failures Occur and How to Avoid Them

Day 4: Piping System Maintenance

1. Flange and Mechanical Joints

Overview of Different Types of Flanges and Application Gasket of Bolt Selection Causes of Flange Leaks and How to Resolve Case Study of Flange Failure Assembly of Flange Joints and Leak Tightness

2. Pressure and Leak Testing

The Difference Between Leak Testing and Pressure Testing Review of Difference Testing Techniques The Purpose of Hydro test How to Conduct a Hydro test Pipeline and Piping Systems Testing Pneumatic Testing

3. Repair Techniques

The New ASME Repair Standards The Fundamentals of Repair package Pipe and Component Replacement Grinding and welding Welded Sleeve: Type A and B Flush Patch Repair Fillet Welded Patch Weld Overlay Repair Mechanical Clamp with Sealant Injection Mechanical Clamp without Sealant Injection Insertion Liners Painted and Brushed Liners Pipe Coating

Day 5: Corrosion, Assessment and Repairs

1. Corrosion

Introduction to Practical Corrosion Classification of Corrosion Mechanisms General wall Thinning Local Corrosion: Galvanic Effects Crevice corrosion Pitting Corrosion Environmental Effects Hydrogen and H2s Effects Microbiological Corrosion Corrosion Protection Cathodic protection Overview

2. Mechanical damage To Pipelines

Dents and Gouges Ripples and buckles

3. Fitness For Service Overview

Application of ASME B31G to Determine Remaining Life Application of 579 to General and Local Corrosion Analysis of Dents and Gouges in Pipelines How to Evaluate cracks in piping and Pipelines Instructor Prof. DR. Ir. IGN. Wiratmaja Puja

Schedule May 3-7, 2010 5 days

Venue Novotel Hotel Bandung

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

Registration (form) Send by email -or- fax to:

PT. FOCUS TRACO INDONESIA Wisma Pakuan, Jl. Pakuan 12 BOGOR - 16143

(0251) 9399988, 2169150 (0251) 7534984 training@focustraco.com

BACKGROUND

Just like hunting for a hidden treasure, a map is one of the key factors toward successful valuable findings.

This course is designed to broaden the knowledge of participants with regards to the sub-surface mapping techniques. These techniques are important to generate or interpret the existing maps that further guide the exploration and exploitation strategy of the company.

The participants will learn starting from the basic techniques to more advances ones and also understand the unique characteristic of earth phenomena that may contain valuable deposits or oil/gas traps.

COURSE OUTLINE

Featuring the Following Issues That Impact Your Exploration and Exploitation Strategy

Contouring and Contouring Techniques

Rules in contouring Contouring methods

Integration of Geophysical Data in Sub-surface Mapping

Fault Maps

Introduction Fault displacement definition Fault data from log Fault surface maps construction Type of faults patterns: External Faulting Compressional faulting

Fault Data Determined From Seismic Interpretation

Structure Maps

Contouring faulted surface Combining structure maps and fault maps Restored top-an aid to structural interpretation Fault trace and gaps Fault gaps Vs fault heave The additive property of fault

Mapping Techniques for Various Tectonic Habitat

Extensional Tectonic: Compensating Bifurcating fault pattern Intersecting Growth fault system Single non-growth faults Wrench fault tectonic Compressional: Reverse faults Thrust faults

Requirement for a Reasonable Structural Interpretation

Multiple Horizon Mapping

Discontinuity of Structure with Depth

Unique Characteristics Containing Valuable Deposits

Oil/gas traps Mineral deposits

WHO SHOULD ATTEND

Geo-scientist (Geologist, Geophysicist, Exploration) Petroleum Engineers (Reservoir Engineer, Production Engineer) New Venture & Field Business Development Hydrologist Miners (Engineer, Business Development) Everybody or professionals who wants to better understanding and broaden their knowledge from the course subject Instructor Ir. Oeke Sobarin Schedule October 20-23, 2009 4 days Venue Grand Preanger Hotel Bandung Tuition Fee  Rp. 7.250.000,-   per participant, excluding accommodation & tax. Registration Send by email -or- fax to:

PT. FOCUS TRACO INDONESIA Wisma Pakuan, Jl. Pakuan 12 BOGOR – 16143

(021) 7009-9943   (0251) 2169-150 (0251) 7534-984 training@focustraco.com