In lab settings a Deuterium lamp is the historical source for high energy UV, this has now typically been replaced by unfiltered Xenon tubes. I've seen a Xenon lamp that claims 150W.
AFAIK LEDs are unlikely to replace either of these for spectroscopy as wide bandwidth sources are usually desired.
Where very high power monochromatic sources are wanted, Hollow cathode lamps & Electrodeless discharge lamps are used but these give highly precise wavelengths
Unfortunately each of these needs a highly specific power supply, and I haven't found them practical to sneak home even when the instrument using the source is being scrapped.
Given the expense, PSU requirements and finite lifetime of the aforementioned light sources, I think that the scientific community would welcome broadband high-power UV LEDs, but I feel like these are some years away, though I've seen some stuff for IR/VIS. Decent light sources can be assembled from multiple UV leds of different wavelengths, as their spectrum is wide-ish, but they become exponentially more expensive and lower power at wavelengths below ... 365nm or so. Obviously this kind of a configuration also has the additional disadvantage of requiring optics to combine multiple light sources in a uniform way - not that complexity or expense has ever been an issue in high-end spectroscopy and such, but I suppose that since D2 and Xe lamps work just fine, why fix what ain't broke?
For what it's worth, power supplies for both show up on ebay from time to time. I've hesitated to buy them because they're often "untested", and we all know what that means,
but it might be worth a try. A 100W+ Xe short arc lamp could be a lot of fun, at the very least.
I do have a line on a mercury lamp from an old print / graphics arts shop (which I believe is basically a mercury vapor streetlight arc tube without the protective glass bulb), but I'm not sure how suitable that would be for an enlarger application, because the UV and heat output is ... considerable to say the least. I'm also much more comfortable working with LED voltages as opposed to the 200+V at high current for arc lamps.
I have a couple of brand-new deuterium lamps hanging around (they were like $15 each at the MIT Swapfest), and I'd love to have a power supply for them. I've got a really nice optical bench from an Ocean Optics USB2000 (which I also got for a song and a dance) that I'd love to make part of a UV/Vis spectrophotometer.
I've always been blown away by the build quality, precision and attention to detail of high-end scientific & optical equipment. But I suppose that's what you expect in a market segment where "inexpensive" products start at $3K +
