link Issues

Diurnal CO₂ condensation and defrosting often leads to rather small instabilities. Most often, these instabilities yield surface temperature oscillations of a fraction of a K.

But near the local time of first frost deposition and last frost removal, oscillations can reach 20+K, without clear consequences for temperatures calculated at other times.

dv> out=krc(lat=-30.,INERTIA=30.)
dv> plot(out.tsurf[,,],"I=30 SI")
dv>

Sets DELLS=0. to avoid this issue but error message: Please do not set both DELLS and DELJUL XXX

OUT = krc(T=190,ls=359.99,hour=4.,lat=12.,lon=12.,DELLS=0.)

Under some circumstances, a random line is printed on the screen ("Line is at 1000000") / Assigned to CSE

OUT = krc(lat = 0., INERTIA = 045., N1 = 32, body = "Jupiter,Europa", bodytype = "minor", N24 = 96, Eclipse = "T", Eclipser="Jupiter_Jupiter", Ecl_Cent_Hr = 12., Bias = 0., Eclipse_Style = 1., Date = 5000.)

When running airless body cases, atmospheric parameters (and elevation etc.) are printed on the screen, like opacity, elevation, etc. This needs to be removed.

When running a body with made up parameters, an error message appears:

structure does not contain member: rot

tmp = generic_porb(e = 0, a = 1., i = 1.3, node = 100.4, peri = 293.9, m = 79.6, rot_per = 200., polera = 273.8, poledec = 0., merid = 7.7, period = 4332.5, name = "IdealJupiterTrojan_like_Comet")
out = krc( lat = 0., lon = 0, INERTIA = 20., ALBEDO =.05, LKofT = "F", body = tmp, bodytype = "comet")

out = krc(lat = 0, INERTIA = 45., body="Earth,Moon", bodytype = "minor", ALBEDO = .12, LKofT = "F", ls = 0.)

"WARNING: You may not select a DELJUL < 27.3216 as it will compound time of day and season into the output. Resetting to 27.3216"

The default case returns more than one day worth of temperatures, and a seemingly random number of time of days. Some scalling somewhere needs to be performed.

At least on the screen, SPECIFIC HEAT is printed as the default value and not as the value provided by the user.

SphUp0 = SphLo0 = SPEC_HEAT = 711.598

SphUp1 = SphLo1 = 257.367

SphUp2 = SphLo2 = -3.53164

SphUp3 = SphLo3 = 47.1352

out = krc(lat=0.,lon=0.,ls=0.,T_user=220.,LKofT="T",body="minor,Bennu",ls=0.,INERTIA=300.,SphUp0=SphUp0,SphUp1=SphUp1,SphUp2=SphUp2,SphUp3=SphUp3,SPEC_HEAT=SPEC_HEAT)

Upper Material: INERTIA: 300.00 CONDUCTIVITY: 0.0680* DENSITY: 1860.00* SPECIFIC HEAT: 711.60 POROSITY: 0.40