Ok...
Starting on page 372 of the PDF (which is what I have)...
Step 1, yeah there's a star system here.
Step 2, I roll 2d6, get a 4, so that's a single star.
Step 3 Red Dwarf. Temp mod is +2... (note that positive mods here are COOLER stars). Size V.
Step 4 Automatically color M, as it's a RD. So it's M_ V. Rolling a d10, I get a 9... so M9 V (sometimes written M9v). M is a +2 temp mod.
Step 5 Gas Giants. Roll 12 - not a one.
Step 6 Planetoids. Roll 10 - again, none. So, everything there is solid bodies.
Step 7 Lots of data...
Minimum orbit is 0 (because RD is main sequence color M)
hab zone is orbit 0 (Main sequence type M)
So we also run the standard gen for the mainworld...
and get E-75A535-9 ... a backwater noplace. And it's breathable, so it goes in Orbit 0, the hab zone.
Orbit 0 is temp mod –4. (from the table on 374).
Star is +2.
So climate is 1d20+2-4=17–2 = 15
And 15 is Frozen. So all that water is ICE!!! (We can assume the high albedo is why it's cold - it's not absorbing much of the light.)
The second planet is going to be in orbit 1 and have an orbit mod of –2, plus the stellar mod of +2, for +0.
Some other things we can extrapolate from this particular hell world...
The equatorial equinox temps are averaging no higher than –10°C by day, and –30°C at night (due to the thin atmosphere). (That's comparable to a Fairbanks, Alaska winter - at the equinox and equator.) Given that I want to keep it reasonably habitable - I pick that the average is really the least bad case for the roll...
Polar temps will average –71°C by day, and –91°C by night...
Axial Tilt roll is 10°... so we get +10° in summer and –15° in winter...
So, a table...
| Summer | Spring/Fall | Winter |
| 90° | -61/-81 | -71/-91 | -86/-106 |
| 75° | -53/-73 | -63/-83 | -78/-98 |
| 60° | -46/-66 | -56/-76 | -71/91 |
| 45° | -28/-48 | -48/-68 | -63/-83 |
| 30° | -21/-41 | -41/-61 | -56/-76 |
| 15° | -16/-36 | -26/-46 | -41/-61 |
| 0° | -1/-21 | -11/-31 | - |
Note that the winter polar is actually going to be pretty much all night temps... and right on the edge of CO2 frost in 0.5 ATM.
That's what the climate data generated gives... and here's the part not listed... interpreting it.
There will be some interesting water effects... given the half-atmosphere, water will be either solid or vapor... And the melt/boil point is about –30°C... at surface.
I can't find a good phase diagram for CO2, but extrapolating from several outside the regimes we want... the poles will have winter CO2 frosting....
Lovely place to be FROM...
If we want to make it even worse, note that it will have sub-ice oceans, especially if there's any orbital eccentricity...
http://acmg.seas.harvard.edu/people/faculty/djj/book/bookchap1-26.gif - O2 phase table
