What is basic process control?
How is it done? Why is it important for the refinery engineer to be familiar with the basics?
In this foundational session, the discussion will focus on the workings of everyday loops and instrumentation that a refinery engineer is likely to encounter.
Moderator:
Sriram Ramaganesan, Phillips 66
Speakers:
Joe Boyce, Marathon Petroleum Corporation
Scott Flanagan, Marathon Petroleum Corporation
Tim Olsen, Emerson Automation Solutions
This session will introduce an integral part of maintenance and reliability engineers’ responsibilities to capital projects. How this relationship and communication is important to get safe, reliable, and maintainable equipment installed when working with a capital project team.
Canadian Refiner replaced the Shake Test with on-line UOP Mercaptide Sensors to monitor the extent of Merox caustic regeneration. Mercaptide Sensor use resulted in continuously trended data, reduced caustic exposure, and proactive process variable optimization, while vastly reducing off specification incidences and unnecessary bulk caustic replacements.
Units in the refinery are interconnected and operational changes to an upstream often create challenges for downstream units. We will review how normal and abnormal FCC operations impact Alky feeds. We will also discuss Alky feed specifications and the impact to acid consumption and alkylate quality.
This session covers the complete spectrum of process optimization methods at a refinery or petrochemical plant. From models predictive control to real time optimization via process models and onto machine learning methods via neural networks. The attendee will gain an understanding of when to apply these methods in practice and the organizational support needed to succeed long term.
The intersection of refining and petrochemical manufacturing has never been more significant as industries navigate the dual challenges of efficiency and sustainability. This session will explore the critical role of Perchloroethylene (PERC) in modern refining processes while also highlighting its applications in petrochemical production.
PERC is recognized as one of the safest catalyst activators during normal operations, as well as a regenerator for spent catalysts. Utilizing less efficient materials can necessitate larger quantities of hazardous substances being kept onsite, thus increasing exposure risks. Other chlorinating agents are either restricted by the EPA or are inherently more hazardous, making PERC a preferable option.
Attendees will gain insights into how PERC enhances refining technologies through processes such as isomerization and catalytic reforming, which help ensure compliance with environmental regulations. Industry experts will discuss the extensive benefits of utilizing PERC, emphasizing innovations that contribute to both safety and operational efficiency.
Moreover, we will review advancements in safety protocols that facilitate the effective handling of PERC, ensuring minimal exposure and adherence to rigorous regulatory standards. By fostering dialogue among leaders in refining and petrochemical manufacturing, this session aims to identify collective strategies for driving innovation and achieving sustainability goals within the industry.
As global demand for renewable fuels accelerates, regulatory frameworks are becoming more complex — and increasingly focused on driving deeper greenhouse gas (GHG) reductions and improved carbon intensity (CI) scores. This two-part panel will first explore the evolving landscape of biofuel policies and their emphasis on CI performance. The second part will shift to a practical perspective, highlighting how modern farming practices and closer collaboration between refiners and agricultural stakeholders can significantly reduce CI at the source. Together, these insights demonstrate a path toward scalable, low-carbon renewable fuel solutions built on policy alignment and supply chain innovation.
Moderator:
Doug Beshara, Merrick & Company
Speakers:
Chad Asmus, BASF
Kristine Klavers, EcoEngineers
