{"type":"video","version":"1.0","html":"<iframe src=\"https://www.loom.com/embed/d5e4554e6c0d4b5d9f7787db4df5a9b1\" frameborder=\"0\" width=\"1920\" height=\"1440\" webkitallowfullscreen mozallowfullscreen allowfullscreen></iframe>","height":1440,"width":1920,"provider_name":"Loom","provider_url":"https://www.loom.com","thumbnail_height":1440,"thumbnail_width":1920,"thumbnail_url":"https://cdn.loom.com/sessions/thumbnails/d5e4554e6c0d4b5d9f7787db4df5a9b1-82f8beca60ac03bb.gif","duration":277.6266,"title":"Exploring Radiator Modeling Approaches 🔧","description":"In this video, I discuss two approaches for modeling a radiator using the convective heat transfer solver. I walk through the process of creating a solid geometry and demonstrate how to use boolean subtraction to create a hollow part in the assembly. I also explain how to assign the cylinder as a power source to generate heat within the flow region. Please review the methods I outlined and let me know if you have any questions!"}