TRAINING ONLINE GAS TURBINE OPERATION, MAINTENANCE AND TROUBLESHOOTING

TRAINING ONLINE GAS TURBINE OPERATION, MAINTENANCE AND TROUBLESHOOTING

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DESKRIPSI TRAINING WEBINAR PENGOPERASIAN, PEMELIHARAAN, DAN PEMECAHAN MASALAH TURBIN GAS

Rotordinamika, juga dikenal sebagai dinamika rotor, adalah cabang khusus mekanika terapan yang berkaitan dengan perilaku dan diagnosis struktur yang berputar. Biasanya digunakan untuk menganalisis perilaku struktur mulai dari mesin jet dan turbin uap hingga mesin otomatis dan penyimpanan disk komputer.

Vibrasi adalah gerakan menggetar yang berfungsi untuk merangsang atau untuk menenangkan urat syaraf serta menghilangkan kerut pada wajah. Pada pijatan ini gunakan ujung jari dan telapak tangan untuk menggetarkan kulit secara bergantian. Pijatan ini dapat pula menggunakan alat yang disebut vibrator.

Menimbang cukup kompleknya materi pelatihan Gas Turbine Operation, Maintenance And Troubleshooting 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 COMBUSTORS AND FUELS UNTUK PRAKERJA

Dengan mengikuti pelatihan Gas Turbine Operation, Maintenance And Troubleshooting Peserta dapat berbagi pengetahuan / sharing knowledge mengenai Gas Turbine Operation, Maintenance And Troubleshooting dengan peserta dari perusahaan lain yang bergerak di bidang Gas Turbine Operation, Maintenance And Troubleshooting

MATERI pelatihan Pengoperasian, Pemeliharaan, dan Pemecahan Masalah Turbin Gas online Zoom :

1. Overview of Gas Turbine Technology and Applications

Simple cycle Gas Turbines; cycle considerations; applications;

fuels and corrosion; emissions; combined cycle and cogeneration.

Overview of Developments

High temperature turbines, reheat turbines, close cycles, and

other developments.

2. Rotating Components and Matching

Brief overview of compressor and turbine design; component

characteristics and matching. Compressor surge and prevention.

3. Vibration and Rotor Dynamics

A review of vibration will include specific problems such as Blade

Vibration and Shaft Critical Speeds. Case histories will link

vibration with the fatigue failure of components. Rotor

instability, in its various forms, will be discussed. Vibration

spectrum analysis will be utilised for the solution of resonance,

instability, and gear and blade problems. Campbell (Spoke)

diagrams and Critical Speed maps will be derived and used for the

solution of vibration and Rotor Dynamic problems. The design and

performance of Squeeze-Film Damper Bearings for overcoming many of

the problems associated with machine unbalance and critical

speeds, will be covered.

4. Combustors and Fuels

A description of combustor types, chamber design, fuel

atomisation, ignition and combustor arrangements will be

presented. Also discussed will be the constraints imposed by fuels

on the design and operation of the hardware. The wide spectrum of

fuels, both gaseous and liquid, is examined. An overview of fuel

treatment and additives will be made.

5. Performance Analysis

Basic thermodynamic aspects of stationary Gas Turbines. Design and

off-design operation. Influence of site effects on typical

performance maps. Variable geometry compressor and turbine status.

6. Performance Analysis for Problem Detection

The fundamental concepts of performance analysis as a tool for

saving energy costs are discussed. Basic and applied

thermodynamics will be reviewed for gas turbines. The use of

performance data to pinpoint problem areas will be discussed.

Diagnostics related to fouling, nozzle erosion, bowing surge,

choke, etc. will be covered. Meaningful trending methods will also

be discussed.

7. Gas Path Analysis for Stationary Gas Turbines – Status

Simulation of degraded Gas Turbines, derivation and application of

fault coefficient matrix, fault trees and other techniques.

Implications for component life and emissions.

8. Gas Turbine Fouling

The causes, effects and detection of fouling in axial compressors

will be covered including aero thermodynamic effects, effects on

surge margin, intake distortion and blading problems. Filtration

and control techniques will be covered.

9. Gas Turbine Repair

The techniques of inspection and repair of gas turbines are

described in detail, including NDT techniques, cleaning, plating,

heat treatment, welding, etc.

10. Maintenance

Case histories of various types of failures and maintenance

problems of onshore and offshore gas turbine compressor

installations are discussed. Maintenance techniques using bore

scope and spectrum analysis including acoustic monitoring are

discussed. Techniques for checking and conducting repairs on

impellers, diffusers, bearings, couplings, and foundation repair

are emphasised.

11. Special Considerations for CHP Gas Turbines

This section will cover special considerations in design,

operation and maintenance of turbines and associated equipment on

Cogeneration Services. Several cases will be covered. Off design

operation effects on HRSG, STTG Cycles and evaporate cooling will

be covered.

12. Studi Kasus / Praktek pemecahan masalah Gas Turbine Operation, Maintenance And Troubleshooting

METODE pelatihan Combustors and Fuels online Zoom :

Metode Training Gas Turbine Operation, Maintenance And Troubleshooting dapat menggunakan fasilitas training zoom atau training online, dan bisa juga training offline atau training tatap muka.

INSTRUKTUR pelatihan Vibration and Rotor Dynamics online Zoom:

Instruktur yang mengajar pelatihan Gas Turbine Operation, Maintenance And Troubleshooting ini adalah instruktur yang berkompeten di bidang Gas Turbine Operation, Maintenance And Troubleshooting baik dari kalangan akademisi maupun praktisi.

PESERTA :

Peserta yang dapat mengikuti training Gas Turbine Operation, Maintenance And Troubleshooting ini adalah staff sdm atau karyawan yang ingin mendalami bidang Gas Turbine Operation, Maintenance And Troubleshooting

Karena kompleksnya pelatihan ini, maka dibutuhkan pendalaman yang lebih komprehensif melalui sebuah training. Dan menjadi sebuah kebutuhan akan training provider yang berpengalaman di bidangnya

LOKASI PELATIHAN
  1. YOGYAKARTA  – Hotel Dafam Malioboro
  2. JAKARTA – Hotel Amaris Tendean
  3. BANDUNG – Hotel Verona Palace Bandung
  4. BALI –  Hotel Eden Kuta
  5. LOMBOK  NTB– Lombok Plaza Hotel
  6. ONLINE TRAINING via ZOOM
  7. IN HOUSE TRAINING

*Waktu dan Tempat pelaksanaan pelatihan bisa kami sesuaikan dengan kebutuhan peserta.

Jadwal Pelatihan Jakarta Training 2023 :

Batch 1 : 03 – 04 Januari 2024 | 16 – 17 Januari 2024 || Batch 2 : 06 – 07 Februari 2024 | 20 – 21 Februari 2024

Batch 3 : 05 – 06 Maret 2024 | 19 – 20 Maret 2024 || Batch 4 : 03 – 04 April 2024 | 23 – 24 April 2024

Batch 3 : 26 – 28 Juni 2023

Batch 7 : 09 – 10 Juli 2024 | 23 – 24 Juli 2024 || Batch 8 : 06 – 07 Agustus 2024 | 20 – 21 Agustus 2024

Batch 9 : 04 – 05 September 2024 | 18 – 19 September 2024 || Batch 10 : 08 – 09 Oktober 2024 | 22 – 23 Oktober 2024

Batch 11 : 06 – 07 November 2024 | 26 – 27 November 2024 || Batch 12 : 04 – 05 Desember 2024 | 18 – 19 Desember 2024

CatatanJadwal tersebut dapat disesuaikan dengan kebutuhan calon peserta.

Investasi Pelatihan Jakarta Training

  1. Investasi pelatihan selama tiga hari tersebut menyesuaikan dengan jumlah peserta (on call). *Please feel free to contact us.
  2. Apabila perusahaan membutuhkan paket in house training, anggaran investasi pelatihan dapat menyesuaikan dengan anggaran perusahaan.
Fasilitas Pelatihan di Jakarta Training

1. Hotel

2. Module / Handout

3. FREE Flashdisk

4. Sertifikat

5. FREE Bag or bagpackers (Tas Training)

6. Training Kit (Dokumentasi photo, Blocknote, ATK, etc)

7. 2xCoffe Break & 1 Lunch, Dinner

8. FREE Souvenir Exclusive

9. Training room full AC and Multimedia

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