I believe brown sound is only referring to overdriven clipped sounds, at least that is my impression

Tahoebrian5,
I will introduce you to a way of looking at the triode gain stage which allows you to think about the distortion level.
You put an input signal voltage on the grid.
You take an output signal voltage from the anode

What you have inbetween is a signal voltage generetor of Vg1k x mu. For a 12AX7 that is the grid 1 to cathhode voltage (Vg1k) x 100.
The output of this signal voltage generator feeds 2 resistances in series connecting to AC 0V forming a voltage divider
The first resistance is the internal tube ra, the second resistance is the anode load resistor Ra.
The output is take from the centre of these 2 resistors.
As the current in the tube changes with signal (swings up and down either side of the bias current) then the internal ra value changes. The Vg1k x mu generator signal does not.
It is that change in ra with signal which produces your distortion.

If you want to keep the harmonic Distortion content up then using a tube with high ra compared to the Ra value is what you want. The high ra is the most likely to give you high ra change with signal.
That means you do NOT want to use something other than a 12AX7.
The 12AX7 has an ra of 62K at usual operating current and is usually used with a Ra load resistor of 100K. That is why it gives a reasonable amount of distortion.
ASIDE: When you see 12AX7 used in HiFI circuits it is operated with Ra of 470K so that the delta ra vs Ra is small hence small distortion. (delta means "change of")

For more distortion:
Increase the delta ra vs Ra by
1) reduce the operating current by increasing the cathode bias resistor, that increases ra and therefore also increases the change in ra with signal
2) reduce the Anode Load resistor Ra, try say 82K 68K or even 47K instead of the 100K, That makes the ra change more significant compared to Ra and so you get more distortion.

Hope this make sense to you.

Check out the page labelled 345 here:
http://tdsl.duncanamps.com/pdf/vm345.pdf

This is the data for a 12AX7A / ECC83 Tube.

That shows you the change in Ri with operating current, Ri is what Merlin calls ra and so I used ra as well (sometimes this is also called rp).
For maximum distortion you want to operate on that part of teh Ri curve which shows maximum slope, that is at the low current end.

Cheers,
Ian

Maybe you should consider using FET rather than a tube if you want more 2nd harmonic. Just a thought, check out this link.

A closer look at the Fetzer Valve

I have a Yamaha JX series amp (all SS) that uses a FET for the first gain stage and it has a wonderful clean sound. Easily rivals any of my tube amps.

But FETs have drain curves more resemble pentodes, not triodes. This means it has higher drain resistance than plate resistance than triode.

Thank you GT, that was actually quite enlightening and a different way of thinking about the circuit in general. So it sounds like my assumption that there are other triodes out there with more inherent THD , due to changing internal Ra, is not true. I had come across the idea reading thru random build threads and lost it. I guess you can't believe everything you read online! So lower B+ and lower anode resistors will get me more THD, thank you!

Any free simulation for tubes? Does LT spice simulate preamp tubes and it's distortion?

But a unity-gain FET front-end on a tube amp sounds wonderful (to me) and improves the clean sound of almost any amp, but this is probably more to do with impedance matching. Sounds like taking a blanket off the amp.

But a unity-gain FET front-end on a tube amp sounds wonderful (to me) and improves the clean sound of almost any amp, but this is probably more to do with impedance matching. Sounds like taking a blanket off the amp.

I think that it is easier to viualize if you use an AC equivalent circuit with a voltage generator of Vg1k x mu and a series connected rp + RL (using your terms)
BUT
If we look at the AC equivalent circuit you used, using a current source, the same thing can be seen. the parallel combination of RL and rp will change as rp changes. Thus it is still the delta rp which is the source of the distortion and it is still the delta rp size compared with RL that determines the amount of distortion.

The statement "RL needs to be as large as possible to let rp dominate" is not quite right. The distortion source is not rp itself but the delta rp due to the change in current with signal swing. Delta rp will always be smaller than RL. to get maximum change in the parallel combination of rp and RL you want RL as small as possible.

Let me add one bit to Gingertube's exposition: In my mind, where you choose the bias point (hot, cold, centered) has a great deal of effect on the second harmonic distortion that you get from a tube. All else being equal, changing the cathode resistor in a preamp stage can vary the output waveform immensely, with audible results. Take GT's math and run with it - understand the engineering principles and they will serve you well!