TRAINING APPLIED STATISTICAL PROCESS CONTROL BEST PRACTICES
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SILABUS TRAINING APPLIED STATISTICAL PROCESS CONTROL BEST PRACTICES

Deskripsi Training Applied Statistical Process Control Best Practices

training applied statistical process control di indonesiaApplied Statistics introduces the students to the use of basic statistical concepts in agribusiness applications. This course emphasizes topics on sampling and non-parametric methods which isn’t covered in Basic Statistics course. In sampling topic, students learn to plan, execute, and evaluate of sample surveys.

The sampling topic covers: simple random, stratified, and cluster sampling; multistage and systematic sampling; questionnaire design; cost functions; and optimal designs. The student ezs must organize the team, perform, and analyse actual sample surveys.

Nonparametric topic covers concepts of parametric and nonparametric statistics, hypothesis tests, ranks, order statistics, classical distribution-free tests. In the end of the course, the students will conduct a real life survey, analyse collected data and present the survey result.

The purpose of this course is to deliver the knowledge and understanding of the key elements of statistocal business process that are fundamental to commercial organization.

Menimbang cukup kompleknya materi pelatihan Applied Statistical Process Control Best Practices ini bagi peserta, dibutuhkan training provider yang berpengalaman di bidangnya agar tidak membuat peserta tidak menjadi cepat bosan dan jenuh dalam mendalami bidang teknik ini.

Tujuan Training Applied Statistical Process Control Best Practices

Dengan mengikuti pelatihan Applied Statistical Process Control Best Practices Peserta dapat berbagi pengetahuan / sharing knowledge mengenai Applied Statistical Process Control Best Practices dengan peserta dari perusahaan lain yang bergerak di bidang Engineering

  • Inderstand the purposeof stastistical process control
  • Be able to set up and use chats for means, ranges, standard deviations, and proportion non-conforming
  • Be able to use and approriate methode to estimate short term standard deviation
  • Be able to interpretthe variability of a process in relation to the required tolerances

Materi Training Applied Statistical Process Control Best Practices

Day 1

1. Introduction to Statistical Analysis
  • Example case study in SPSS
  • Objective of statistical analyses

2. Exploratory Data Analysis

  • Why data exploration is essential in statistical inference
  • Informal descriptions of data – numerical and visual summaries

3. Introduction to Hypothesis Testing

  • Translating scientific questions into statistical hypotheses
  • Formulating and testing one sample hypotheses
  • Interpreting the output of a hypothesis test – p-values and errors

Day-2

4. Choosing an Appropriate Statistical Test

  • One sample case study using t-test and Wilcoxon signed rank test
  • Parametric or Non-parametric tests

5. Comparing Two Populations

  • Extending one population hypotheses to two populations
  • Two sample t-test and Wilcoxon rank sum test
  • Paired t-test and Wilcoxon signed rank test
  • Practice Session

Day-3

6. Exercise 1: Using SPSS

7. Exercise 2. Importing data into SPSS

Day-4

8. • Exercise 3. Numerical and visual data summaries

9. • Exercise 4. One sample t-test

10. • Exercise 5. One sample t-test, Wilcoxon signed rank test

Day-5

11. Exercise 6. Which test and why?

12. Exercise 7. Two sample t-test or Wilcoxon rank sum test

13. Exercise 8. Paired t-test and Wilcoxon signed rank test

Day-6

14. Data interpretation & Reporting

15. Course Review & Evaluation

16. Studi Kasus / Praktek pemecahan masalah Applied Statistical Process Control Best Practices

Metode Training Applied Statistical Process Control Best Practices

Metode Training Applied Statistical Process Control Best Practices dapat menggunakan fasilitas training zoom atau training online, dan bisa juga training offline atau training tatap muka.

Peserta Training Applied Statistical Process Control Best Practices

Peserta yang dapat mengikuti training Applied Statistical Process Control Best Practices ini adalah yang ingin mendalami bidang Engineering.

This program is intended for Personal in any level in Production, Inventory, Logistics Maintenance, and Quality Manager and supervisor

Instructor Training Applied Statistical Process Control Best Practices

Instruktur yang berkompeten di bidang Engineering

DR. Akhmad Sodikin, SE, MM, M.Si

He completed his doctorate in Economics from the Padjajaran University. He is an expert on research and capital market analysts who mastered various research methodologies. Actively involved as a trainer and consultant in the activities of research and training projects related to competence

Jadwal Berdiklat Training 2024 :

  • Batch 1 : 6 – 7 Januari 2025 || 15 – 16 Januari 2025 || 22 – 23 Januari 2025
  • Batch 2 : 3 – 4 Februari 2025 || 12 – 13 Februari 2025 || 27 – 28 Februari 2025
  • Batch 3 : 5 – 6 Maret 2025 || 10 – 11 Maret 2025 || 19 – 20 Maret 2025
  • Batch 4 : 14 – 15 April 2025 || 23 – 24 April 2025
  • Batch 5 : 5 – 6 Mei 2025 || 14 – 15 Mei 2025 || 26 – 27 Mei 2025
  • Batch 6 : 2 – 3 Juni 2025 || 11 – 12 Juni 2025 || 18 – 19 Juni 2025 || 23 – 24 Juni 2025
  • Batch 7 : 2 – 3 Juli 2025 || 16 – 17 Juli 2025 || 30 – 31 Juli 2025
  • Batch 8 : 4 – 5 Agustus 2025 || 13 – 14 Agustus 2025 || 20 – 21 Agustus 2025 || 29 – 30 Agustus 2025
  • Batch 9 : 3 – 4 September 2025 || 10 – 11 September 2025 || 15 – 16 September 2025 || 24 – 25 September 2025
  • Batch 10 : 8 – 9 Oktober 2025 || 13 – 14 Oktober 2025 || 22 – 23 Oktober 2025
  • Batch 11 : 3 – 4 November 2025 || 12 – 13 November 2025 || 19 – 20 November 2025 || 26 – 27 November 2025
  • Batch 12 : 1 – 2 Desember 2025 || 10 – 11 Desember 2025 || 17 – 18 Desember 2025 || 26 – 27 Desember 2025

 

Ayo, jangan ragu lagi! Daftarkan segera dengan chat melalui pesan Whatsapp (Fast Respons). Dapatkan pengalaman terbaik dari tim trainer yang berkompeten.
Harga setiap kota akan berbeda serta semakin banyak peserta dalam 1 instransi yang sama, pun akan lebih murah. Untuk informasi lebih lanjut hubungi kami segera.

Investasi dan Lokasi pelatihan:

  • Yogyakarta
  • Jakarta
  • Bandung
  • Bali
  • Surabaya

Catatan : Apabila perusahaan membutuhkan paket in house training, anggaran investasi pelatihan dapat menyesuaikan dengan anggaran perusahaan.

Fasilitas :

  • Module / Handout
  • Sertifikat
  • FREE Bag or bagpackers (Tas Training)
  • Training Kit (Dokumentasi photo, Blocknote, ATK, etc)
  • 2xCoffe Break & 1 Lunch, Dinner
  • FREE Souvenir Exclusive
  • Training room full AC and Multimedia

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clip_image001[6] Below are descriptions & courses content:

SILABUS TRAINING GENERATOR EXCITATION: MAINTENANCE AND TROUBLESHOOTING

DESCRIPTION

Generator excitation is a proven excitation system solution offering enhanced performance, protection, and life extension across a broad range of generator sizes and manufacturers. The system has applied to new and retrofit applications on gas, steam, and hydro turbine driven generators worldwide.

COURSE CONTENT

  1. Excitation fundamentals
  2. Generator parameters
  3. Excitation system on line and excitation drawings
  4. Manual and automatic regulation
  5. Control and protective circuits
  6. Digital excitation system overview
  7. Analog and digital signal training
  8. Online and offline troubleshooting maintenance
  9. Digital generator protection

WHO SHOULD ATTEND

  • Participants should possess a two-year degree in electronics or equivalent work experience
  • Participants are encouraged to research their turbine-generator equipment and documentation, and to bring a copy of their system elementary drawing with them to class.

 

GENERREX EXCITATION

Operation, Maintenance & Testing

DESCRIPTION

This course improves participants’ ability to operate, adjust, maintain and test the Generrex excitation system for large AC generators. Operational safety precautions are detailed for personnel and equipment during troubleshooting and maintenance activities.

COURSE CONTENT

  1. Machine fundamentals
  2. AC system fundamentals

3. Generrex Excitation System

  1. System overview
  2. Principles of operation
  3. Systems prints
  4. Data forms
  5. Calibration procedures

WHO SHOULD ATTEND

· Participants should possess a two-year degree in electronics or equivalent work experience

· Participants are encouraged to research their turbine-generator equipment and documentation, and to bring a copy of their system elementary drawing with them to class.

ALTERREX EXCITATION

Operation, Maintenance & Testing

DESCRIPTION

This course improves participants’ ability to operate, maintain and test the Alterrex system.

COURSE CONTENT

1. Excitation Systems Fundamentals

  • Machine theory
  • Energy and vectors
  • Excitation system parameters
  • Power conversion

2. Principles of Operation

  • Exciter
  • Automatic and manual regulator functions
  • Protective functions
  • Generator control panel and exciter alarm interface

3. System Test and Calibration Procedures

  • Shutdown with simulated source, load and feedback
  • Offline
  • Online
  • Proper SCR firing
  • Protective function certification

4. Maintenance and Troubleshooting Procedures

  • System cleaning
  • Setting generator and exciter brush holders
  • Troubleshooting analysis and procedures
  • VT/CT polarities

WHO SHOULD ATTEND

  • Participants should possess a two-year degree in electronics or equivalent work experience
  • Participants are encouraged to research their turbine-generator equipment and documentation, and to bring a copy of their system elementary drawing with them to class.

TRAINING STATIC VOLTAGE REGULATOR (SVR) EXCITATION SYSTEMS

Design, Operation & Maintenance

DESCRIPTION

This course familiarizes students with the design, operation and maintenance of the static voltage regulator excitation system. Classroom discussions are supplemented with laboratory sessions or classroom exercises to allow direct application of the class material.

COURSE CONTENT

  1. Generator excitation system online and offline fundamentals
  2. Automatic start-up and shutdown
  3. Generator parameters
  4. System components
  5. Protection circuits and settings including alarms, trips and corrective actions required
  6. Manual and automatic regulation
  7. Calibration and troubleshooting

WHO SHOULD ATTEND

  • Engineer and Operators, Operation, Maintenance and Field Service Personnel.
  • Participants should possess a two-year degree in electronics or equivalent work experience
  • Participants are encouraged to research their turbine-generator equipment and documentation, and to bring a copy of their system elementary drawing with them to class.

TRAINING POTENTIAL SOURCE EXCITATION SYSTEM (BUSFED)

Design, Operation & Maintenance

DESCRIPTION

This course familiarizes maintenance technicians with the design, operation and maintenance of the potential source system in use on many gas turbine-generators and some steam turbine-generators. Classroom discussions are supplemented by laboratory sessions to allow direct application of the lecture material. Students should possess a two-year degree in electronics or equivalent work experience. Students are encouraged to bring a copy of their system’s elementary drawings with them to class.

COURSE CONTENT

1. Fundamentals of generator operation

2. System components and function

3. System operation:

  • Offline
  • Online
  • Parallel operation
  • Protection

4. Maintenance, troubleshooting and system calibration

WHO SHOULD ATTEND

Engineers and Operators, Operation, Maintenance and Field Service Personnel. Students should possess a two-year degree in electronics or equivalent work experience

TRAINING PROFITABLE STEAM TURBINE OPERATION AND MAINTENANCE

DESCRIPTION

Profitable Steam Turbine Operation and Maintenance is intended for operating and maintenance personnel who need an overall understanding of the complete steam turbine system. It is an interactive study of the fundamental systems of the steam turbine and will stress performance and maintenance issues affecting the efficiency and reliability of steam turbines. Familiarity with basic operating parameters and mechanical concepts will be helpful. Case studies will be presented to illustrate real world problems and students will work in teams to solve troubleshooting, operating and maintenance issues. Participants may submit questions in advance regarding troubleshooting, operating and maintenance issues faced in their jobs.

COURSE CONTENT

  1. Steam systems and operation
  2.  Seals and controlling leakage
  3. Diaphragms-construction, supports, and seals
  4. Seals, gland seal system, shaft seals, tip seals
  5. Exhaust hood-diffuser, configurations
  6. Bearings-journal and thrust applications
  7. Water removal-catchers, bleeds, drains
  8. Steam turbine maintenance
  9. Lube and oil systems
  10. Control, start-up and protection systems
  11. Condensation, contamination and corrosion
  12. Upgrades, modifications and overhaul topics

WHO SHOULD ATTEND

Plant Managers and Operators, Operation, Maintenance and Field Service Personnel, Insurance and Risk Mitigation Companies and EPC Contractors who are involved with the operation, maintenance and management of petrochemical, industrial power, power generation and the oil and gas industries.

BOILER FEEDPUMP TURBINE OPERATION AND MAINTENANCE

Mechanical Drive Turbine Components & Systems

DESCRIPTION

This course enables operators, engineers and competent technicians to operate and maintain a boiler feed pump turbine properly. The aim of this course is to provide personnel with a comprehensive background in mechanical drive turbine components and systems. This fundamental knowledge allows participants to approach operations and maintenance activities with confidence.

COURSE CONTENT

1. Turbine Operating Principles

2. Turbine Components

  • Stationary parts, rotors, bearings and journals, couplings (and alignment checks), turning gear, steam control valves and protective devices
  • Front standard
  • Overview of components and systems

3. Turbine Controls and Protective Devices

4. Turbine Support Systems

  • High pressure hydraulic, control, steam seal and lubricating oil

5. Turbine Operations

  • Start-up, loading and shutdown

6. Turbine Inspection and Maintenance

  • Periodic inspections, lubrication maintenance tests and use of special tools

WHO SHOULD ATTEND

Plant Managers and Operators, Operation, Maintenance and Field Service Personnel, Insurance and Risk Mitigation Companies and EPC Contractors who are involved with the operation, maintenance and management of petrochemical, industrial power, power generation and the oil and gas industries.

BOILER FEEDPUMP TURBINE OPERATIONS

Approach Operation Activities with Confidence

DESCRIPTION

This course enables engineers and competent technicians to operate a boiler feedpump turbine properly. The aim of this course is to provide personnel with a comprehensive background in mechanical drive turbine components, systems and controls. This fundamental knowledge allows participants to approach operation activities with confidence.

COURSE CONTENT

1. Turbine Operating Principles

2. Turbine Components

  • Stationary parts, rotors, bearings and journals, couplings, turning gear, steam control valves and protective devices

3. Front Standard

  • Overview of components and systems

4. Turbine Controls

  • Description
  • Programming
  • Operation

5. Turbine Support Systems

  • High pressure hydraulic, control, steam seal and lubricating oil

6. Turbine Operations

  • Start-up, loading and shutdown

 

WHO SHOULD ATTEND

Plant Managers and Operators, Operation, Maintenance and Field Service Personnel, Insurance and Risk Mitigation Companies and EPC Contractors who are involved with the operation, maintenance and management of petrochemical, industrial power, power generation and the oil and gas industries.

COMBINED CYCLE POWER PLANTS

DESCRIPTION

This course deals with the design and general operation and maintenance characteristics of a combined cycle power plant with emphasis on the major Components.  Overall design and operation concepts along with basic operation and maintenance problems for the various pieces of Turbo Machinery (Gas Turbines, Steam Turbines, and Boiler Feed Water Pumps) are discussed.  Discussions and design parameters of the Heat Recovery and Steam Generating (HRSG) systems the feed water heaters and the Condensers are also included.  Other topics covered are bearings and seals, lubrication systems, instrumentation, vibration analysis, flexible couplings aero-thermal performance and on-line condition monitoring of the Power Plant.  An emphasis is placed on providing practical information with minimal theory. Discussion of problems experienced is encouraged.

BENEFIT OF ATTENDING

  • Improved job performance and decision-making capabilities where turbo machinery is involved.
  • Integrated understanding of practical turbo machinery design, operation and maintenance requirements.
  • Unbiased technology transfer between participants

COURSE CONTENT

  1. Overview of the major Plant Equipment
  2. Major Equipment Gas Turbine Technology
  3. Axial Flow Compressors and Turbines
  4. Combustors, Materials Coatings and Fuels
  5. Fuels
  6. Steam Turbine Technology
  7. HRSG Technology
  8. Condensers
  9. Feed Water Pumps
  10. Power Plant Performance
  11. Maintenance

WHO SHOULD ATTEND

This course is aimed at engineers and operational personnel who need a broad-based introduction to practical operation and design considerations of a major combined cycle Power Plant.