Loading…
This event has ended. Create your own event → Check it out
This event has ended. Create your own
View analytic
Thursday, March 6 • 1:00pm - 1:20pm
Applications Session I: HPC for Engineering Simulation of Expandable Liner Hanger Systems, Ganesh Nanaware, Baker Hughes

Sign up or log in to save this to your schedule and see who's attending!


DOWNLOAD PRESENTATION

WATCH VIDEO

Abstract Expandable liner hangers used for wellbore construction within the oil and gas industry are complex mechanical systems. Finite Element Analysis (FEA) based engineering simulation for design and development of expandable liner hanger systems is an important activity to reduce the time and cost to introduce a reliable and robust product to the competitive market. The complex nonlinear plastic material behavior and physical interaction during setting of the expandable liner hanger requires powerful High-Performance Computing (HPC) infrastructure to solve the complex and large FEA simulation models. This presentation summarizes HPC infrastructure at Baker Hughes and how it is being used to perform engineering simulations to drive the product design for Expandable Liner Hanger Systems. The HPC resource at Baker Hughes adds value to the design process by enabling greater simulation throughput. Using HPC resources, engineering teams can analyze not just a single design idea, but many design variations faster. By simulating multiple design ideas concurrently, design teams are able to identify dramatic engineering improvements early in the design process, prior to and more effectively than physical prototyping alone. HPC specifically enables parallel processing to obtain the solution of the toughest, higher-fidelity FEA models - including more geometric detail, larger systems and more complex physics. In summary, HPC helped us to understand detailed product behavior with confidence in the design and to achieve significant reduction in product development time and cost.

Moderators
HC

Henri Calandra

Total
Henri Calandra obtained his M.Sc. in mathematics in 1984 and a Ph.D. in mathematics in 1987 from the Universite des Pays de l’Adour in Pau, France. He joined Cray Research France in 1987 and worked on seismic applications. In 1989 he joined the applied mathematics department of the French Atomic Agency. In 1990 he started working for Total SA. After 12 years of work in high performance computing and as project leader for Pre-stack Depth... Read More →

Speakers

Thursday March 6, 2014 1:00pm - 1:20pm
BRC 284 Rice University 6500 Main Street at University, Houston, TX 77030