Rapid and Accurate Steam Reformer Model Development Using First Principles Driven Aspen Hybrid Models™
The steam reforming reaction to generate hydrogen from natural gas takes place at high temperatures. Conventional rigorous reactor modeling requires a temperature profile of the process fluid, which is difficult to estimate or measure. Using the latest First Principles Driven Hybrid Models, it was found that a relatively simple model can accurately represent a wide range of plant data. In this presentation, the methodology of first principles driven Aspen Hybrid Models, the importance of data conditioning, comparison with conventional methods and potential benefits are all discussed.
In this presentation from OPTIMIZE™ 21, Nissan Chemicals discusses the methodology of first principles driven Aspen Hybrid Models, the importance of data conditioning, and comparison with conventional methods and potential benefits.
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In a volatile, changing world, companies must rethink how they will compete and stay ahead. Advancements in AI and process simulation combined with deep domain expertise empower companies to do things faster, easier and smarter than ever before. View this video to learn how Aspen Hybrid Models integrate first principles-based process simulation models, AI and domain expertise to deliver comprehensive, accurate models more quickly without requiring significant expertise.
On-Demand Webinar:
Hybrid Models in Chemicals: Leveraging Industrial AI to Overcome Operational Challenges
Interactive Infographic:
Top Five Things to Know About Hybrid Models
White Paper:
Hybrid Modeling: AI and Domain Expertise Combine to Optimize Assets