The Kemper then raises an interesting situation; if the characteristics of the modelled amp are near-identical to the original, then given a clean SS amp with enough headroom, would the subjective loudness of the Kemper not be the same?

In the AES journal, May 1973 article titled "Tubes versus Transistors: Is There An Audible Difference" concluded:

“Vacuum-tube amplifiers differ from transistor and operational amplifiers because they can be operated in the overload region without adding objectionable distortion. The combination of the slow rising edge and the open harmonic structure of the overload characteristics form an almost ideal sound- recording compressor. Within the 15-20 dB "safe" overload range, the electrical output of the tube amplifier increases by only 2-4 dB, acting like a limiter. However, since the edge is increasing within this range, the subjective loudness remains uncompressed to the ear. This effect causes tube-amplified signals to have a high apparent level, which is not indicated on a volume indicator (VU meter). Tubes sound louder and have a better signal-to-noise ratio because of this extra subjective headroom that transistor amplifiers do not have. Tubes get punch from their naturally brassy overload characteristics. Since the loud signals can be recorded at higher levels, the softer signals are also louder, so they are not lost in tape hiss and they effectively give the tube sound greater clarity. The feeling of more bass response is directly related to the strong second and third harmonic components, which reinforce the "natural" bass with "synthetic" bass [5]. In the context of a limited dynamic range system like the phonograph, recordings made with vacuum-tube pre-amplifiers will have more apparent level and a greater signal to system noise ratio than recordings made with transistors or operational amplifiers.”

My guess is that extreme overdrive pushes the power tubes effectively into class C, so the spikes are crossover artifact.
Due to the combined effects on the operating point of bias shift at the control grids, 'squish' as the cathode voltage rises, and 'sag' as the screen grid HT voltage drops.

I think that your fixed bias and 100k control grid stoppers may act to reduce / eliminate those effects.

A 1973 article that has not a lot to do with distorting guitars. Also transistor amps were really not at their best in '73.

There's many possible explanations here, only bench testing will tell which one applies.

1) Preamp/emulator might not be driving power amp to full power, because signal levels do not match, as Enzo suggested.
Which sounds plausible to me.
I have tested SS and tube amps side by side countless times, clipping tube amps sound *somewhat* louder than same nominal power SS ones, will comment on that later, but it's not that big a difference.
Driving same speakers, a 100W SS amp easily matches a 50W tube one, yet you say that a 90W one (practically same as 100W) is WAY weaker than the Marshall, WAY means at least a 6dB difference and that's definitely not right ... unless the SS one is NOT driven anywhere near clipping.
Once SS amps clip, they don't lose power by any means, but the ruler flat waveform tops kill definition and harmonics, sound becomes muddy, instrument loses character, "all sound the same" , and that will be perceived as: "they don't cut in the mix or onstage" .but not that they have less *volume* , just flatter boring sound.

I'll show some clipping waveforms so you see what I am talking about

Marshall 18W, famous for its biting aggressive sound, so much so that some (mistakenly) add "buzz caps" to tame it; notice the sharp peaks, they are heard very well, believe me:


a standard tube amp, where one tube is weaker than the other so it clips earlier and has trouble reaching the same peak as the good one, not shown but I guess the PI is also clipping, we have the transformer which is a bandpass filter changing shape, the PI>power tube coupling cap also changes waveform shape, anything changing waveform away from a sinewave will add harmonics and our ear may hear them better:


here you see different clipping methods, used in SS amps and pedals, notice that NONE of them looks or does the same as a tube amp clipping , even if some pedals using them call themselves Tube Screamer or Hottubes
The last one, showing an Op Amp clipping, is the exact same square, flat top waveform of an SS power amp clipping ... for the very good reason that a standard SS power amp is just a "large" Op Amp, large enough to drive speakers


other SS clipping waveforms, one barely clipping , the other somewhat more, in any case different from tube ones:




some SS amps add special feedback to become "constant current" or "high impedance" outputs, emulating *one* tube characteristic (they still miss many others), in that case the square wave reacts to the speaker voice coil inductance and creates a front edge peak which adds some bite, look at the bottom waveform, and look for a similar peak at the "18W" clipping:


our friend Loudthud has generously posted tons of scope capture waveforms, very enlightening.

Measuring output power at onset of clipping is fine for hifi. But no one stops turning up their guitar amp after the onset of clipping. And if a "50 watt" amp starts clipping at say 25 watts, whatever it outs out fully cranked will not be a pure sine wave, but it sure as hell can blow a 25 watt speaker. Watts are watts if you are comparing watts, but we are comparing amplifiers, not watts.

If one amp is louder than the other, of course its speaker is getting more power. As was said, a "50 watt" tube amp can put more power into a speaker than can a "50 watt" SS amp. Is it "fair"? Is it a "legitimate" way to measure output power? Who knows or cares?

Also bear in mind that tube amps generally have significant output impedance, which allows their output voltage to better track speaker impedance, which is above its nominal impedance over much of the applicable frequency band.
Whereas solid state amps tend to be configured to hit the rails at a particular output voltage, which will tend to be largely irrespective of the load impedance rising above nominal.
So viewed from that perspective, tube watts are louder!

In theory the OT should allow higher voltages but if the current is not there, the PS is sagging, then you are still limited by the PS

When I scope a tube amp I see them hitting the rail as a SS amp, the above pictures shows the same

in the end the tubes can only put out what the PS can give.