About this Classroom Training
As the world works to scale up carbon capture and storage (CCS) capacity, liquid CO2 carriers will play a vital role in safely and reliably transporting captured CO2 from industrial sources to permanent storage locations. Shipping offers a flexible transportation solution for longer distances for lower to medium volumes compared to pipelines. However, the development of a global fleet of CO2 carriers presents several unique challenges. The optimal shipping solution depends on factors like cargo volumes, transport distances, offloading arrangements, and CO2 purity levels. Different applications may require elevated, medium or low-pressure CO2 carriers.
This 3-day training is developed, based on the properties and safe handling of CO2 before moving on to the complexities of LCO2 carrier design, construction, propulsion, cargo systems, and the relevant regulations of LCO2 carriers. Throughout the course, participants will gain a comprehensive understanding of LCO2 properties, regulatory frameworks, and the latest engineering practices essential for safe and efficient LCO2 transport. Furthermore, participant will delve into the intricacies of cargo handling systems and safety management, emphasising risk assessment and emergency response protocols.
This course will combine theoretical knowledge with practical applications, featuring lectures, and case studies. Participants will have the opportunity to enhance their skills and understanding the unique challenges associated with LCO2 shipping. By the end of the course, participants will be equipped with the necessary tools to contribute effectively to the evolving landscape of LCO2.
This course will be delivered via a Classroom Training over 3-day sessions, comprising of 8 hours per day, 1 hour lunch and 2 breaks of 15 minutes per session. Course Duration: 19.50 hours in total, 19.50 CPD points.