A2J is a pathway to produce SAF. The technology uses an alcohol as a feedstock to produce a low CI jet fuel. A panel of experts from major licensors will provide an overview of their technology and answer questions regarding application.
Facilitator: Brian Boeger, Axens North America
Speakers:
Kevin O’Neil, Honeywell UOP
David Schwalje, Axens
Jim Andersen, Lanzajet
Monica Normark, KBR
The hydrogen economy has become a central point of discussion as the energy industry evolves towards carbon reduction and “net zero” targets. Central to efficient production and utilization of lower carbon footprint hydrogen is the development of hydrogen hubs, which are defined as the network and supply chain of producers, consumers, and infrastructure for decarbonized hydrogen. This session will highlight delineation of the colors of hydrogen, potential end uses of hydrogen and summarize H2 hubs and early learnings.
Speakers:
Mike Annon, Becht
Nathan Barkley, Becht
Darren York, Becht
Robert Ohmes, Becht
Pyrolysis is the thermal conversion of biomass, municipal waste and/or plastic in the absence of oxygen to produce a liquid product. This pyrolysis oil product will have various properties depending on the feedstock and technology. However, it can be further refined through e.g. hydrotreatment or co-processing in an FCC unit to produce steam cracker feed or other products. This session will focus on plastic pyrolysis technology and the role Refiners will play in enabling a circular economy for plastics.
Facilitators:
Cliff Avery, Ketjen Corporation
Matthew Goodwin, BASF Corporation
Speakers:
Jeremy DeBenedictis, Alterra Energy
Outi Teras, Neste
A significant component in winning the energy transition challenge comes down to managing and reducing the emissions from manufacturing activities of the energy-intensive industries. In most of the facilities in oil & gas production, refining and petrochemical industries, flare is used to burn off waste gases, and typically a manual work process is adopted to ensure complete and smokeless combustion. The work process requires the facility operators to monitor camera feed that shows real-time status of flare operations and make control changes on the DCS to optimize combustion ensuring smokeless flaring.
To automate this manual work process and further enhance operator efficiency and environmental performance in flare operations, we present in this work an end-to-end flare smoke detection, alerting and DCS control solution that leverages existing flare CCTV cameras used at many facilities. The core of this solution is a deep-learning computer vision model that we have developed leveraging an extensive and diverse data set and the model has shown fit-for-use performance in wide-ranging conditions.
We will present results of this application implemented in the plant to further demonstrate the end-to-end solution and its positive impact on sustainable operations.
Facilitator: Adi Punuru, ExxonMobil Technology and Engineering Company
Speaker:
Ye Hu, ExxonMobil Technology and Engineering Company
Technology exists to recover ammonia from Sour Water. This ammonia is considered a low carbon intensity (CI) source since it was a waste stream and can be used, for example, as a liquid hydrogen carrier for further low CI uses. This session will highlight technologies to enable ammonia recovery, utilization, and how ammonia recovery meshes into an overall facility nitrogen and sulfur management strategy.
Facilitator: Jeff Zurlo, Veolia Water Technologies and Solutions
Speakers:
Stan Holbrook, Marathon
Carlos Cavalca, Veolia
Co-processing of sustainable feedstocks in FCC units is gaining popularity in industry but first-hand experience is still relatively limited. This roundtable session will highlight real-world experiences and first-hand learnings from a diverse panel of experts that includes operators, technology licensors, consultants and catalyst suppliers. Discussion topics will include topics such as supply/logistics, economic incentives/credits, operating issues/troubleshooting and other commercial experiences. Bring your questions and be ready for interactive discussion!