Setup Menus in Admin Panel

+447946739882, +2348151453146   INFO@CHESSSUBSEAENGINEERING.ORG
     
Sale!

Methanol Production using Natural Gas as FEED Stock Beginners Master Class for Graduate Engineers & Technicians (MPNGFSBMC) Level 1 & Level 2

$990.00 $350.00 exc VAT

Purpose

To develop the highly specialized skills and knowledge required for Methanol Production using Natural Gas as FEED Stock at Level 1 & Level 2.

Methanol Production using Natural Gas as FEED Stock Beginners Master Class for Graduate Engineers & Technicians (MPNGFSBMC) Level 1 & Level 2 is designed for Process Engineer, Chemical Engineers, Production Engineers, Petroleum Engineers & Technicians

Training Mode : Online (Only)

Description

Methanol is a colorless, flammable, and volatile liquid that is used as a feedstock for the production of chemicals, formaldehyde, and as a fuel. It can be produced using natural gas as a feedstock in a process called methanol synthesis.

The production of methanol using natural gas involves several steps. The first step is the reforming of natural gas, which is typically done through steam methane reforming (SMR) or partial oxidation. This process converts natural gas into a mixture of hydrogen, carbon dioxide, and carbon monoxide known as synthesis gas or syngas.

The syngas is then cleaned to remove impurities such as sulfur and water, and fed into a methanol synthesis reactor. In the reactor, the syngas is converted into methanol through a chemical reaction known as the Fischer-Tropsch process.

The resulting methanol is then purified and distilled to remove any remaining impurities, such as water and higher boiling point hydrocarbons, to obtain pure methanol.

The production of methanol from natural gas has several advantages over traditional methanol production from coal or biomass. It is more cost-effective, produces fewer emissions, and has a higher yield. Additionally, natural gas is more readily available and easier to transport than coal or biomass, making it a more attractive feedstock for methanol production.

MPNGFSBMC Level 1 & Level 2 focuses on using natural gas as FEED stock and covers Major Methanol End-uses In Fuels Applications, Desulphurization Of Natural Gas, Synthesis Gas Generation, Synthesis Gas Compression, Methanol Synthesis, Methanol Distillation, Methanol Production Technologies i.e. Methanol production based on one step reforming , 2-2- Methanol production based on two step reforming , 2-3- Methanol Synthesis Loop, 2-4- Methanol Distillation and more

Course Outlines

Methanol Production Introduction
Major Methanol End-uses In Fuels Applications

Desulphurization Of Natural Gas
Synthesis Gas Generation
Synthesis Gas Compression
Methanol Synthesis
Methanol Distillation

Methanol production based on one step reforming
2-2- Methanol production based on two step reforming
2-3- Methanol Synthesis Loop
2-4- Methanol Distillation

Technical Support References

Ref 1: Methanol Production Introduction
Ref 2: Major Methanol End-uses In Fuels Applications
Ref 3: Desulphurization Of Natural Gas
Ref 4: Synthesis Gas Generation
Ref 5: Synthesis Gas Compression
Ref 6: Methanol Synthesis
Ref 7: Methanol Distillation
Ref 8: Methanol production based on one step reforming
Ref 9: 2-2- Methanol production based on two step reforming
Ref 10: 2-3- Methanol Synthesis Loop
Ref 11: 2-4- Methanol Distillation

Assessment

Participant underpinning knowledge of Methanol Production using Natural Gas as FEED Stock will be accessed with short answer multiple-choice questionnaire at the conclusion of the course.

Outcome

Participants will gain an in debt understanding of Methanol Production using Natural Gas as FEED Stock.They will also be able to function with minimum supervision as Process Engineer, Production Engineer or Technician for IOC or indigenous methanol production company.

Professional Certificate

Issued directly by Chess Subsea Engineering Europe.

Participant may be presented for Offshore Petroleum Training Organization (OPITO) Certification.

How to Register

Click here to download registeration booklet on msword and email completed booklet to info@chesssubseaengineering.org directly.

Get Social with US ON FACEBOOK

9 inch Subsea Production Riser Steep Wave Configuration ORCAflex Simulation

8 inch Subsea Production Riser Lazy S Wave Configuration ORCAflex Fatigue Simulation

8 inch Subsea Production Riser Lazy S Wave Configuration ORCAflex Fatigue Simulation

Transient Flow Over a Cylinder : Pressure Contour

Live Testimonials from some of our Candidates

Transient Flow Over a Cylinder : StreamLine Velocity

Engineering of Subsea Production Systems Level 1 and Level 2

Transient Flow Over a Cylinder : Eddy Viscosity

Subsea Hydraulic Flying Leads & Cable Cutters Engineering Design

Steel Catenary Riser & Hook Up Components Engineering Design

SURFs Carousel Engineering Design 3D Animations

Piggyback Block Render & Subsea Bend Restrictor Engineering Design

16 inch Subsea Pipe Pull In Installation Simulation with ORCAFLEX

16 inch Subsea Lazy S Riser with Mid Water Arch Orcaflex Simulation

8 inch Subsea Production Pipeline S Lay Installation Simulation via Articulated Stinger

Subsea Riser Bouyancy Modules 3D Front End Engineering Conceptual Design & Simulations

10 inch Production Pipeline S Lay Installation Simulation via Articulated Stinger ORCAflex Explicit

16 inch Subsea Pipeline Davit Lift Orcaflex Simulation

8 inch Subsea Production Steel Catenary Riser ORCAflex Simulation

2 x 10 inch Subsea Production Riser Pliant Wave Configuration ORCAflex Simulation

ENGINEERING COMPETENCE AT ITS BEST!

From talent development and organizational performance to engineering and operational needs, we are driven by one goal: improve your performance through innovative solutions.

Continuing Professional Development

Our Renewable Energy, Offshore & Subsea Engineering CPD OJT courses are structured for engineers seeking to attain or maintain Chartered Status. Get to know more.

Computational Fluid Dynamics (CFD)

Using CFD, you are able to analyze complex aerodynamics and hydrodynamics problems involving fluid-fluid, fluid-solid or fluid-gas interaction.

top
© 2023. All Rights Reserved.
X