Life-cycle driven design of steel structures for reduced embodied carbon
A series of three webinars (ten 120-min sessions) are being organized this autumn 2024.
This webinar series explores the strategies to reduce embodied carbon in steel construction: each session is tailored to a specific topic; Composite Construction, High Strength Steel, and AI-powered steel construction. Led by Alper Kanyilmaz and expert specialists in the respective field, the webinars focus on topic-specific LCA steps, methods for calculating embodied carbon, sensitivity studies, and strategies for reducing embodied carbon relevant to each theme. Including hands-on exercises, real-world examples, and interactive discussions, the series is designed to deepen participants' understanding of specialized areas. At the end of the webinar, participants will be able to calculate the embodied carbon of a steel structure, with a focus on composite construction, high-strength steel, and AI-powered steel construction. Additionally, they will learn techniques and strategies for reducing embodied carbon emissions and analyze real-world case studies of mono and multi-storey steel structures.
The third webinar, titled “AI-powered Life Cycle Driven Design of Steel Structures” and designed by Alper Kanyilmaz and Paul Kassabian, will explore the role of artificial intelligence in the life-cycle driven design of steel structures. This session will begin by identifying the key pain points currently faced by the steel construction industry such as inefficiencies, high embodied carbon, and maintenance challenges. It will then demonstrate how different AI techniques can be strategically applied to address these issues. The webinar will show how to embrace AI to reduce embodied carbon, enhance structural efficiency, and predict maintenance needs, ultimately leading to more sustainable steel construction practices. By the end of the webinar, participants will have learned the basics of various AI techniques and seen real case examples, enabling them to leverage AI to optimize the life-cycle performance of steel structures and achieve a balance between strength, cost efficiency, and environmental sustainability.
The complete programme is available here.
Register now !