PELATIHAN NATURAL GAS ENGINEERING PROPERTIES ESTIMATION AND PIPE LINE NETWORK DESIGN FOR DISTRIBUTION AND PROCESSING

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PELATIHAN NATURAL GAS ENGINEERING PROPERTIES ESTIMATION AND PIPE LINE NETWORK DESIGN FOR DISTRIBUTION AND PROCESSING

PELATIHAN NATURAL GAS ENGINEERING PROPERTIES ESTIMATION AND PIPE LINE NETWORK DESIGN FOR DISTRIBUTION AND PROCESSING

TUJUAN NATURAL GAS ENGINEERING PROPERTIES ESTIMATION AND PIPE LINE NETWORK DESIGN FOR DISTRIBUTION AND PROCESSING

After completing this training, you should able to do the following :

* Apply the concept of thermodynamic including mixing rule (volumetric properties of mixture) to calculate the properties of Natural Gas.

* Predict the condition of hydrate formation and know the method to prevent it

* Apply the concept of fluid flow to calculate the parameters used in sizing the Natural Gas lines

* Recognize the use of non pipe elements and to calculate the parameters which fit the elements to the pipe line.

* Formulate equations for steady-state analysis

* Use graph theory to design and estimate, and optimize gas networks

* Doing troubleshooting of gas networks

MATERI NATURAL GAS ENGINEERING PROPERTIES ESTIMATION AND PIPE LINE NETWORK DESIGN FOR DISTRIBUTION AND PROCESSING

Day 1

  1. Thermodynamic Aspect of Real Gas

* The Law of Thermodynamics in relation to energy balance

* Volumetric Properties of Pure Substances: Cubic Equations of State

* Volumetric Properties of Pure Substances: The Virial Equations

* Generalized Correlations for Gases

  1. Volumetric Properties of Mixtures

* Behavior of Ideal Gas

* Ideal Gas Mixtures

* Behavior of Real Gases

* Effect of Non-hidrocarbon component on Z-Factor: Wichert-Azis Correction Method

* Effect of Non-hidrocarbon component on Z-Factor: Carr-Kobayashi-Burrow Correction Method

* Effect of Non-hidrocarbon component on Z-Factor: Correction Method for high-molecular weight gases

* Direct Calculation of Compressiblity Factors using several methods including Papay, Hall-Yarborough, Dranchuk-Abu-Kassem, Dranchuk-Parvis-Robinson and Hankinson-Thomas-Phillips Methods

Day 2

III.    Properties of Natural Gas I: Thermodynamic Properties of Natural Gas

* Compressibility of Natural Gases

* Gas Formation Volume Factor

  1. Properties of Natural Gas II: Estimation of the Viscosity of Gases

* Carr-Kobayashi-Burrow Method

* Leo-Gonzalez-Eakin Method

* Dean and Stiel Method

  1. Gas Hydrates and Their Prevention

* Water content in natural Gas

* Water-Hydrocarbon systems: Gas Hydrates

* Prediction of Conditions for Hydrate Formation

* van der Waals-Platteeuw Model

* Gas Expansion-Joule Thomson Cooling

* Use of Methanol to Prevent Hydrates

* Hydrate in the Earth

Day 3

  1. Fundamental of Gas Flow in Pipe line

* Application of Flow Equation

* Calculation of Static Bottom Hole Pressure

* General Flow Equation

* Flow Equations in Practice: Gas Flow Characteristic in Pipes

* Flow Equations in Practice: Efficiency Factor

* Flow Equations in Practice: Common flow equation

VII.    Non-Pipe Elements in Gas Networks

* Compressor Stations

* Pressure Regulators: Direct operated gas Regulators

* Pressure Regulators: Pilot-loading gas regulators

* Valves

VIII.    Selected Elements of Graph Theory

* Terms and Definitions in Graph Theory

* Network Topology: The Branch-Nodal incidence matrix

* Network Topology: Branch-Loop incidence matrix

* Methods of Loop generation

Day 4

  1. Formulation of Equations for Steady-State Analysis

* Flow of Gases: Lacey Equation

* Flow of Gases: Polyfo Equation

* Flow of Gases: Panhandle ‘A’ Equation

* Flow of Gases: The Weymouth Equation

* Nodal Formulation

* Loop Formulation

  1. Gas Networks design:

* Newton-Nodal Method (Multi-dimensional Case)

* Newton-Nodal Method (One-dimensional Case—Hardy-Cross Method)

  1. Natural Gas Liquid Recovery and Gas for The Fuel Market

* Natural Gas Liquid

* Gas Absorpsion versus Fractionation

* Cooling in Gas Processing

* Gas Absorpsion/Stripping Cycles for Liquid Recovery

* Adsorption versus Absorption

* Expander Plant

* Conclusion

XII.    Troubleshooting of Gas Networks

* Philosophy of Troubleshooting

* Troubleshooting of pipe line

* Troubleshooting of Compressor

* Troubleshooting of Control-Valves

INSTRUKTUR TRAINING

Pelatihan ini akan dibawakan oleh trainer/ pemateri yang berpengalaman di bidangnya.

METODE TRAINING

1. Presentation
2. Discuss
3. Case Study
4. Evaluation
5. Pre-Test & Post-Test
6. Games

JADWAL TRAINING 2022

18-19 Januari 2022
22-23 Februari 2022
15-16 Maret 2022
19-20 April 2022
23-24 Mei 2022
14-15 Juni 2022
12-13 Juli 2022
23-24 Agustus 2022
13 – 14 September 2022
11-12 Oktober 2022
8 – 9 November 2022
29-30 November  2022
13-14 Desember 2022

Jadwal tersebut juga dapat disesuaikan dengan kebutuhan calon peserta

LOKASI DAN INVESTASI

Pelatihan Diotraining.com :

  • Yogyakarta, Hotel Dafam Malioboro (6.000.000 IDR / participant)
  • Jakarta, Hotel Amaris Tendean (6.500.000 IDR / participant)
  • Bandung, Hotel Golden Flower (6.500.000 IDR / participant)
  • Bali, Hotel Ibis Kuta (7.500.000 IDR / participant)
  • Lombok, Hotel Jayakarta (7.500.000 IDR / participant)

 

Investasi Pelatihan tahun 2022 ini :

Investasi pelatihan selama tiga hari tersebut menyesuaikan dengan jumlah peserta (on call). *Please feel free to contact us.

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

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