24 – 27 Mei 2016 | Rp 7.950.000 di Bandung
21 – 24 Juni 2016 | Rp 7.950.000 di Bandung
26 – 29 Juli 2016 | Rp 7.950.000 di Bandung
09 – 12 Agustus 2016 | Rp 7.950.000 di Bandung

Jadwal Selanjutnya …




A gas turbine extracts energy from a flow of hot gas produced by combustion of gas or fuel oil in a stream of compressed air. It has an upstream air compressor (radial or axial flow) mechanically coupled to a downstream turbine and a combustion chamber in between. “Gas turbine” may also refer to just the turbine element.

Energy is released when compressed air is mixed with fuel and ignited in the combustor. The resulting gases are directed over the turbine’s blades, spinning the turbine, and mechanically powering the compressor. Finally, the gases are passed through a nozzle, generating additional thrust by accelerating the hot exhaust gases by expansion back to atmospheric pressure.

Energy is extracted in the form of shaft power, compressed air and thrust, in any combination, and used to power aircraft, trains, ships, electrical generators, and even tanks.

To support the sufficient production system, we need tough worker or increase the worker skill of operation, maintenance, and trouble shooting of gas turbine profession.


Practitioner in the operator level, supervisor level or planner of machine maintenance technology at engineering industry, which at least senior high school or technical vocational school.


  1. To able know to operation, maintenance, and trouble shooting of gas turbine.


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.


Maridjo,Ir. M.Sc.

Ir. Maridjo, alumnus from Mechanical Engineering Bandung Institute of Technology (ITB). He has been lecturer at PEDC and now as lecturer at mechanical engineering Polytechnique ITB (POLBAN). Ir. Maridjo has taught many topics related to his expertise to many companies in Indonesia, such as predictive and preventive maintenance, lubrication system, diesel machine, pump, gas turbine, piping and pipeline, compressor, boiler, conveyor system and many others. Many participants from companies have been trained and collaborated with him such as Chevron, Semen Gresik, semen Baturaja, Pertamina, Pusri, GGPC, employee of Qatar and lybia oil and gas company, UP IV Balongan pertamina, PT. Indocement, some PLTA, some hotels, PT.Pupuk Kujang, PT.Bio Farma, BPPT, PT. Bintang Agung, some other oil and gas companies in Indonesia and etc. Ir.Maridjo has been researching and publishing the results on his core competencies on academics standing.


Bandung (Golden Flower, Banana Inn, Grand Seriti, Carrcadin, Amaroossa, Grand Serela, Gino Feruci, Verona Palace, Malaka, Zodiac Taurus)


4 days


  1. 24 May 2016-27 May 2016
  2. 21 Jun 2016-24 Jun 2016
  3. 26 Jul 2016-29 Jul 2016
  4. 09 Aug 2016-12 Aug 2016
  5. 27 Sep 2016-30 Sep 2016
  6. 25 Oct 2016-28 Oct 2016
  7. 29 Nov 2016-02 Dec 2016
  8. 27 Dec 2016-30 Dec 2016


  1. Rp 7.950.000/person (full fare)  or
  2. Rp 7.750.000/person (early bird, payment 1 week before training)  or
  3. Rp 7.500.000/person (if there are 3 or more participants from the same company)



  1. Modul Training
  2. Flashdisk Training berisi materi training gas turbine
  3. Sertifikat
  4. ATK: NoteBook dan Ballpoint
  5. T-Shirt
  6. Ransel
  7. Foto Training
  8. Ruang Training dengan fasilitas Full AC dan multimedia
  9. Makan siang dan 2 kali coffeebreak
  10. Instruktur yang Qualified
  11. Transportasi untuk peserta dari hotel penginapan ke hotel tempat training – PP (jika peserta minimal dari satu perusahaan ada 4 peserta)



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