Training Course Seminar Workshop Provider

INTRODUCTION

Pumps and compressors are generally critical machines in any production process, and hence it is vital that maintenance is most effective for these units. This course aims to provide delegates with a comprehensive understanding of how to use a combined predictive and preventive maintenance approach to achieve maximum reliability and greatest understanding of any deterioration that may occur.

WHO SHOULD ATTEND

Engineers, supervisory and technical staff involved in the monitoring, predictive maintenance and diagnostics of pumps and compressors.

PROGRAM OBJECTIVES

The program assumes familiarity with the design and construction of pumps and compressors. From this starting point it adopts an analytical approach to understanding the failure of all types of pumps and compressors.

From a component-by-component perspective, the program investigates the root causes of failure, and relates these to operating conditions and process parameters. Design, installation, lubrication and wear related failure mechanisms are identified and a detailed understanding of the troubleshooting and diagnostic methods needed to detect and identify these is developed.

The program provides participants with the knowledge needed to be effective in the inspection, monitoring and diagnostics of pumps and compressors, with emphasis placed upon the importance of a combined condition monitoring and strip-down inspection approach to maintenance.

TRAINING METHODOLOGY

The program is delivered in a combination of lecture style and computer-based training. In addition, a significant amount of time is set aside for small working group activity when addressing case study problems. Extensive use is made of case study material to underline the key aspects of the course and to give the delegates exposure to current best practice.

PROGRAM OUTLINE

DAY — 1

Friction, lubrication and wear mechanisms. Adhesive wear, abrasive wear, fatigue and fretting Machinery life cycles Mechanical issues, balancing and alignment Statistical reliability analysis

DAY — 2

Reliability models Root cause of, symptoms and detection mechanisms for imbalance Root cause of, symptoms and detection mechanisms for looseness Root cause of, symptoms and detection mechanisms for misalignment Root cause of, symptoms and detection mechanisms for gear problems Root cause of, symptoms and detection mechanisms for bearing problems Cavitation, causes and prevention

DAY — 3

Anti-friction bearings: types, lifetime, mounting, applications, related problems Plain and pad bearings, thrust bearings: operation, maintenance, incidents Mechanical seals, types, operation, related problems Other seals for positive displacement pumps and reciprocating compressors Performing a balance

DAY — 4

Vibration monitoring Overall and spectral measurements Vibration limits Introduction to spectrum analysis Lubricant monitoring Shape, size, amount, chemical composition of debris Analytical techniques

DAY — 5

The role of condition monitoring in pump and compressor maintenance Diagnostic methods Capabilities and limitations of condition monitoring, and the need for a combined approach The importance of plant inspection Measurement devices, and what to monitor and where

Pumps & Compressors Predictive Maintenance & Diagnostics

Instructor Ir. I Nengah Diasta M.Eng

Schedule May 24-28, 2010 5 days

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

COURSE INTRODUCTION

Life Cycle Costing (LCC) also called Whole Life Costing is an economic assessment of an item, system or facility, considering all the significant costs of ownership over its economic life, expressed in terms of equivalent dollars/euros. LCC is important because the visible costs of any acquisition/purchase represent only a small proportion of the total cost of ownership. Another important reason for LCC is due to a strong relationship between operation and maintenance costs and the functionality and reliability of the item. Therefore, the application of LCC requires a sufficient engineering knowledge.

LCC itself is a structured approach that addresses all elements of ownership costs in relation with the functionality and reliability performance of the item. The results of an LCC analysis, one of them is a cost profile of the product or service over its anticipated life-span, can be used to assist management in the decision-making process where some options exist. Major area of LCC applications are in hardware acquisition process, modification of hardware and software, and in reduction of operation and maintenance costs.

LCC consists of Life Cycle Cost model development and the Life Cycle Cost model application for each option. The primary activities of the Life Cycle Cost model development are the Cost Breakdown Structure (CBS) development and the selection of cost component estimation method. The output of LCC is a Life Cycle Cost estimate, including its distribution on a time scale, cost drivers, sensitivity of the estimate to particular parameters and the risk due to uncertainty of design parameters.

HOW YOU CAN BENEFIT FROM THIS COURSE

To improve costs awareness. Application of LCC will improve awareness of the management and engineers on the factors that drive cost and the resources required by the item, so that cost reduction program is possible. Whole life costs evaluation. LCC allow evaluation of competing options on the basis of whole life costs. Trade-off performance against cost. When assessing options, cost is not the only factor to be considered. There are other factors such as the compliance to the specified performances and the levels of service to be provided. Maximize revenue. By applying LCC, the operation and maintenance costs are reduced without scarifying the performance of the production equipment through analysis of the performance parameters and cost drivers. Specific for engineers, this course will describe the relationship between the functional and reliability performances and costs. This makes possible to identify specifications which resulting in high Life Cycle Cost. Understand the procedure to implement LCC including the development of Life Cycle Cost model for various applications. Understand the theoretical background of time value of money and risk analysis as well as their impact on decision making process.

WHO SHOULD ATTEND

Engineers (Engineering, Reliability, Maintenance) Purchasing engineer/manager Project Engineer Process & Manufacturing Engineer Maintenance Manager/ Supervisor Other professional who wants to have a better understanding and take advantage from the course.

COURSE CONTENTS

Why LCC LCC and system effectiveness Various economic evaluation LCC procedure Cost Breakdown Structure (CBS) Cost Estimation Methods Time value of money Risk analysis Cost drivers identification Area of LCC applications LCC model development LCC for hardware acquisition LCC for hardware modification LCC for maintenance optimization Instructor DR. Ir. Edy Suwondo

Schedule May 17-20, 2010 4 days

Venue Jayakarta Hotel Bandung

Tuition Fee Rp. 7.250.000,- 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) 2169150, 9399988 (0251) 7534984 training@focustraco.com

OBJECTIVE

Refresh the knowledge of the participants on fluid mechanic and pump characteristics Understand centrifugal-pump basic-system design, selection, operation, treatment and installation Learn the critical symptoms of pump operation Enhance the knowledge on pump sealing and rolling elements Gain additional knowledge on inspection and maintenance of centrifugal pumps Knowledge sharing among the participants and instructors

INTRODUCTION

Assuming that a plant is a body of human being, pumps are the "heart" of the body. Those play very important and vital roles to flow the "blood" of a plant. In every plant or production operation system, we find pumps. However, unlike bolts and nuts, neither industry nor production-operation management will put pumps in stock. It is NOT cost effective and is very uncommon practice to put a complete set of pump in the warehouse stock due to financial reasons.

Therefore, properly specifying, selecting, installing, operating and maintaining pumps are very significant and are very important steps to have "trouble free" during the entire life of the plant operation. Thus, proper maintenance and operation is also the key to reduce the entire cost of the plant and production operation system.

This five-day training will provide a comprehensive knowledge and understanding of pump selection, installation, operation, and maintenance program. The training will concentrate in centrifugal pump as they are the most common one used in the industries and day life.

FUTURING THE FOLLOWING SUBJECT

Basic Theory of Fluid Mechanics

Physical properties of incompressible fluid Static fluid Basic flow of incompressible fluid Basic fluid dynamic Basic fluid energy process

Basic Theory of Centrifugal Pump and Installation

Head or energy requirement of the installation The principle of energy transfer in centrifugal pump Characteristic of pump and its installation (Capacity, Head, and Efficiency) Combination of pump and installation Pump specification Pump selection based on capacity, head, and efficiency Pump arrangement; series and parallel Suction analysis (Cavitations and NPSH)

Basic Theory of Reciprocating Pump and Installation

Type of reciprocating pumps Comparison of centrifugal and reciprocating pumps. Discharge of a reciprocating pump. Slip of the pump. Power required driving a reciprocating pump. Indicator diagram of a reciprocating pump. Variation of pressure in the suction and delivery pipes due to acceleration of the piston. Effect of the acceleration of the piston on the indicator diagram. Maximum speed of the rotating crank. Effect of friction in the suction and delivery pipes, on the indicator diagram. Effect of fitting air vessels on the suction and delivery pipes of a reciprocating pump. Maximum speed of rotating crank with air vessels. Work done against friction with/without and air vessels. Flow of water into and from the air vessel, fitted to the delivery pipe of a reciprocating pump. Multiple cylinder pumps.

Critical Symptoms of Pump Operation

Cavitations Water hammer Over pressure Negative pressure Surging Pressure fluctuation

Operation

Procedure to run and stop the pump Controlling the capacity Hazard prevention Automatic operation Centrifugal pump application General notes on pre-starting checks General notes on pump lubrication General notes on pump operation General notes on pump maintenance Process pump bearing

Centrifugal Pump Sealing

Seals principles and practice Pump shaft sealing Mechanical seals in the process industry

Rolling Element Bearings in Centrifugal Pump

Principles of centrifugal pumps Angular contact ball bearing in centrifugal pump Double row angular contact ball bearing

Selecting Multiphase Pumps

Inspection and Maintenance of Pump

Preliminary inspection Operating condition inspection Spare parts handling Inspection (visual, dimensional and non-destructive test) Mechanical and electrical run-out Dynamic balancing per API-610 Rotor assembly Trouble shooting

Practice of centrifugal pump performance measurement at Fluid Lab. Mechanical Engineering ITB

WHO SHOULD ATTEND

Fresh Mechanical or Rotating Engineers, Engineering and Construction Engineers, Project Engineer Production Operators, Technicians, Asset Management Team members, Maintenance and Operation Personnel who are responsible for the Selection, Sizing, Specifying, Installation, Testing, And Maintenance Of pumping system. Experienced professionals who want to refresh or broaden their understanding of pumps Professionals with little to moderate production facility design and or production operation back ground Other professionals who want better understanding of the subject Instructor Ir. I Nengah Diasta M.Eng

Schedule May 17-21, 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

INTRODUCTION

Pembekalan bagi para peserta pelatihan dengan pengetahuan atau kecakapan yang terkait dengan suatu mesin, akan menambah pemahaman dan meningkatan kemampuan dalam penanganan maslah-masalah dilapangan pada mesin yang bersangkutan, sehingga pada akhirnya akan dapat meningkatkan kinerja perusahaan melalui pengembangan kemampuan Sumber Daya Manuasia yang ada.

COURSE OBJECTIVES

Para peserta pelatihan diharapkan dapat memperoleh bekal pengetahuan yang memadai setelah mengikuti pelatihan ini, beberapa diantarnya terpenting adalah:

Memahami konstruksi dan prinsip kerja pompa-pompa rendam yang digerakkan motor listrik (Electric Submersible Pumps, ESP) Memahami perbedaan dan kesamaan ESP dengan Non-ESP Memahami parameter-parameter operasi Mampu mengevaluasi unjuk kerja pompa Mampu menangani kelainan operasi (trouble) Memahami dan mampu melaksanakan perawatan Mampu meramalkan unjuk kerja pompa termodifikasi

COURSE OUTLINE

Komponen ESP dan fungsinya: impeller, shaft, suction, stage and discharge casing, wearing, shaft coupling. Radial dan Mixed Flow ESP Komponen-komponen pembantu: Cable guard, valve, diffuser, bearing, strainer Parameter Operasi: head, kapasitas aliran dan prestasi pompa Instalasi ESP: head static dan du=inamik (head mayor dan minor) ESP dan Installation Load Matching Point Submersible motor and electric system Operation Troubleshooting: phenomena, causes and remedies Maintenance: routine, terjadual, break-down Materials Studi Kasus

WHO SHOULD ATTEND

Maintenance Engineer/ Superintendent/ Supervisor Rotating Engineer/ Superintendent/ Supervisor Power Plant Engineer/ Superintendent/ Supervisor Manufacturing Manager Everybody who wants to add the knowledge and gain benefits from this course. Instructor Ir. Pawito Merto Sontowiro, M.Sc Schedule May 4-7, 2010 4 days Venue Papandayan Hotel Bandung Tuition Fee Rp. 7.250.000,-   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) 2169150, 9399988 (0251) 7534984 training@focustraco.com

COURSE OBJECTIVES

The purpose of this course is to introduce personnel to the turbo machinery package, explain system functions and interface, introduce proper operation procedures, and acquaint the student with basic maintenance procedures.

At the conclusion of this course the student should have a basic understanding of turbine engine theory, be familiar with the Solar turbine package and its components, understand satisfactory operation of the package, and be aware of routine maintenance procedures.

This course does not prepare the student to accomplish advanced maintenance and troubleshooting functions. Solar turbine package are built to exacting specifications and more extensive training is required before a serviceman is qualified to perform major repairs and adjustments.

COURSE CONTENTS

Introduction and General Description Turbine Engine Pneumatic and Hydraulic Start System Air System Gas Fuel System Lube Oil System The Gas Boost Compressor Turbine Control System Turbotronic System Operating Procedures Performance Analysis Safety Requirement Preventive Maintenance Corrective Maintenance Visit to Saturn Gas Turbine Test Cell and Repair Facility at PT. TCS Bandung

WHO SHOULD ATTEND

The following selected participants should attend this course:

Maintenance Engineer/ Superintendent/ Supervisor Rotating Engineer/ Superintendent/Supervisor Power Plant Engineer/ Superintendent / Supervisor. Everybody who wants to add knowledge and interest in the above subject Instructor Ir. Deddy Nugraha

Schedule April 26-29, 2010 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) 2169150, 9399988 (0251) 7534984 training@focustraco.com

COURSE OBJECTIVE

Be able to calculate, analyze both stress and strength in pressure vessel design Gain knowledge of proper material selection for pressure vessel application Gain knowledge of welding code standard, which includes inspection, and testing Gain better skill to operate, maintain, and repair of pressure vessel Perform vessel inspection & maintenance per the applicable Codes and Standards Familiar with instrumentation and control system commonly associated with vessel operation

COURSE OUTLINE

Stress and Strength Analysis Calculation Code

Tube Tube-Sheet Shell head: Spherical; Hemispherical; Dished; Ellipsoidal; Torispherical; Conical; Toriconical Shell joint with head Shell joint with bracing and staying Ligament on drum and shell Openings Reinforcement on shell and flat plate Bolt on head Wind load Earth quake load Support structure Proof Test and Bursting Test

Materials

Material characteristics Heat-treatment effect Effect of alloy additive ASME Material Code Type of material and its selection

Welding

Type of welding ASME Welding Code Welding Procedure Specification (WPS) Post Weld Heat Treatment (PWHT) Quality control AWS Classification Weld joint efficiency Welding defect and repair

NDT (Non Destructive Testing)

Welding Inspection NDT Selection Visual Radiography: Limitation; Code of weld joint radiography testing Magnetic particle Dye Penetrant Ultrasonic Eddy Current Acoustic Emission Destructive Testing

Operational Aspects

Process characteristic consideration Start-up procedure Observation and shut- down

Instrumentation

Code of instrumentation for: Pressure gauge; Temperature gauge; Flow meter; Level metering; Density Control: Manual, regulating and control valve; Sensor; Transmitter; Actuator and control ASME Code for control valve: Valve material; Valve selection; Installation; Setting and test Safety and Safety Devices: Alarm indicator, Interlocks; Hard restraints; Restraint of chemical reaction; Pressure relief valve; Pressure safety valve; ASME Code for safety valve; pressure and vacuum relief valve

Effect of Stress and Operating Condition on Pressure Vessel

Fatigue cracking Hydrogen embritlement Hydrogen embritlement of welds Crack due to welding Creep Corrosion Type of corrosion on pressure vessel Pitting Crevice Inter-granular Fatigue corrosion Stainless Steel corrosion Corrosion inhibitor

Inspection, Repair and Maintenance

Inspection: Inspection of internal and external physical data; Inspection preparation; Safety in performing internal inspection Inspection procedure Inspection interval NDT Hydro test Pneumatic test Leak test Stainless steel overlaid inspection and lined vessel Rotating roll inspection Low-pressure vessel inspection and heat exchanger Maintenance: Preventive maintenance high pressure plant; Predictive maintenance; Maintenance organization; Safety on weldment and cutting; Maintenance management; Maintenance supervision Repair: Pitting repair; Crack repair; Heat exchanger repair; Welding repair to stainless steel; Repair involving dissimilar metals; Management support of pressure vessel safety system

WHO SHOULD ATTEND

Engineer, supervisor, superintendent, and manager of power plant, process plant in refinery, petrochemical, marine, pulp & paper, sugar cane, palm oil Maintenance and Operation Engineer, Supervisor, Superintendent Design Engineer, Mechanical Engineer, Process Engineer Everybody who wants to take benefits from this course Instructor DR. Ir. Tri Wibowo, M.Sc Schedule April 5-9, 2010 5 days Venue Ibis Slipi Hotel Jakarta 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

LATAR BELAKANG

Para Engineer/ Teknisi perlu memiliki dasar pengetahuan tentang isolasi termal, fire proofing yang sangat penting untuk diaplikasikan dalam pekerjaannya di industri

OBJECTIVE

Memberikan pengetahuan dasar tentang isolasi thermal, fireproofing

OUTCOMES

Setelah mengikuti pelatihan ini ,peserta akan mampu melakukan analisis tentang isolasi, fire proofing serta mampu menpergunakan pengetahuannya dalam pekerjaannya

LINGKUP BAHASAN

Thermal insulation

Definisi /deskripsi umum isolasi thermal Jenis2 isolator dan sifat2nya Fungsi isolator Ketebalan optimum isolator Teknik pemasangan isolator Pemeliharaan Latihan dan diskusi

Fire proofing

Prinsip dasar fire proofing Jenis2 bahan fire proofing dan cara pemakaiannya/ penerapannya Standard NFPA Latihan dan diskusi

WHO SHOULD ATTEND

Design engineer Fabrication engineer Quality assurance personnel's Maintenance personnel's Purchasing personnel's Everyone who wish to broaden their knowledge on this course subject Instructor DR. Ir. Halim Abdurachim and Team

Schedule March 29-April 1, 2010 4 days

Venue Papandayan 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

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

OBJECTIVES

Improve Advance Vibration knowledge Detect The Mechanical Component Damage Prematurely Understand how to select and use instrumentation to measure vibration correctly

COURSE OUTLINE

1. Aspek Teknologi Perawatan Prediktif Berdasarkan Getaran Permesinan

Getaran & Kondisi mesin: Pengukuran sinyal getaran: Perangkat analysis sinyal getaran; Pengertian dasar Technology Perawatan; Metode Perawatan Konvensional; Metode Perawatan Predikitif, Pemantauan Periodik & Permanen, Parameter Pengukuran.

2. Karakteristik Getaran Kerusakan Mesin

Ketak seimbanagan: Bantalan Gelinding; Oil Whiri; Misalignment, Mechanical looseness (kekendoran) Roda Gigi; Blade & Vane; Resonansi; Motor Listrik

3. Metode Analisis Sinyal Getaran

Aspek praktis dan analisis; Memanfaatkan fasa untuk analisis; Jumblah dan selisish Frekwensi; Normalisasi kecepatan; Baseline spectrum; Tabel trouble getaran, Standar getaran; evaluasi criteria getaran mesin.

4. Analisis Data Domain Frekwensi

Konsep analisa data domain frekwensi; frekwensi dasar, Harmonik dan fasa; Analisis data auto power, Power spectrum dan cross power; Spectrum; Analisis dan cirri sinyal getaran dalam domain frekwensi.

5. Komputer Program Perawatan Prediktif

Program utama: Konsep Database; Penayangan data; Diagnosis menu tampilan

WHO SHOULD ATTEND

Rotating Equipment Engineer/ Superintendent/ Supervisor/ Technicians Condition Monitoring and Performance Engineer/ Superintendent/ Supervisor Mechanical Engineer Superintendent/ Supervisor Mill Right Engineer/ Superintendent/ Supervisor/ Technician Asset Management Team Members Maintenance Engineer/ Superintendent/ Supervisor Everybody who wants to broaden the knowledge or benefit from this course Instructor Prof. Dr. Ir. Indra Nurhadi Schedule February 8-12, 2010 5 days Venue Papandayan 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

ABOUT THE COURSE

Valves are, unquestionably, the most important part of any piping and pumping system because they direct the flow of fluids and regulate temperatures. Properly used and maintained, they can improve process efficiency and lower costs. It is wise to apply the basics of proper valve maintenance in ways that improve their life cycle and operating efficiency. Here are eight often-overlooked valve maintenance basics that can help you do just that.

Five years ago, the management at Vulcan Chemicals, a business group of Vulcan Materials Company, commissioned a study to identify components representing high annual maintenance costs. The outcome: instead of expected high-ticket items like heat exchangers and pumps gobbling up dollars, it was determined that valves and piping represented up to 80% of the maintenance budget's allocations in certain cost centers.

The study indicated annual potential savings of up to $500,000 in valve replacement costs alone if a program could be developed to guide purchasing and improve maintenance procedures.

COURSE OUTLINE

Control Valve:

Preface, Components and function of valve body, Type of valve according stem movement, Types of plug, Plug guiding, Characteristics flow of control valve, Valve and its characteristics, Design features and considerations

Actuator and Positioner :

Function and selection criteria of actuator, Diaphragm and piston actuator, Type of actuator action, Electrical actuator, Function, objective and location of positioner, Positioner action

Accessories for Control Valve:

Hand wheels or operator manual, Snubber, Limit switch, Supply pressure regulator, Booster relay, Fail safe system, On-off relays

Control Valve Selection:

Information for selection of control valve, Materials of control valve, Corrosion resistance material, Selection of flow characteristics,

Control Valve Sizing:

Preface, Flow capacity coefficient, Liquid service, Cavitations and flashing, Choked flow, Damages due to cavitations and flashing, How to avoid corrosion and cavitations on control valve, Cavitations index, Gas or steam service, Gas sizing universal, Sizing for mixing gas-liquid, Actuator sizing, Actuator for sliding and rotary stem valve, Valve sizing using software

Valve Problems and Maintenance Activities:

Noise in valve, Noise Control, Fluid behaviors, Problems in control valve and its solution, Maintenance problems of control valve, Troubleshooting analysis, Hands-on activities

Practical examples, problems solvings and sizing excersise using software

WHO SHOULD ATTEND

Instrumentation Engineers & Technicians Design and Process Engineers Operation, Piping, Mechanical and Plant Engineers Maintenance Technician and supervisors Service Engineers and supervisors Work over engineers and supervisors Asset Manager Team members Everybody who are responsible for selecting, purchasing, or repairing control valves. Instructor DR. Ir. Sutanto Hadisupadmo, MT, IPM

Schedule #1. May 25-29, 2009#2. July 27-31, 2009#3. October 19-23, 2009 5 days

Venue Papandayan Hotel Bandung

Tuition Fee  Rp. 8.450.000,-   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