Combustion Engineering

Combustion Engineering

( 3 Days Training )

Description

The science of combustion, as complex as it is, can be summed up simply; it’s the process by which fuel is turned into energy through a heating process. Combustion Engineering concerns the science of combustion as it applies to industry.

Most energy consumed today is derived from fossil fuels, but the world’s dependence on oil and coal cannot continue indefinitely. Our reliance on these fuels will need to be supplemented with other forms of energy, whether nuclear or a yet undiscovered source. Combustion Engineering may very well be at the forefront of developing new technologies in fuel consumption. As the global need for energy efficiency intensifies and the search for new, environmentally sustainable fuels increases, the need for combustion engineers will expand. Energy will remain a huge industry where skill and innovation will be in high demand. Individuals with degrees in Combustion Engineering will be responsible for planning and implementing new combustion systems and equipment.(dg)

Learning Outcomes

On completion of the module, students should be able to:

  1. Explain the basic concepts of combustion chemistry, the thermodynamic reasons that make a combustion reaction possible, and the factors that affect the reaction rate.
  2. Distinguish different types of flames from their morphology, and explain how different combustion mechanisms are related to macroscopic qualitative features
  3. Explain the ignition mechanism, and construct simple mathematical models to capture the main features of spontaneous and forced ignition.
  4. Describe the features of flame propagation, estimate the flame velocity and thickness through simple calculations, explain the conditions that determine flame extinction.
  5. Describe the properties of different fuels, and choose the appropriate technologies to use them.

Course Content

  1. Fundamentals of Combustion
  2. Industrial Burners
  3. Radiant Tube Burners
  4. Ratio Control/Burner Turndown
  5. Fans and Blowers
  6. Burner Selection/System Sizing
  7. Combustion Safety NFPA 85/86
  8. Combustion Systems with Oxygen Enrichment
  9. Heat Transfer Mechanisms
  10. Heat Balance & Process Efficiency
  11. Furnace Pressure Control
  12. Preheated Air Effect / Recuperative Systems
  13. Regenerative Systems
  14. Combustion Systems Environmental Emissions
  15. Ferrous Track & NonFerrous Track

Instructor

IR. TEGUH PUJI ,MT

He is a professional consultant in Material Science, Metallurgy, Mechanical Testing and Failure Analysis.

Who Should Attend

Technicians, Engineers, Maintenance and Operator Supervisor in furnace/boiler, steam/gas power plant.

Method

Presentasi, Diskusi, Simulasi, Studi kasus, Evaluasi

Time And Venue

TANGGAL

BULAN

TAHUN

HARI

25-28

FEBRUARI

2014

SELASA-RABU

04-06

MARET

2014

SELASA-RABU

18-20

MARET

2014

SELASA-RABU

08-10

APRIL

2014

SELASA-RABU

22-24

APRIL

2014

SELASA-RABU

06-08

MEI

2014

SELASA-RABU

20-22

MEI

2014

SELASA-RABU

03-05

JUNI

2014

SELASA-RABU

24-26

JUNI

2014

SELASA-RABU

Course Fee

IDR 6.500.000,- / participant (non residential)

Special rate IDR 6.000.000,- / participant (non residential) for minimum 3 participants from the same company.

Inhouse training depend on request

Facilities:

  • Convinience meeting room at Hotel
  • Airport pick up services
  • Transportasion during training (airport,station, terminal, Hotel – site training PP)
  • Hard & Soft copy course material ( USB Flashdisk )
  • Training Kit
  • Coffee Break & Lunch
  • Souvenir

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