City
Duration
Year
| Venue | Start Date | End Date | Net Fees | Details & Registration |
|---|---|---|---|---|
| Houston | November 8, 2024 | November 8, 2024 | 15000 | PDF Register |
| Chicago | November 1, 2025 | November 1, 2025 | 24000 | PDF Register |
| San Antonio | November 14, 2024 | November 14, 2024 | 10000 | PDF Register |
| Phoenix | November 4, 2024 | November 4, 2024 | 20000 | PDF Register |
About the Course
This course has been specifically designed for beginners who have been looking to obtain a hands-on learning experience with Python, teaching you concepts of programming right from the basics and Python being the most simplest language for a beginner to start with. It is the right time to start learning the in-demand Python language because of its gaining popularity in the fields on Data Science, Backend Development, Internet of Things, etc. Keep yourself equipped with the most sought-after skills! You will work on a project at the end of this course, which has been designed for you to implement all the topics which you would have mastered by the end of this course to give you enough confidence to start writing your own independent programs in Python.Target Audience
The course offers a thorough overview of CO2 capture and is appropriate for interested parties including environmental staff, facilities engineers, gas processing engineers, entry-level (1-2 year) engineers, and anyone else interested in a general, technically oriented overview of this method of greenhouse gas (GHG) mitigation.Course Objectives
- A description of stationary sources of CO2 emissions, with details on sector-specific factors
- Review of drivers and restrainers prior to CCUS deployment, with an emphasis on technical readiness and cost The three main technical methods of CO2 capture are oxygen firing, post-combustion, and pre-combustion. Examining the advantages and disadvantages of post-combustion technologies, studies, and demonstrations
- Examining the advantages and disadvantages of pre-combustion capture technologies, studies, and demonstrations
- Review of Oxyfiring and CO2 purification for Capture, highlighting its advantages and disadvantages CO2 Capture from Natural Gas Combined Cycles (NGCC) and Co-Generation is a special topic. operating CCS projects related to the processing of natural gas and the production of electricity
Course Outlines
- Emissions from the power sector and other sources within the context of CCS Before deploying CCS, drivers and restraints will be reviewed.
- The three main technical methods of CO2 capture are oxygen firing, post-combustion, and pre-combustion. Technology, Study, and Demonstration Review for Post-Combustion
- Proven and emerging solvents
- Different technologies - Adsorption and Membranes Research and commercial applications
- Technology, Study, and Demonstration Review for Pre-Combustion Capture
- What's New and Old in CO2 Capture from Steam Methane Reformers (SMR) for Industrial Fuel Production? Scale and Experience with H2 as Fuel industry
- Pre-Combustion projects that are active modern technology Review of Oxyfiring Capture
- It's not about white-hot combustion, as the background explains specific applications, idea demos, and testing innovative methods, such as Chemical Looping Combustion
- Co-generation and NGCC are a special topic.
- Review of the three capture methods used by NGCC in operating CCS projects related to the processing of natural gas and the production of electricity
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