Webcasts

Sponsor: Lummus Technology

With an ever-increasing global demand for energy, dimethyl ether (DME) is emerging as a promising option in the renewable energy landscape and offers a cleaner alternative to fossil fuels with significant potential for reducing carbon emissions. As technology and infrastructure continue to evolve, renewable DME (rDME) may become a key component of a more sustainable energy future.

Join Lummus Technology’s clean fuels and etherification experts for a discussion of their rDME technology and gain valuable insights into building an energy strategy that fits your facility and goals.

The webcast will cover:

• Features and benefits of Lummus’ rDME
• Production flexibility of bio-driven feedstocks
• rDME’s sustainability profile and potential

Sponsored by: Honeywell

In recognition of the urgent need to reduce carbon footprint across industries, regulations have been established to confront this critical challenge, acknowledging the significant social and global impacts of carbon emissions. Globally, stringent policies such as EU RED II and the Carbon Border Adjustment Mechanism (CBAM) aim to internalize the social costs of carbon emissions and ensure global competitiveness while transitioning to a low-carbon economy.

On the other hand, the USA has announced incentives to industries that can credibly demonstrate reduced carbon intensity. These regulations and incentive schemes create monetizing opportunities for industries. Recognizing this need, the Management of Carbon Intensity gains prominence in today’s industry challenges.

Honeywell uses an approach based on a comprehensive framework of solutions that address measuring, monitoring, reporting and reduction of carbon intensity across the hydrocarbon value chain. It comprises of three main components – Carbon Intensity Digital Twin, Carbon Intensity Analytics Engine, and Carbon Intensity Optimization suite - to manage the carbon footprint in near real time.

Sponsored: Lummus Technology

The challenge to reduce greenhouse gas emissions from industrial operations is on, creating the need for petrochemical and refining operators to meet today’s energy transition goals. Cracking heaters and other fired heaters are a great starting point for decarbonization efforts, due to the high carbon emissions of traditional heat sources.

Join us for a virtual introduction of Lummus’ SRT-h^™ hybrid cracking heater and LEAP™ technology to learn how they can be applied for partial CO₂ reduction or extended to net zero-level CO₂ emission requirements for cracking heaters or other refinery and petrochemical process heating applications.

This webcast will cover:

• Innovative approaches to electrification and energy recovery with a focus on decarbonizing existing assets
• Lummus’ SRT-h^™ hybrid cracking heater which combines fuel firing and electrical heating to reduce CO₂ emissions by 15-40% without negative impact on the plant capacity or the steam balance
• Lummus’ LEAP^™ technology which reduces fuel firing for existing fired heaters through energy recovery from the convection section for new and existing heaters
• Additional plant considerations, as decarbonization is not just about heaters

Sponsored by: Lummus Technology

Decarbonization is a complicated but critical challenge facing multiple industries that are vital to support society’s way of life. With so many carbon capture technologies available, it can be difficult to determine which one is right for your specific site, application and decarbonization goals. The type selected will have a significant impact on the economics and feasibility of any decarbonization project.

Join Lummus Technology experts as they review the application of three different carbon capture technologies:

• Post-combustion carbon capture
• Oxyfuel combustion with CO₂ purification
• Pre-combustion carbon capture

This webcast will discuss the general process of each of these technologies, explore the technical advantages and disadvantages of each, examine the utility consumption and its impact on overall Scope 1 and Scope 2 emissions, and evaluate the economics (CAPEX, OPEX and cost of capture) of these technologies in a test case.

Sponsored by: AspenTech

Shell recently completed a pilot evaluation of Aspen Unified Planning™ (AUP) and Aspen Unified Scheduling™ (AUS) at the Pernis and Moerdijk manufacturing complexes. The objective of the project was to simplify and streamline the deployment of newer software versions to enhance the efficiency and usability of its planning and scheduling tools. Integration between planning and scheduling was also a key focus.

Shell recognized that having centralized, web-based applications offered several advantages:

• Version Management: Centralization simplifies the rollout of new software and patches, making it easier to address software bugs promptly
• Resource Efficiency: Individual users no longer require high-performance computers, as the heavy lifting is done on the central server
• Script Elimination: Web-based applications eliminate the need for scripting software
• Consistency: All users operate on the same version of the model, ensuring consistency between planning and scheduling

Following this successful evaluation, Shell has made the decision to transition their planning and scheduling models into production. AUP is already live, and AUS is scheduled to go live in the coming months. Join us as Sergio Vazquez, Margin Optimization Advisor at Shell, shares their experiences implementing AUP and AUS, including plans for rolling out the products to other manufacturing sites. Additionally, you will hear about the benefits and trade-offs of transitioning from PC-based tools to web-based applications.

Learn how this initiative represents a significant step toward optimizing planning and scheduling processes, improving efficiency and achieving greater consistency across Shell’s organization.

Sponsored by: AspenTech

Delivering energy transition projects on time and on budget requires tight collaboration across multiple disciplines to synchronize various deliverables.

Join AspenTech experts as they share a Concurrent Engineering solution that integrates process simulation, equipment design, cost estimation, risk assessment and more—across the full project lifecycle—enabling you to:

• Reduce CAPEX, save time
• Automate data consistency
• Improve collaboration
• Advance sustainability projects

The webinar will also highlight case studies showing how industry leaders accelerate their digitalization journey. Register today to learn more!

Sponsored by: Lummus Technology

The global energy landscape is shifting, demanding refineries to adapt and extract maximum value from residual feedstocks. As market leaders in resid hydrocracking, CLG and ENI offer a complete portfolio for resid conversion with CLG’s LC-Platform and Eni’s EST technology.

Join us to discover how CLG and Eni combine their expertise to develop the next generation of slurry hydrocracking technology and push the boundaries of resid conversion. Hear from subject matter experts on:

• The commercial success of Eni Slurry Technology (EST).
• Enhanced Slurry Technology: Leveraging the strengths of two platforms, the collaboration aims to push the boundaries of slurry hydrocracking.
• ISOSLURRY^™ catalyst offers a cost-effective alternative to improve flexibility and performance. 
• Metal Recovery from Bleed Catalyst: Efficiently recovering metals to reduce operating expenses. 

By embracing these advancements, energy producers, petrochemical manufacturers, and technology providers can unlock the full potential of resid conversion and transform today's refineries into the energy hubs of tomorrow.

Sponsored by: FLIR Systems

Since its inception in 2005, Optical Gas Imaging (OGI) has been an integral part of emission reduction in the oil and gas industry. Over that time, OGI cameras have been the center of the LDAR and EHS markets as the flagship technology for emissions mitigation. Beginning in 2008 with the Alternate Work Practice and most recently as the BSER for NSPS OOOOb and Appendix K of the March 6, 2024, U.S. EPA regulation, OGI technology has proven to be an efficient and effective means of regulatory compliance while also empowering oil and gas operators to increase safety and enhance productivity. The newest in OGI cameras have advanced features that help users meet these stringent regulatory requirements and increase LDAR inspection efficacy. In this webinar, FLIR Global Business Development Manager, Craig O’Neill will discuss how the NSPS OOOOb elevates the use of Optical Gas Imaging for leak detection.

Who Should Attend: Air Quality Professionals, Compliance Officers, Directors of Compliance, EHS Professionals, Environmental Professionals, Fugitive Emissions Professionals, HSE Professionals, LDAR Professionals, Maintenance Managers, OGI Technicians, Operations Managers, Platform Managers, Reliability Professionals.