webinar
A New Workflow for 3D Thermal Bridge Calculations
Presented in collaboration with:
Beyond Carbon is a team of Passivhaus designers, architectural physicists, and engineers with a passion for delivering excellent buildings and facilitating amazing architecture and place-making. They specialize in making complex, large-scale Passivhaus buildings achievable with the lowest whole-life carbon and energy impacts.
They have teamed up with SimScale, a cloud-native engineering simulation platform used for simulating building physics, microclimate, and the indoor environment. Using the SimScale API, the team has developed a novel workflow that combines the geometry and data capabilities of Rhino® with the simulation power of the SimScale platform to create a game-changing approach to the 3-dimensional analysis of construction details.
Watch this webinar to see a preview of the new workflow, including how to:
Building Physicist
Ramya Kuberakannan is a building physicist and certified Passivhaus designer. She has a Master’s of Architecture and specializes in high-performance, sustainable design, and parametric optimization of building performance. She also focuses on integrating occupant wellbeing, and leads Beyond Carbon’s projects on the WELL building standard.
Fouding Director
Chris has over 15 years’ experience as a sustainability consultant across a range of sectors. As a certified Passivhaus Consultant, Chris utilizes the Passivhaus Standard to deliver buildings that are zero carbon or beyond, and are healthy, happy spaces for their occupants. Chris has recently led the development of Heat Decarbonisation Plans for a number of Oxford college sites, providing them with an ambitious yet practical route toward achieving their net zero carbon targets over the next decade.
Senior Application Engineer
Experienced in CFD and engineering design, Darren studied Aerospace Engineering at Brunel University and is a part of the application engineering team at SimScale.
Product Marketing
Dr. Naghman Khan has a PhD in building simulation and is a founding member of the CIBSE Building Simulation Group and co-author of CIBSE AM11: Building Performance Modeling. He works with SimScale and technology providers to rapidly accelerate digital transformation for a sustainable built environment and is a published researcher on energy efficiency, microclimate simulation, and sustainable buildings.
“ITW is a world leader in plastic components for the automotive industry and we are successfully using SimScale in order to understand the insertion/holding force of our fasteners, and perform vibration and fatigue stress to our brackets and different components. Since I am not a dedicated FEA engineer, I need something fairly intuitive and fast that points me in the right direction and SimScale is perfect for this with a very well-designed interface. I get good results for quite complicated plastic parts that have a lot of deformation. Plus, if I run into trouble, I can always rely on the very helpful and proactive SimScale support team.”
“When I started with SimScale, I knew from my previous experience how simulations are structured and work, but I had forgotten some details over the years. The great tutorials, documentation, and personal conversations with support have brought me up to date within 2 months of using SimScale. I am now well versed and use SimScale even with smaller problems to confirm my pre-calculations and to quickly compare design studies.”
SimScale is the world’s first cloud-native SaaS engineering simulation platform, giving engineers and designers immediate access to digital prototyping early in the design stage, throughout the entire R&D cycle, and across the entire enterprise. By providing instant access to a single fluid, thermal, and structural simulation tool built on the latest cloud computing technology, SimScale has moved high-fidelity physics simulation technology from a complex and cost-prohibitive desktop application to a user-friendly web application, accessible to any designer and engineer in the world.
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