Physics-Enhanced Machine Learning Designs a High Temperature Heat Pump Compressor
In this webinar, you will discover
• How to rapidly define and optimize the meanline shape of a High Temperature Heat Pump Compressor to give peak Co-efficient of performance (CoP) using new environmentally friendly refrigerants.
• How a Physics-Enhanced Machine Learning system goes about creating the most efficient 3D blade shapes in the given meanline outline
• How to build and operate these Intelligent, physics-bound systems to run on your own local hardware in a matter of hours.
• How to build your own Physics-Enhanced Machine Learning System, to solve your own particular design challenges.
Complete the short form to register for the webinar.
.
Physics-Enhanced Machine Learning
Designs a High Temperature Heat Pump Compressor
Design of Experiment on a fast coupled cycle code with meanline design and map prediction capability enables rapid exploration of design space for single stage or multistage (back-back or inline) heat pumps with different refrigerants (using RGP files) to optimize the key design choices such as rpm, tip diameter, etc. This places the design in the optimum region in the trade-off between heating capacity and operating range.
The full 3D blade shape, which produces optimum efficiency, is created using Physics-Enhanced Machine Learning, based on 3D Inverse Design. This method uses a small (less than 50 points) high-fidelity training dataset to accurately predict the overall performance of candidate blade shapes, then produces paradigm-shifting Pareto optimal designs which solve the conflicting multi-point performance requirements.
This webinar will demonstrate the workflow to set up and run this study - showing how easy it is to create a Physics-Enhanced Machine Learning system for even the most complex real-gas applications.
Key Takeaways from the Webinar
TURBOdesign suite has all the tools required to design complex refrigeration cycles and the required components from scratch.
3D Inverse Design is the technology that unlocks Physics Enhanced Machine Learning.
Training datasets of less than 60 points can be enough to find optimal designs -if those points contain the physics-linked parameters that describe the flow phenomena.
Who is it for?
The event addresses all engineers, developers or researchers dealing with Turbomachinery Design.
Compressor for a High Temperature Heat Pump
Compressor for a High Temperature Heat Pump
Pareto front of design candidates from 2D cycle analysis
TURBOdesign Suite Toolkits
Meet the Speakers
Lorenzo Bossi
Chief Operating Officer
Rich Evans
Applications Engineer
Complete the form to have the recording sent straight to your inbox. Click Here
/PEML-HTHP-Compressor-01s.png?width=1200&length=1200&name=PEML-HTHP-Compressor-01s.png)
/PEML-HTHP-Compressor-02s.png?width=1200&length=1200&name=PEML-HTHP-Compressor-02s.png)
/PEML-HTHP-Compressor-03s.png?width=1200&length=1200&name=PEML-HTHP-Compressor-03s.png)
