Great video with lots of detail. Excellent diagrams are very helpful. The title says it will help answer the question of what insulation type to use. But aside from showing the relative embodied carbon values there is no discussion of the many other issues that come up: performance over time, fire resistance, water/humidity properties, etc. Look forward to another video on those.
Adding insulation is always cheaper than producing energy? That's possibly true when you add insulation to a house that has no insulation but that is not the case when you compare an average house insulation to a passive house one. There is something called the law of diminishing returns. Passive houses work in a range of insulation where solar panels are actually cheaper
Great video with lots of detail. Excellent diagrams are very helpful. The title says it will help answer the question of what insulation type to use. But aside from showing the relative embodied carbon values there is no discussion of the many other issues that come up: performance over time, fire resistance, water/humidity properties, etc. Look forward to another video on those.
Adding insulation is always cheaper than producing energy? That's possibly true when you add insulation to a house that has no insulation but that is not the case when you compare an average house insulation to a passive house one. There is something called the law of diminishing returns. Passive houses work in a range of insulation where solar panels are actually cheaper
Awesome presentation! Thank you for posting it!
Ein sehr guter Beitrag. Warum kommt er erst 30 Jahre später in den USA? Was ist denn bis jetzt passiert???😏😏🇩🇪