> It's also relevant because the Getty Center has been rather smug about how awesome their fire protection is.
I think your "smug" comment is unwarranted. They put a ton of solid engineering thought, money and planning into protecting the center from fire. Nothing is 100% but I think their confidence is warranted.
Related, the Getty Villa right in the middle of the Palisades also put a lot of thought, planning and money into fire prevention, and despite being directly in the path of the Palisades firestorm, no structures on the Villa burned
They are being really smug, talking about designs and systems that mean nothing when you've got temperatures outside the building hot enough to melt aluminum engine blocks, infrared radiation intense enough to set fire to things hundreds of feet away - as well as very low oxygen and very high CO/CO2 levels along with dozens of different toxic gasses - all of which HEPA filtration won't do squat about.
A "stone facade" doesn't stop +1200 degree temperatures, especially when everything on the outside will undergo incredible thermal expansion and at the least open up gaps. Steel expands about 1-2% for just an increase to 100 degrees C. 300C means about 3-4% expansion. And then there's the huge expanses of windows which will shatter or pop out - and even if they don't, the intense IR radiation will by and large go through them.
People don't realize just how insanely hot wildfires get. Go look at the pictures of neighborhoods that have burnt- they're leveled with the exception of some chimneys, steel girders for houses that have them (most these days don't, builders have been using wood-composite beams) iron fences, car bodies. Everything else is burned or melted.
There isn't a building in the world that will stop the megawatts of heat energy per square meter wildfires can generate in IR radiation.
Just out of sheer curiosity, I would be tremendously curious to understand what kind of personal/professional background/experience you have that would qualify you to certify their emergency systems as functionally ineffective and their messaging "smug".
Yes, wildfires get incredibly hot. But the fires essentially always travel by embers or direct contact with fire - your comments about IR radiation seem to imply that IR alone will cause ignition, which is rarely if ever the case.
However, in incidents like e.g. the Fort McMurray fire (Alberta, 2016), this is precisely what happens. One property with a heavy fuel load fanned by strong winds (i.e. plentiful O2 supply) gets hot enough that it causes ignition in a neighboring exposure.
In Ft. McMurray, there were documented cases of an entire 4+ bedroom house being reduced to ash in roughly 5 minutes. The heat generated by that process is easily sufficient to cause ignition in buildings <typical suburban layout> apart.
Stone doesn't burn, and neither does concrete. Glass melts. Steel evidently didn't burn at the temperatures these fires got to. So it makes sense that a building made of concrete and steel with stone facades and fiberglass insulation would survive the fire, especially after clearing out and hydrating the surrounding landscape so it wouldn't have the density or flammability of a forest. The Getty Center may have gotten lucky, but they might have also earned their "luck" through investment and planning.
I think your "smug" comment is unwarranted. They put a ton of solid engineering thought, money and planning into protecting the center from fire. Nothing is 100% but I think their confidence is warranted.
Related, the Getty Villa right in the middle of the Palisades also put a lot of thought, planning and money into fire prevention, and despite being directly in the path of the Palisades firestorm, no structures on the Villa burned