HYDRAULICS POWER SYSTEM

HYDRAULICS POWER SYSTEM

Bandung | October 11-14, 2011 |IDR 8.250.000,-/ Person
Bali |December 20-23 , 2011 |IDR 9.750.000,-/ Person

You will learn

• Basic theory of hydraulics in relation to hydraulic power system


• Basic calculation of hydraulic transmission power and knowledge about basic hydraulics circuit


• The utilization of hydraulics system in industries and its advantages


• Basic analyzing capability on simple hydraulic circuit

Course contents
Introduction to Fluid Power

• History of Fluid Power


• Advantages of Fluid Power


• Application of Fluid Power


• Component of a Fluid Power System


• Type of Fluid Power Systems


• The Fluid Power Industry

Properties of Hydraulic Fluids

• Fluids


• Weight, Density and Specific Gravity


• Pressure, Head and Force


• The Metric SI System


• Pascal Law


• Bulk Modulus


• Viscosity and Viscosity Index


• Oxidation and Corrosion Prevention


• Fire and Foam Resistance Fluids


• Lubricating Ability


• General Types of Fluids

Energy and Power in Hydraulic Systems

• Review of Mechanics


• Application Pascal Law


• Conservation of Energy


• Hydraulic Horse Power


• Bernoulli Equation


• Energy, Power and Flow rates in SI system

The Distribution System

• Sizing Flow rate requirement


• Pressure Rating of Conductors


• Steel Pipes


• Steel Tubing


• Plastic Tubing


• Flexible Hoses


• Quick Disconnect Couplings

Basic Hydraulic Flow in Pipes

• Laminar and Turbulent Flow


• Reynolds number


• Darcy’s Equation


• Frictional Losses in Laminar and Turbulent Flow


• Losses in Valves and Fittings


• Equivalent Length Technique


• Hydraulic Circuit Analysis


• Flow Measurement


• Pressure Measurement

The Source of Hydraulic Power

• Pumping Theory


• Pump Classification


• Gear pump


• Vane pump


• Piston Pump


• Pump Performance


• Pump selection


• Pressure Intensifier


• Pump Performance rating

Fluid Power Actuators

• Linear hydraulic actuators


• Limited Rotation Hydraulic Actuator


• Vane motors


• Piston Motors


• Hydraulic Motor Performance


• Hydrostatic transmissions


• Electro hydraulic Stepping Motors


• Low Speed High Torque Motors

Control Components in Hydraulic Systems

• Directional Control Valves


• Pressure Control Valves


• Flow Control Valves


• Servo Valves


• Hydraulic Fuses


• Pressure and Temperature Switch


• Shock Absorber

Hydraulic Circuit Design and Analysis

• Control Single Acting Hydraulic Cylinder


• Control of Double Acting Cylinder


• Regenerative Circuit


• Pump unloading Circuit


• Double Pump Hydraulic System


• Pressure Intensifier Circuit


• Counter Balance Valve Application


• Hydraulic cylinder sequencing circuit


• Fail safe circuits


• Speed Control Of a Hydraulic Motor


• Hydrostatic Transmission System

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 TIM.


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


• 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.


• Convenient training facilities with four star quality


• Morning and afternoon coffee breaks and lunch for along the training


• Certificate of Completion


• Exclusive flash disk

Tuition Fee & Registration  Deadline

• IDR 8.250.000-/ Person (Bandung)


• IDR 9.750.000-/ Person (Bali)


• Registration deadline a weeks before training held.

Minimum Participant

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

 

EXPANDED PETROLEUM ECONOMIC, BALI, BANDUNG

EXPANDED PETROLEUM ECONOMIC
Bali|June 21 -24, 2011 | IDR 8.250.000,-/ Person
Bandung|November 01 -04, 2011 | IDR 8.250.000,-/ Person

COURSE SUMMARY

This course is to summarize the state of the art of Petroleum Economics Concept Based on Engineering Economics. It included the example problems to illustrate the use of various theoretical solutions. In this course we will discuss the time value of money concepts, different types of interest arrangement, converting cash flows (cash inflows or outflows) from one period to another, methods used to select the best economic service producing investments, methods used to select the best economic revenue producing investments (mutually exclusive and non-mutually exclusive), the development of after-income tax cash flows, expected value concept and other useful statistical techniques.

All of concepts in this course are presented in a hands-on manner. You may be already reasonably familiar with some of the concepts; in which case, you may skip those and proceed to the ones that you are not familiar with. You will notice that most of the methods presented if properly used, will give the same results. The reason for including so many methods is to complete the presentation. In some cases it may be advantageous to use on method over the other. Therefore, it is necessary that you be familiar with all of the methods presented.

This course compiled as aid to engineers and production people in the Petroleum Industry who have the responsibility of planning and decision making in oil or gas field development. It includes fundamental principles of engineering economics used in petroleum industry. It also included the tables, data and general information which it will be value to everyone who responsible to make decision making in petroleum economics domain.

Much material of this course has been published previously and is reassembled in this course. However, there is also a considerable amount of new material included that will assist the participants. In this course, it has also included example problems to illustrate the use of various theoretical solutions. Wherever possible, it has not only discussed practical difficulties that one may encounter while using the theoretical solutions, but it has also listed some of the method that one can used to obtain the desired information.

This course is mainly directed to the practicing professionals who make engineering calculations and decision on oil and gas field development. For managers, the course helps to review the present state of the art of petroleum engineering economics used for decision-making according to field economics parameters.

 

COURSE OUTLINE

Reserve and Hydrocarbon Reserve

Exploitation

• Basic Concept


• History of Reserve Definition


• Reserve Classification


• Reserve Calculation


• Proved Reserves Guidelines Improved Recovery

Time Value of Money Concepts

• Hydraulic Fundamentals


• Time Value of Money


• Simple and Compound Interest


• Present Value of Future Sum


• Present Value of Annual Sums


• Annual Equivalent of Future Sums


• Annual Equivalent of Present Sums


• Present Value of Deferred Annuity


• Arithmetic gradient Series


• Capitalized Cost Calculations


• Continuous Compounding and Discounting


• Determining Interest Rates


• NPV, NAV, and NFV Computations


• Rate of Return (ROR) Calculations

Comparison of Service Producing Investment

• PV, AV, and FV of cost analysis


• Rate of return Analysis


• Service Life Breakeven Analysis


• Unequal Life Service Producing Alternatives

Analysis of Income Producing Investments

• Single Independent Investment Analysis


• Mutually Exclusive Investment Analysis


• Non Mutually Exclusive Investment Analysis

Depreciation

• Straight Line Depreciation


• Declining Balance Depreciation


• Sum of Years 'Digits Depreciation


• Accelerated Cost Recovery System (ACRS)


• Modified Accelerated Cost recovery System   (MACRS)

After-Tax Cash Flow Analysis

• Amortization and Depletion


• Investment Tax Credits (ITS)


• Intangible Drilling Costs (IDC)


• Minimum Tax and Tax Preference Items


• After-Tax Cash Flow

Expected Value Concepts

• Definition of Probability


• Expected Net Present Value (ENPV)


• Expected Present Value Ratio (EPVR)


• Expected Net Present Value Profile


• Decision Tree Analysis

Equations and Mathematical Techniques

• Regression Analysis


• Mean, Variance, and Standard Deviation


• Normal Probability Distribution


• Log-Normal Probability Distribution


• Solving Problems Requiring Trial-and-Error Calculation

How to Chose the Alternatives

• Investment Analysis


• The Role Depreciation


• Taxes


• Project Financing


• The Effect of Inflation


• Decision Making


• Monte Carlo Simulation

COURSE LEADER:

Arsegianto, He is a Doctor at Department of Petroleum Engineering of The Institute Teknologi Bandung, Indonesia. He earned his Master of Science from University of Wisconsin, Madison (USA) at Department of Urban and Regional Planning in Major Energy Analysis, Policy and Planning. He obtained his Doctor from Asian Institute of Technology, Division of Energy Technology in Bangkok, Thailand. He has been delivering training course in Economic, Finance, Marketing, Policy and Planning Analysis of Petroleum & Gas Industry since 1992. He also has expertise in technical petroleum engineering. His professional experiences include contributing author in many congresses, conventions, exhibitions, seminars, workshops, symposiums & conferences. His current membership of the International Association For Energy Economics (IAEE), Society of Petroleum Engineering (SPE), Society of Indonesian Petroleum Engineers, & Komite Nasional Indonesia - World Energy Council (KNI-WEC).

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.


• 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 8.250.000,-/ 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)

Produced Water Treating and Disposal into Injection Well

Produced Water Treating and Disposal into Injection Well

Bali | October 11-14, 2011|  IDR 8.950.000,-/ Person
Bandung| November 15-18, 2011|  IDR 8.950.000,-/ Person

 

This special practical approach course is designed to provide a comprehensive under-standing of oil field water technology, especially produced water treating and disposal, to match injection well and environmental requirements. Each equipment and operations considerations base on basic concept of prevention of the system plugging and the need and regulation on water disposal to injection well and offshore environment.

 

What Will Participant Get?

After completion of this course, participants will better understand and analyze specific water quality, in-field water treating and disposal scheme and operations, configuration and operational mechanism of each equipment, test methods and procedures, and improve skill and ability to diagnose water treating system performance and utilize laboratory analyses results.

 

Who Should Attend?

Technical personnel of Oil & Gas Company who involve in or concern with oil field water handling, water treating, water disposal, injection well, onshore and offshore environmental management, MIC and scale control and prevention, chemical injection application, water treating equipment operations, pipeline and pumping operations and laboratory analyses,  and those who responsible on the continuity, integrity and reliability of produced water transportation, injection and disposal system and equipment.

 

What Will Participant Learns?

In this tailor made course participants will learn from and discuss with professional instructor the following subjects:

1.       Produced Water Injection and Disposal in Oil & Gas Field

2.       Problem-Causing Factors in Oil Field Water Handling

3.       Injection Well and Environmental Requirements

4.       Water Treating Operations and Equipment

5.       Test Methods, Analyses and Calculations in Water Treating and Disposal

 

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 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 & Dress Code

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


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


• 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 with morning and afternoon coffee breaks


• Certificate of Completion


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


• Exclusive flash disk.

 

Tuition Fee & Registration  Deadline

IDR 8.950.000,-/ 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)

 

Pump Selection, Design and Operation for Oil and Gas Surface Production Facilities

Pump Selection, Design and Operation for Oil and Gas Surface Production Facilities

Bali | September 06-09, 2011 | IDR 8.750.000,-/ Person

OBJECTIVES :
After participate in this course, the participants will be able and capable to :

• Understand the basic concept of oil and gas handling with surface processes and operation facilities , and how to operate pump technology in field application.


• Diagnostic of oil and gas flow  performance under actual pumping drive mechanism and future performance with current handling processes.


• Analyze the production flow potential of oil and gas flow under actual handling facilities system processes and to plan the better development processes according to fluid flow capacity.


• Understand the fundamentals of microscopic and macroscopic aspects the phenomena of oil and gas handling processes and operation with given surface facilities and pumping system.

 

 

AUDIENCE:
No specified (Operator/Sr. Operator/Engineer or Non Engineer)

 

COURSE OUT-LINE

• Introduction to Oil and Gas Production Operation


• Oil Surface Production Facilities
  
  
  
  • Well Equipments
  
  
  • Pigging System
  
  
  • Separator
  
  
  • Gas Scrubber
  
  
  • Gas Dehydarator
  
  
  • Pumps : Centrifugal, Reciprocating, Diaphragm
  
  
  
  


• Gas Surface Processing Facilities
  
  
  
  • Gas Sweetening
  
  
  • Heat Exchanger
  
  
  • Fractionation, Liquefaction, Refrigeration System
  
  
  • Compressor
  
  
  
  


• Pump Basic Theory
  
  
  
  • Centrifugal Pump
  
  
  • Conservation of Mass
  
  
  • Specific Velocity
  
  
  • Pump Performance
  
  
  • Cavitations
  
  
  
  


• Pump Specification
  
  
  
  • Pump Specification
  
  
  • Flow Capacity
  
  
  • Fluid Properties
  
  
  • Head
  
  
  • Net Positive Heads
  
  
  • Rotation Determination and Pump Types
  
  
  • Viscous Fluid Correction
  
  
  • Material Selection
  
  
  • Prime Movers Selection
  
  
  
  


• Pump Application
  
  
  
  • Pump Installation Plan
  
  
  • Pump Application Example
  
  
  
  


• Pump Construction
  
  
  
  • Pump Classification by Impeller
  
  
  • Pump Classification by Casing
  
  
  • Pump Classification by Stage Number
  
  
  • Pump Classification by Axis Position
  
  
  
  


• Pump Operation
  
  
  
  • Head Capacity Curve
  
  
  • Parallel and Serial Operation
  
  
  • Capacity Regulator
  
  
  • Water Hummer
  
  
  • Surging
  
  
  • Pressure Fluctuation
  
  
  • Automatic Operation
  
  
  
  


• Pump Instalation
  
  
  
  • Horizontal Instalation
  
  
  • Vertical Instalation
  
  
  • Submersible Instalation
  
  
  • Pipping System
  
  
  • Vibration and Noise Protection
  
  
  
  


• Pump Maintenance
  
  
  
  • First Inspection
  
  
  • Operation Condition Observation
  
  
  • Safety Instrument
  
  
  • Maintenance Management
  
  
  • Overhaul
  
  
  
  


• Pump Trouble Shooting
  
  
  
  • General Trouble Shooting
  
  
  • Submersible Pump Trouble Shooting
  
  
  
  

 

 

INSTRUCTOR :
Dr. Ir. Sudjati Rachmat, DEA graduated from Petroleum Engineering Department of ITB in 1979 and got his Doctorate Degree with honored in 1987 from Ecole Centrale de Lyon I, France . The topic of his thesis is Modelisation Numerique d'Ecoulements Polyphasiques en Milieux Poreux Application au Cas de Calcul des Champs de Pressions et de Saturations dans un Gisement de Petrole.
For the time being, he became a lecturer in Petroleum Engineering Department of ITB. His subjects are Analysis and Numerical Method, Engineering Mathematics, Computer Simulation, Flu id Mechanic, Artificial Intelligence for Petroleum Engineering.
He also gave many courses to the community, such as: basic reservoir engineering and reservoir simulation, basic production engineering, down hole well testing, statistic and numerical method for petroleum engineering, basic log interpretation, etc. He is a member of some profession organization such as: IATMI, SPE/EIME, IMA, HAIAI, FPS-USA, INAGA, and IGA.

 

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 & Dress Code

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


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


• 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


• 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)

 

Gas Oil and Water Pipeline Design and Maintenance

Gas Oil and Water Pipeline Design and Maintenance

Bali | May 3-6, 2011| IDR 8.750.000,-/ Person

 

To fulfill the oil and gas demand for power generation, recovery processes, and other uses, pipelines are utilized to transport the supply from their source.  These pipelines are mostly buried and operate without disturbing normal pursuits.

Construction procedures for most pipeline systems can be adapted to consider specific environmental conditions and are tailored to cause minimal impact on the environment.

Unattended pumping stations move large volumes of oil and petroleum products under high pressure.  Many factors have to be considered in the engineering and design of long-distance pipelines, including the nature and volume of fluid to be transported, the length of pipeline, the types of terrain traversed and the environmental constraints.  Major factor influencing pipeline system design are: Fluid properties, design condition, supply and demand magnitude/location, Code and standards, Route, topography and access, environmental impact, economic, hydrological impact, seismic and volcanic impacts.

To obtain optimum results for a pipeline transmission system, complex economic and engineering studies are necessary to decide on the pipeline diameter, material, compression/pumping power requirements and location of the pipeline route.

 

WHAT WILL YOU LEARN?

In this practical training, participants will learn from and discuss with professional instructor the following subjects:

1. Overview of Problems in Gas, Oil and Produced Water Pipeline Operations and Maintenance


2. The Pipeline Design Approach and Considerations


3. Design of Gas Transmission Pipeline


4. Design of Crude, Oil and Produced Water Transportation Pipeline


5. Valves, Flanges and Fittings Selection for Crude, Oil, Gas and Produced Water Pipeline Design

 

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 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 & Dress Code

• 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.


• Casual clothing is recommended. The training atmosphere is informal.

 

Facilities

• Quality training material (hardcopy and softcopy)


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


• Interactive presentation with discussion


• Lunch per day


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


• Certificate of Completion


• Exclusive flash disk.

**) Optional

 

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)

PETROLEUM OPERATION MANAGEMENT FOR MANAGERS (International training class, presented in English)

PETROLEUM OPERATION MANAGEMENT FOR MANAGERS

(International training class, presented in English)

Harris Tuban Hotel , Bali - Indonesia | 4 – 7  July 2011 | Rp 9.750.000  (for Indonesian participants)
Harris Tuban Hotel , Bali - Indonesia |12 – 15 December 2011| Rp 9.750.000  (for Indonesian participants)

What will participantS get?

After completing this course participants are expected to:

• Understanding the basic principles in performing calculations on the optimization of production operations of oil wells, gas and geothermal reservoir, the implementation of production optimization is to enhance the performance of the well and field production (Enhanced Oil Recovery)..


• Conduct simple diagnosis and understand the problem solving in the oil gas well operation.


• Be able to create a simple analysis of the data of oil wells, gas and geothermal.  Forecasting performance and plan the development of production operations


• Be able to conduct simple quantitative calculations from all the data acquisition, tubing, flowline, choke, perforated, gravel-packs, and subsurface safety valve in the well.  Plan the development of production based on the calculation of the production capacity of each well


• Using the knowledge of production operations for solving well problems, such as: cementing, scaling, sand, corrosion and formation damage that may occur in oil and gas wells.


• Understand the basic principles of production operation's design: cementing, workover, well stimulation with acidizing and hydraulic fracturing,  and others

AUDIENCE:

• No specified  (Engineer or Non Engineer)

TRAINING MATERIAL OUTLINE :

1. The origin of Oil and Gas Reservoir  and Geologic Considerations in producing Operation
   
   
   
   • a.    Introduction
   
   
   • b.    Sandstone Reservoirs
   
   
   • c.    Geologic Factors Affecting Reservoir Properties in Sandstone
   
   
   • d.    Application of Geologic concepts in Specific Sandstone
   
   
   • e.    Carbonate Reservoirs
   
   
   • f.    Application of Geologic Concepts in Carbonate Reservoirs
   
   
   
   


2. Exploration Method of Oil and Gas Reservoir
   
   
   
   • a.    Magnetic Method
   
   
   • b.    Gravity Method
   
   
   • c.    Seismic Method
   
   
   
   


3. Introduction : Rotary Drilling Operations
   
   
   
   • a.    Steps to drilling a well
   
   
   • b.    Types of rigs
   
   
   • c.    Rig Components
   
   
   • d.    Rig Systems
   
   
   
   


4. Mud System
   
   
   
   • a.    General Equations and ConceptsDiagnostic tests
   
   
   • b.    Water based muds
   
   
   • c.    Oil based muds
   
   
   • d.    Additives
   
   
   • e.    Mud handling system
   
   
   
   


5. Cementing
   
   
   
   • a.    Tubing DesignFunctions of cement
   
   
   • b.    Cement Types
   
   
   • c.    Cement Additives
   
   
   
   


6. Oil Field Tubulars and Hydraulics
   
   
   
   • a.    Drill string
   
   
   • b.    Casing and tubing
   
   
   • c.    Casing classification
   
   
   • d.    Stresses on casing
   
   
   • e.    Casing setting depth
   
   
   • f.    Burst and collapse calculations
   
   
   • g.    Wellheads
   
   
   
   


7. Drilling System - Pressure Loss Calculations
   
   
   
   • a.    Hydrostatics
   
   
   • b.    Buoyancy
   
   
   • c.    Flow through pipes and annuli
   
   
   • d.    Flow path
   
   
   • e.    Pressure loss calculations
   
   
   
   


8. Drilling System - Bit & Nozzles
   
   
   
   • a.    Hydrostatics Bit Types
   
   
   • b.    Bit Parts
   
   
   • c.    Bit Classification
   
   
   • d.    Bit Nozzles
   
   
   
   


9. Introduction to Well Control
   
   
   
   • a.    Hydrostatics Definitions
   
   
   • b.    Causes of kicks
   
   
   • c.    Kick indicators
   
   
   • d.    Shut-in procedure
   
   
   • e.    Well Kill Procedures
   
   
   
   


10. Directional Drilling
    
    
    
    • a.    Reasons for directional wells
    
    
    • b.    Planning Trajectory
    
    
    • c.    Kickoff Methods
    
    
    • d.    Survey Methods
    
    
    • e.    Survey Calculations
    
    
    • f.    Hole Assemblies
    
    
    
    


11. Well Completion Design
    
    
    
    • a.    Factors Influencing Well Completion Design
    
    
    • b.    Conventional Tubular Configuration
    
    
    • c.    Unconventional Tubular Configurations
    
    
    • d.    Sizing Production Tubular
    
    
    • e.    Completion Interval
    
    
    • f.    Permanent Well Completions (PWC)
    
    
    • g.    Tubingless Completion
    
    
    
    


12. Perforating Oil and Gas Wells
    
    
    
    • a.    Introduction
    
    
    • b.    Types of Perforators
    
    
    • c.    Evaluation of Perforator Performance
    
    
    • d.    Factors  Affecting Gun Perforating Results
    
    
    • e.    Perforating in a Clean Fluid with Differential Pressure Into Wellbore
    
    
    
    


13. Production Logging Technology
    
    
    
    • a.    Introduction
    
    
    • b.    Logging Device
    
    
    • c.    Application of Through-Tubing Production logging
    
    
    • d.    Field Examples of Production Logging Techniques
    
    
    • e.    Primary Cement Evaluation
    
    
    
    


14. Problem Well Analysis
    
    
    
    • a.    Problem Wells
    
    
    • b.    Problem Well Analysis Checklist
    
    
    
    


15. Sand Control
    
    
    
    • a.    Introduction
    
    
    • b.    Reduction of Drag Force
    
    
    • c.    Mechanical Methods of Sand Control
    
    
    • d.    Practical Considerations in Gravel Packing
    
    
    • e.    Use of screen Without Gravel
    
    
    • f.    Resin Consolidation Methods
    
    
    
    


16. Formation Damage
    
    
    
    • a.    Introduction
    
    
    • b.    Basic Causes of Damage
    
    
    • c.    Classification of Damage Mechanisms
    
    
    • d.    Reduced Absolute Permeability
    
    
    • e.    Increased Fluid Viscosity (Emulsion)
    
    
    • f.    Diagnosis of Formation Damage
    
    
    
    


17. Acidizing
    
    
    
    • a.    Acid Additives
    
    
    • b.    Carbonate Acidizing
    
    
    • c.    Acidizing Techniques for Caronat Formations
    
    
    • d.    Sandstone Acidizing
    
    
    • e.    Potential Safety Hazard in Acidizing
    
    
    • f.    Acids Used in Well Stimulation
    
    
    
    


18. Hydraulic Fracturing
    
    
    
    • a.    Introduction
    
    
    • b.    Mechanics of Fracturing
    
    
    • c.    Production Increase from Fracturing
    
    
    • d.    Propping the Fracture
    
    
    • e.    Frac Fluids
    
    
    • f.    Frac Job Design
    
    
    • g.    Frac Job Evaluation Techniques
    
    
    
    


19. Scale Deposition Removal and Prevention
    
    
    
    • a.    Introduction
    
    
    • b.    Causes of Scale Deposition
    
    
    • c.    Prediction and Identification of Scale
    
    
    • d.    Scale Removal
    
    
    • e.    Scale Prevention
    
    
    
    


20. Corrosion Control
    
    
    
    • a.    The Corrosion Process
    
    
    • b.    Detection and Measurement of Corrosion
    
    
    • c.    Corrosion Control
    
    
    
    


21. Crude Oil and Gas Field Processing Sistem
    
    
    
    • a.    Separator and Principle of Separation
    
    
    • b.    Design of Separator
    
    
    • c.    Sweetening Process
    
    
    • d.    Oil and Dehydration
    
    
    • e.    Liquid Recovery Sistem
    
    
    • f.    Compression System
    
    
    
    


22. Principles of Measurement
    
    
    
    • a.    Introduction to Measurement
    
    
    • b.    Crude Oil Measurement
    
    
    • c.    Gas Measurement
    
    
    
    


23. Artificial Lift Method
    
    
    
    • a.    Gas Lift
    
    
    • b.    Submersible Pump
    
    
    • c.    Sucker Rod Pump
    
    
    • d.    Hydraulic Pump
    
    
    
    


24. Enhanced Oil Recovery Process:
    
    
    
    • a.    Classification of EOR methods
    
    
    • b.    Description of solvent miscible processes
    
    
    • c.    Description of chemical flood proves
    
    
    • d.    Description of thermal recovery processes
    
    
    • e.    Microbial and other EOR processes
    
    
    • f.    Objectives of EOR methods
    
    
    • g.    Types of solvents and miscibility development
    
    
    • h.    Polymer, alkaline, surfactant and mecellr-polymer
    
    
    • i.    In-situ combustion, cyclic steam and steam flood
    
    
    • j.    Comparison between various EOR methods
    
    
    
    


25. Screening Guidelines and Optimization :
    
    
    
    • a.    Key parameters used in reservoir screening
    
    
    • b.    Available resources and economical considerations
    
    
    • c.    Optimization parameters and criteria
    
    
    • d.    Concept of incremental recovery
    
    
    • e.    Limits on applicability of certain EOR methods
    
    
    • f.    Typical field cases of various EOR methods
    
    
    
    

TRAINING INSTRUCTOR

Dr. Ir. Sudjati Rachmat, DEA was graduated from Petroleum Engineering Department of Bandung Institute of Technology in 1979 and hold Doctorate Degree with honored in 1987 from Ecole Centrale de Lyon I, France. The topic of his thesis is Modelisation Numerique d'Ecoulements Polyphasiques en Milieux Poreux Application au Cas de Calcul des Champs de Pressions et de Saturations dans un Gisement de Petrole.

For the time being, he became a lecturer in Petroleum Engineering Department of Bandung Institute of Technology. His subjects are Analysis and Numerical Method, Engineering Mathematics, Computer Simulation, Fluid Mechanic, Artificial Intelligence for Petroleum Engineering.

He also gave many courses to the community, such as: basic reservoir engineering and reservoir simulation, basic production engineering, down hole well testing, statistic and numerical method for petroleum engineering, basic log interpretation, etc. He is a member of some profession organization such as: IATMI, SPE/EIME, IMA, HAIAI, FPS-USA.

VENUE :

Harris Tuban Hotel , Bali - Indonesia

TRAINING DURATION :

4 days

TRAINING TIME :

1. 4 – 7  July 2011


2. 12 – 15  December 2011

INVESTATION PRICE/PERSON :

1. Rp 9.750.000/person (full fare)  or


2. Rp 9.500.000/person (early bird, payment 1 week before training) or


3. Rp 9.250.000/person (if there are 3 persons or more from the same company)

COURSE LANGUAGE :

English, both the hand-out and the presentation

FACILITIES FOR PARTICIPANTS:

1. Training Module


2. Training CD Contains Training Material and flash disk


3. Certificate


4. Stationeries: NoteBook and Ballpoint


5. Jacket or Waistcoat or Indonesian dress


6. Bag or Backpackers


7. Training Photo


8. Training Room with Full AC Facilities and multimedia,


9. Once lunch and twice coffeebreak everyday of training


10. Qualified and experienced instructor


11. Transportation for participants from airport in Bali to hotel of participants vice versa


12. Transportation from hotel of participants to/from venue of training(if participants hotel is different with hotel of training, we recommend participants hotel is the same with hotel of training )

ISO 9001 Lead Auditor (IRCA Course number A17117) - IRCA Accredited - Bali

ISO 9001 Lead Auditor – IRCA Accredited  (IRCA Course number A17117)
Certified by International Registered Certified Auditors ( IRCA) & Facilitated by Independent European Certification (M) Sdn Bhd

Anahata Resort  Ubud  & Hotel Harris Kuta, Bali |  July 12 – 16 | Rp 25.000.000,-

 

 

We  & Independent European Certification (M) Sdn Bhd (IEC)  presents The ISO 9001 Lead Auditor course  using the newly developed accelerated learning methodologies.

What does the ISO 9001 lead auditor course cover?
The IRCA ISO 9000 Lead Auditor course provides participants with the knowledge required to assess the conformance and performance of an organization’s quality management system, be it at an internal level, supplier assessment or independent 3rd Party level.  The skills that you acquire will ultimately help you to contribute to the continuous improvement of the business and mutually beneficial supplier relationships.

 

What will I learn?

1. Understand the business benefits of an improvement based Quality Management System (QMS)


2. Understand and apply the Process Approach & Process Auditing


3. Understand clearly the concept & intent of the QMS requirements and the 8 quality management principles


4. Interpret and understand the requirements of ISO 9001 : 2008, ISO 9000, ISO 9004 & ISO 19011


5. Plan, Conduct and Report a process based audit of an entire QMS effectively

 

Our Facilitator

Mr. Jimmy Chua

Jimmy  is one of the early pioneers in ISO 9001 in Malaysia with many years of consultancy experience in ISO 9000, ISO/TS 16949, TQM, HACCP, ISO 14000, OHSAS 18000, ISO 22000, six sigma, lean manufacturing, etc. The detail profile, please find below.

Who should take this course?
Those intending to acquire the competence to audit an organization’s ISO 9001 based management system, either as an independent third party auditor, second party auditor (supplier auditor) or as an internal auditor seeking additional skills. The pre-requirement to attend this course is that you should have some understanding of the content, application and implementation of the ISO 9000  standards.

 

When & Where the course is?

The course conducted in Anahata Resort  Ubud  & Hotel Harris Kuta, Bali on July 12 – 16 (All the participants will have final written examination for 2 hours on the last day).

How much is this course?

• The cost of the course is Rp 25.000.000,- (Twenty Five Million Rupiahs).


• This price covers  the course, all training materials, breakfast, coffee break, lunch, dinner on the course, transportation cost to and from Ngurah Rai Airport - Anahata Resort  (Ubud) – Hotel Harris (Kuta) &  accommodation (twin share room), final examination  and certificate issue


• Excluding VAT.

 

Pipe Stress Analysis Using Caesar II

Pipe Stress Analysis Using Caesar II

Santika Hotel Bali| 11 - 15 Oktober 2010 | Rp.8.250.000,-

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 has been a senior consulting engineer specialist for PT. TIMAH Tbk., PT. TAMBANG BATUBARA Bukit Asam, KONDUR Petroleum S.A., and PT. KAI whereas he's involved in failure analysis of machineries and equipments' design. Mr. Wayan also is a distinguished professor of mechanical engineering at ITB since 1987 and has conducted numerous short courses and seminars for various major oil companies such as PT. CALTEX Pacific Indonesia, PT. FREEPORT Indonesia as well as VICO.

His field of expertise includes mechanical design and drawing, stress analysis and computer aide MSC/Nastran finite element program, mining hydraulics, and vibrations control as well as maintenance management. Mr. Wayan received his Ph.D. in Mechanical Engineering from Ecole Centrale de Lyon, French in 1990.

Schedule
11 - 15 Oktober 2010
5 days

Venue
Santika Hotel Bali

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:

PRACTICAL INTERNAL CORROSION CONTROL AND MONITORING IN OIL & GAS OPERATIONS

PRACTICAL INTERNAL CORROSION CONTROL AND MONITORING IN OIL & GAS OPERATIONS

Bali |  14-17 July 2009 | USD 1050,-

 

Internal Corrosion Problems in Gas, Oil and Produced Water Pipeline and Equipment

• Piping and Pipeline Leakage due to Pitting Corrosion and Microbiological Induced Corrosion


• Severe Pipe Wall Thickness Reduction and Short Remaining Service Life caused by Sour Corrosion


• Pipe Wall, Rotating Parts and Equipment Cracking due to Chloride and Sulfide in the Fluids


• Internal Corrosion of Pipeline and Equipment due to Water in Oil and Oil in Water Emulsions


• Internal Corrosion due to Multi Phase Flow in the Pipeline


• Severe Corrosion Rate caused by CO2 and Hydrate in the Gas Lines, CO2/H2S Removal Unit and Glycol Dehydration Unit


• Internal Corrosion in the Water Lines due to Dissolved Oxygen, Mud and Sludge


• Malfunction of Pump, Compressor, Valves and Equipment due to Under-Deposit Corrosion, Under-Film Corrosion and Fouling

The Nature, Mechanism and Characteristics of Internal Corrosion and the Control Methods

• Anodic-Cathodic Reactions, Electrical Properties and Characteristics of Corrosion Cells


• Physical & Metallurgical Conditions of Metals and Chemical Composition that Promote Corrosion


• Destructive and Catastrophic Effects of Corrosive Agents and Microorganism in the Gas, Oil and Produced Water Fluids


• The Role and Mechanism of O2, CO2, H2S, Dissolved Salts and Microorganism in Internal Corrosion


• The Role of Oilfield Bacteria and the Mechanism of MIC


• Characteristics and Detection of Internal Corrosion in the Pipeline and Surface Equipment


• Removal of Dissolved Corrosive Agents and Non-Hydrocarbon Gases in the Gas, Oil and Produced Water Fluids


• Internal Corrosion Control with On-line Chemical Inhibitors Injection, Surface Barriers and Scavengers

Internal Corrosion Detection and Monitoring  Techniques, Devices and Analysis

• Visual Inspection and Early Detection Techniques & Devices for Monitoring Fluid Corrosiveness and Tests for Identifying Corrosion products


• The Important of Internal Corrosion Rate Monitoring Before and After Chemical Injection and Treatment


• NACE Standard Method for Preparation, Installation, Laboratory Analysis and Interpretation of Results of Internal Corrosion Monitoring


• Access Fittings, Retrievers, Corrosion Coupons, Scale Coupons, Corrosion Probes,  Holders, Injection & Sampling Devices and Instrument for On-line Internal Corrosion Monitoring


• The Use of Nipple or Spool, Hydrogen Probe and Galvanic Probe


• NACE Standard Method for Testing and Analysis of Bacterial Activity and Microbiological Induced Corrosion


• Iron Content Analysis of Produced Water and the COPRA Correlation


• Down-hole Tubing or Casing Calipers, Ultrasonic Wall Thickness Testers and Radiography

Internal Corrosion Control with Chemical Inhibitor Injection, Passive Film Formation and Biocides

• Nature & Classification of Inhibitors and Effect of Ionic Character on Inhibiting Ability


• Formulations of Oilfield Inhibitors and the use of Water Soluble Inhibitors, Volatile Inhibitors and Acid Inhibitors


• Typical Corrosion Inhibitors, Scavengers & Biocides for Oil & Gas Field


• Guidelines of Inhibitor and Biocide Applications and the Chemical Injection Equipment for Pipeline and Surface Facility


• Inhibitor and Biocide Batch Treatment Using Pigs, Chemical Dosage and the Pigging Operations


• Surfactant and Cleaners for Solving Fouling Problem in the Equipment and Systems


• Cationic & Mixed Charge Organic Inhibitors for Hydrocarbon and Oxygen Corrosion Inhibitors for Produced Water


• Testing and Evaluation of Inhibitor and Biocide Effectiveness


• Safety Precaution in Working with Inhibitors and Biocides

Internal Corrosion Control as a Key Factor to Pipeline Integrity Management

• Hazard Assessment and Risk Based Inspection for the Pipeline and Equipment Maintenance Program


• Pipeline Internal Damage Record and Wall Thickness Monitoring


• Pigging for Water and Deposit Removal from the Pipeline System


• Controlling of Flow Stability and Corrosion Rate to a Safe Level


• Estimating Present Pipeline Remaining Service Life


• Evaluation of Present Condition and Comparison with Initial Pipeline Design Baseline


• Evaluation and Controlling of Chemical Inhibitor and Biocide Injection by using Corrosion Rate Monitoring Data.


• Evaluation of Pipeline and Equipment Damage in accordance with Root Cause Failure Analysis


• Development of Specific Pipeline Integrity Management System by using Internal Corrosion Rate Monitoring Data

 

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

• USD 1050,-/ Person,


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


• Discount 10 % if register before 17 June 2009


• Registration deadline a weeks before training held.

 

Minimum Participant

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

SUCKER ROAD PUMPING

SUCKER ROAD PUMPING

Bali | 7-10 July 2009 |USD 1050,-

Designing a sucker rod pump installation is not an exact science; it is mostly an art. But it is a talent which can be easily acquired if care and attention are paid to what the well is telling us, and what we want to do with the well. The well conditions vary from one well to other, but the basic information required for a design does not. What we require from a particular well must, of course, be within the limits of the well in question.

To summarize the state of the art of sucker rod pump technology. It included the example problems to illustrate the use of various theoretical solutions; it also listed an overview of conventional well productivity and Inflow Performance Relationship (IPR) technology and is general introduction to the latest methods of production optimization using sucker rod pump technology.

AUDIENCE:

This course is mainly directed to the practicing professionals who make engineering calculations and decision on sucker rod pump application. For managers, the course helps to review the present state of the art. It also outlined some of new method in artificial technology that exist today. These gaps in technology will be useful for research engineers and research professionals to determine the areas of future research.

WHAT YOU WILL LEARN:

I.            INTRODUCTION

II.          ARTIFICIAL LIFT METHOD

III.        DETERMINING THE BEST METHOD FOR THE WELL

IV.       THE SUCKER ROD PUMP LIFTING METHOD

V.         SUCKER ROD PUMP CLASSIFICATIONS

VI.       DESIGNING THE INSTALLATION

VII.  INSTALLATION, OPERATING AND TROUBLE SHOOTING THE PUMP

INSTRUCTOR :

Dr. Ir. Sudjati Rachmat, DEA graduated from Petroleum Engineering Department of ITB in 1979 and got his Doctorate Degree with honored in 1987 from Ecole Centrale de Lyon I, France . The topic of his thesis is Modelisation Numerique d'Ecoulements Polyphasiques en Milieux Poreux Application au Cas de Calcul des Champs de Pressions et de Saturations dans un Gisement de Petrole.

For the time being, he became a lecturer in Petroleum Engineering Department of ITB. His subjects are Analysis and Numerical Method, Engineering Mathematics, Computer Simulation, Flu id Mechanic, Artificial Intelligence for Petroleum Engineering.

He also gave many courses to the community, such as: basic reservoir engineering and reservoir simulation, basic production engineering, down hole well testing, statistic and numerical method for petroleum engineering, basic log interpretation, etc. He is a member of some profession organization such as: IATMI, SPE/EIME, IMA, HAIAI, FPS-USA, INAGA, and IGA.

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.


• 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

• USD 1050,-/ Person, discount 10 % if register three or more persons from one company.


• Discount 10 % if register before 10 June 2009


• Registration deadline a weeks before training held.

Minimum Participant

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

SUCKER ROAD PUMPING

SUCKER ROAD PUMPING

Bali  | 7-10 July 2009 | USD 1050,-

 

Designing a sucker rod pump installation is not an exact science; it is mostly an art. But it is a talent which can be easily acquired if care and attention are paid to what the well is telling us, and what we want to do with the well. The well conditions vary from one well to other, but the basic information required for a design does not. What we require from a particular well must, of course, be within the limits of the well in question.

To summarize the state of the art of sucker rod pump technology. It included the example problems to illustrate the use of various theoretical solutions; it also listed an overview of conventional well productivity and Inflow Performance Relationship (IPR) technology and is general introduction to the latest methods of production optimization using sucker rod pump technology.

 

AUDIENCE:

This course is mainly directed to the practicing professionals who make engineering calculations and decision on sucker rod pump application. For managers, the course helps to review the present state of the art. It also outlined some of new method in artificial technology that exist today. These gaps in technology will be useful for research engineers and research professionals to determine the areas of future research.

 

WHAT YOU WILL LEARN:

I.            INTRODUCTION

II.          ARTIFICIAL LIFT METHOD

III.        DETERMINING THE BEST METHOD FOR THE WELL

IV.       THE SUCKER ROD PUMP LIFTING METHOD

V.         SUCKER ROD PUMP CLASSIFICATIONS

VI.       DESIGNING THE INSTALLATION

VII.  INSTALLATION, OPERATING AND TROUBLE SHOOTING THE PUMP

 

INSTRUCTOR :

Dr. Ir. Sudjati Rachmat, DEA graduated from Petroleum Engineering Department of ITB in 1979 and got his Doctorate Degree with honored in 1987 from Ecole Centrale de Lyon I, France . The topic of his thesis is Modelisation Numerique d'Ecoulements Polyphasiques en Milieux Poreux Application au Cas de Calcul des Champs de Pressions et de Saturations dans un Gisement de Petrole.

For the time being, he became a lecturer in Petroleum Engineering Department of ITB. His subjects are Analysis and Numerical Method, Engineering Mathematics, Computer Simulation, Flu id Mechanic, Artificial Intelligence for Petroleum Engineering.

He also gave many courses to the community, such as: basic reservoir engineering and reservoir simulation, basic production engineering, down hole well testing, statistic and numerical method for petroleum engineering, basic log interpretation, etc. He is a member of some profession organization such as: IATMI, SPE/EIME, IMA, HAIAI, FPS-USA, INAGA, and IGA.

 

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.


• 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

• USD 1050,-/ Person, discount 10 % if register three or more persons from one company.


• Registration deadline a weeks before training held.


• Minimum Participant


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