Multiphysics Simulation for Solar Energy Applications - Archived
The design and development of solar energy infrastructure such as photovoltaic cells, solar panels, power generators, and transmission lines involve accounting for a number of different physics phenomena as well as operating conditions. Multiphysics simulation not only helps us understand how these components perform in a real-world environment, but also allows for a more efficient R&D process and a shorter time-to-market.
If you wish to learn how multiphysics simulation can help when designing more robust and efficient solar energy infrastructure, tune in to this on demand webinar.
Key Discussion Points:
- Design and optimization of materials used in photovoltaic cells
- Estimating design parameters including doping profiles, refractive indices, and losses
- Evaluating optimal operating conditions for photovoltaic cells, solar panels, and the concentrator mirror systems with variable inclination angles
- Simulating solar radiation and estimating the angle and intensity
- Modeling air flow around solar panels and predicting generated stresses
- Analyzing atmospheric effects on solar panels and designing protection systems
- Using multiphysics simulation to optimize solar power generators
Register for Multiphysics Simulation for Solar Energy Applications
To register for the event, please create a new account or log into your existing account. You will need a COMSOL Access account to attend Multiphysics Simulation for Solar Energy Applications.
For registration questions or more information contact email@example.com.
Archived Webinar Details
This is a recording of a webinar that originally aired on January 18, 2024