CRAN Package Check Results for Package CHNOSZ

Last updated on 2019-04-22 01:47:32 CEST.

Flavor Version Tinstall Tcheck Ttotal Status Flags
r-devel-linux-x86_64-debian-clang 1.3.1 18.68 253.89 272.57 ERROR
r-devel-linux-x86_64-debian-gcc 1.3.1 14.65 237.17 251.82 OK
r-devel-linux-x86_64-fedora-clang 1.3.2 423.23 OK
r-devel-linux-x86_64-fedora-gcc 1.3.1 OK
r-devel-windows-ix86+x86_64 1.3.1 46.00 568.00 614.00 NOTE
r-patched-linux-x86_64 1.3.1 17.21 306.98 324.19 OK
r-patched-solaris-x86 1.3.2 497.20 NOTE
r-release-linux-x86_64 1.3.1 15.13 309.97 325.10 OK
r-release-windows-ix86+x86_64 1.3.2 34.00 410.00 444.00 OK
r-release-osx-x86_64 1.3.1 OK
r-oldrel-windows-ix86+x86_64 1.3.1 17.00 672.00 689.00 OK
r-oldrel-osx-x86_64 1.3.1 OK

Check Details

Version: 1.3.1
Check: examples
Result: ERROR
    Running examples in 'CHNOSZ-Ex.R' failed
    The error most likely occurred in:
    
    > base::assign(".ptime", proc.time(), pos = "CheckExEnv")
    > ### Encoding: UTF-8
    >
    > ### Name: EOSregress
    > ### Title: Regress Equations-of-State Parameters for Aqueous Species
    > ### Aliases: EOSregress EOSvar EOScalc EOSplot EOSlab EOScoeffs Cp_s_var
    > ### V_s_var
    >
    > ### ** Examples
    >
    > ## Don't show:
    > reset()
    reset: resetting "thermo" object
    obigt: loading default database with 1891 aqueous, 3406 total species
    > ## End(Don't show)
    > ## fit experimental heat capacities of CH4
    > ## using revised Helgeson-Kirkham-Flowers equations
    > <ERROR: re-encoding failure from encoding 'UTF-8'>
    # read the data from Hn...
    > f <- system.file("extdata/cpetc/Cp.CH4.HW97.csv", package="CHNOSZ")
    > d <- read.csv(f)
    > # have to convert J to cal and MPa to bar
    > d$Cp <- convert(d$Cp, "cal")
    > d$P <- convert(d$P, "bar")
    > # specify the terms in the HKF equations
    > var <- c("invTTheta2", "TXBorn")
    > # perform regression, with a temperature limit
    > EOSlm <- EOSregress(d, var, T.max=600)
    > # calculate the Cp at some temperature and pressure
    > EOScalc(EOSlm$coefficients, 298.15, 1)
    [1] 62.44915
    > # get the database values of c1, c2 and omega for CH4(aq)
    > CH4coeffs <- EOScoeffs("CH4", "Cp")
    checkEOS: Cp of methane aq (881) differs by -2.61 cal K-1 mol-1 from tabulated value
    > ## make plots comparing the regressions
    > ## with the accepted EOS parameters of CH4
    > par(mfrow=c(2,2))
    > EOSplot(d, T.max=600)
    EOSplot: plotting line for P=279.96 bar
    > title("Cp of CH4(aq), fit to 600 K")
    > <ERROR: re-encoding failure from encoding 'UTF-8'>
    legend("bottomleft", pch=1, legend="Hn...
    + EOSplot(d, coefficients=CH4coeffs)
    + title("Cp from EOS parameters in database")
    Error: unexpected symbol in:
    "EOSplot(d, coefficients=CH4coeffs)
    title("Cp"
    Execution halted
Flavor: r-devel-linux-x86_64-debian-clang

Version: 1.3.1
Check: re-building of vignette outputs
Result: WARN
    Error(s) in re-building vignettes:
     ...
    --- re-building 'anintro.Rmd' using rmarkdown
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(a_H2O) at 128 values from -12 to 0
    affinity: variable 2 is Eh at 128 values from -0.4 to -0.2 V
    subcrt: 11 species at 373.15 K and 1.01 bar (wet)
    balance: moles of CO2 in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(a_H2O) at 128 values from -12 to 0
    subcrt: 11 species at 373.15 K and 1.01 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 5 4 5 5 4
    equilibrate: loga.balance is -1.63827216398241
    equilibrate: using reaction method
    checkEOS: Cp of methane aq (881) differs by -2.61 cal K-1 mol-1 from tabulated value
    checkEOS: Cp of methane aq (881) differs by -2.61 cal K-1 mol-1 from tabulated value
    checkEOS: Cp of methane aq (881) differs by -2.61 cal K-1 mol-1 from tabulated value
    subcrt: 1 species at 5511 values of T and P (wet)
    changed temperature units to K
    changed pressure units to MPa
    changed energy units to J
    info.character: found methane(aq); other available states are liq, gas
    subcrt: 1 species at 298.15 K and 1 bar (wet)
    info.character: found methane(aq); other available states are liq, gas
    checkEOS: Cp of methane aq (881) differs by -2.61 cal K-1 mol-1 from tabulated value
    subcrt: 2 species at 36 values of T and P (wet)
    subcrt: 2 species at 36 values of T and P (wet)
    subcrt: 2 species at 36 values of T and P (wet)
    info.character: found methane(aq); other available states are liq, gas
    subcrt: 2 species at 15 values of T and P (wet)
    subcrt: reaction is not balanced; it is missing this composition:
     C H O Z
     1 -1 2 -1
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 4 species at 15 values of T and P (wet)
    subcrt: 1 species at 15 values of T and P (wet)
    subcrt: reaction is not balanced; it is missing this composition:
     C H O Z
     2 3 2 -1
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 5 species at 15 values of T and P (wet)
    info.character: found methane(aq); other available states are liq, gas
    subcrt: 1 species at 15 values of T and P (wet)
    subcrt: reaction is not balanced; it is missing this composition:
     C H
    -1 -4
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 4 species at 15 values of T and P (wet)
    info.character: found methane(aq); other available states are liq, gas
    subcrt: 2 species at 15 values of T and P (wet)
    subcrt: reaction is not balanced; it is missing this composition:
     C H O Z
     1 -1 2 -1
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 4 species at 15 values of T and P (wet)
    changed energy units to J
    subcrt: 2 species at 328.15 K and 50 bar (wet)
    subcrt: reaction is not balanced; it is missing this composition:
     C H O Z
     1 -1 2 -1
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 4 species at 328.15 K and 50 bar (wet)
    subcrt: 1 species at 328.15 K and 50 bar
    subcrt: reaction is not balanced; it is missing this composition:
     C H
    -1 -4
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 4 species at 328.15 K and 50 bar (wet)
    subcrt: 2 species at 328.15 K and 50 bar (wet)
    subcrt: 2 species at 328.15 K and 50 bar (wet)
    subcrt: reaction is not balanced; it is missing this composition:
     C H O Z
     2 3 2 -1
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 6 species at 328.15 K and 50 bar (wet)
    subcrt: 2 species at 328.15 K and 50 bar (wet)
    subcrt: reaction is not balanced; it is missing this composition:
     C H O Z
     1 -1 2 -1
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 4 species at 328.15 K and 50 bar (wet)
    subcrt: 2 species at 328.15 K and 50 bar (wet)
    subcrt: reaction is not balanced; it is missing this composition:
     C H
    -1 -4
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 5 species at 328.15 K and 50 bar (wet)
    subcrt: 2 species at 328.15 K and 50 bar (wet)
    subcrt: 2 species at 328.15 K and 50 bar (wet)
    subcrt: reaction is not balanced; it is missing this composition:
     C H O Z
     2 3 2 -1
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 6 species at 328.15 K and 50 bar (wet)
    subcrt: 2 species at 328.15 K and 50 bar (wet)
    subcrt: reaction is not balanced; it is missing this composition:
     C H O Z
     1 -1 2 -1
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 4 species at 328.15 K and 50 bar (wet)
    subcrt: 2 species at 328.15 K and 50 bar (wet)
    subcrt: reaction is not balanced; it is missing this composition:
     C H
    -1 -4
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 5 species at 328.15 K and 50 bar (wet)
    reset: resetting "thermo" object
    obigt: loading default database with 1891 aqueous, 3406 total species
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 128 values from 0 to 12
    affinity: variable 2 is Eh at 128 values from -0.5 to 1 V
    subcrt: 10 species at 298.15 K and 1 bar (wet)
    balance: moles of H2S in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    balance: moles of H2S in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    info.numeric: Cp of chalcocite(cr) is NA; set by EOS parameters to 18.24
    info.numeric: Cp of chalcocite(cr2) is NA; set by EOS parameters to 24.59
    info.numeric: Cp of chalcocite(cr3) is NA; set by EOS parameters to 20.32
    info.character: found H2S(aq); other available state is gas
    affinity: temperature is 200 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 300 values from 0 to 12
    affinity: variable 2 is Eh at 300 values from -1.2 to 0.75 V
    subcrt: 21 species at 473.15 K and 15.54 bar (wet)
    subcrt: 3 phases for chalcocite ... phase 2 is stable
    mosaic: calculating affinities of basis species group 1: H2S HS- HSO4- SO4-2
    mosaic: calculating affinities of species for all 4 combinations of the basis species
    balance: moles of H2S in formation reactions
    equilibrate: n.balance is 1 1 1 1
    equilibrate: loga.balance is -2.39794000867204
    equilibrate: using boltzmann method
    balance: moles of Cu in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    balance: moles of H2S in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    info.character: found H2S(aq); other available state is gas
    affinity: temperature is 200 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 300 values from -2 to 12
    affinity: variable 2 is Eh at 300 values from -1 to 1 V
    subcrt: 21 species at 473.15 K and 15.54 bar (wet)
    subcrt: 3 phases for chalcocite ... phase 2 is stable
    mosaic: calculating affinities of basis species group 1: H2S HS- HSO4- SO4-2
    mosaic: calculating affinities of species for all 4 combinations of the basis species
    balance: moles of H2S in formation reactions
    equilibrate: n.balance is 1 1 1 1
    equilibrate: loga.balance is -2.39794000867204
    equilibrate: using boltzmann method
    balance: moles of Cu in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    balance: moles of H2S in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    info.character: found H2S(aq); other available state is gas
    affinity: temperature is 200 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 300 values from -2 to 12
    affinity: variable 2 is log10(a_H2) at 300 values from -30 to 10
    subcrt: 21 species at 473.15 K and 15.54 bar (wet)
    subcrt: 3 phases for chalcocite ... phase 2 is stable
    mosaic: calculating affinities of basis species group 1: H2S HS- HSO4- SO4-2
    mosaic: calculating affinities of species for all 4 combinations of the basis species
    balance: moles of H2S in formation reactions
    equilibrate: n.balance is 1 1 1 1
    equilibrate: loga.balance is -2.39794000867204
    equilibrate: using boltzmann method
    balance: moles of Cu in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    balance: moles of H2S in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    info.character: found H2S(aq); other available state is gas
    affinity: temperature is 200 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 300 values from -2 to 12
    affinity: variable 2 is log10(f_O2) at 300 values from -70 to 5
    subcrt: 21 species at 473.15 K and 15.54 bar (wet)
    subcrt: 3 phases for chalcocite ... phase 2 is stable
    mosaic: calculating affinities of basis species group 1: H2S HS- HSO4- SO4-2
    mosaic: calculating affinities of species for all 4 combinations of the basis species
    balance: moles of H2S in formation reactions
    equilibrate: n.balance is 1 1 1 1
    equilibrate: loga.balance is -2.39794000867204
    equilibrate: using boltzmann method
    balance: moles of Cu in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    balance: moles of H2S in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    affinity: pressure is Psat
    affinity: variable 1 is T at 18 values from 278.596 to 622.8 K
    affinity: variable 2 is log10(a_CO2) at 18 values from -3.6506 to -1.8288
    affinity: variable 3 is log10(a_H2) at 18 values from -47.4549 to -1.8288
    affinity: variable 4 is log10(a_NH4+) at 18 values from -6.2165 to -4.5641
    affinity: variable 5 is log10(a_H2S) at 18 values from -5.2891 to -2.9213
    affinity: variable 6 is pH at 18 values from 3.0312 to 7.1784
    subcrt: 14 species at 18 values of T and P (wet)
    balance: from numeric argument value
    diagram: plotting A/(2.303RT) / n.balance
    affinity: temperature is 300 C
    affinity: pressure is 100 bar
    subcrt: 7 species at 573.15 K and 100 bar (wet)
    affinity: temperature is 300 C
    affinity: pressure is 100 bar
    affinity: loading buffer species
    subcrt: 7 species at 573.15 K and 100 bar (wet)
    buffer: ( PPM ) for activity of H2S O2 (active), FeS2 (conserved)
    affinity: pressure is 300 bar
    affinity: variable 1 is T at 128 values from 273.15 to 623.15 K
    affinity: loading buffer species
    subcrt: 9 species at 128 values of T and P (wet)
    subcrt: 4 phases for iron ... phases 2,1 are stable
    subcrt: 4 phases for iron ... phases 2,1 are stable
    buffer: ( FeFeO ) for activity of H2 (active), Fe (conserved)
    affinity: pressure is 300 bar
    affinity: variable 1 is T at 128 values from 273.15 to 623.15 K
    affinity: loading buffer species
    subcrt: 10 species at 128 values of T and P (wet)
    subcrt: 4 phases for iron ... phases 2,1 are stable
    buffer: ( QFM ) for activity of H2 (active), SiO2, Fe (conserved)
    affinity: pressure is 300 bar
    affinity: variable 1 is T at 128 values from 273.15 to 623.15 K
    affinity: loading buffer species
    subcrt: 10 species at 128 values of T and P (wet)
    subcrt: temperature(s) of 598.346850393701 K and above exceed limit for pyrrhotite cr2 (extrapolating G)
    subcrt: 4 phases for iron ... phases 2,1 are stable
    buffer: ( PPM ) for activity of H2 (active), H2S, Fe (conserved)
    affinity: pressure is 300 bar
    affinity: variable 1 is T at 128 values from 273.15 to 623.15 K
    affinity: loading buffer species
    subcrt: 9 species at 128 values of T and P (wet)
    subcrt: 4 phases for iron ... phases 2,1 are stable
    buffer: ( HM ) for activity of H2 (active), Fe (conserved)
    affinity: pressure is 300 bar
    affinity: variable 1 is T at 128 values from 273.15 to 623.15 K
    subcrt: 9 species at 128 values of T and P (wet)
    subcrt: 4 phases for iron ... phase 1 is stable
    affinity: pressure is 300 bar
    affinity: variable 1 is T at 128 values from 273.15 to 623.15 K
    subcrt: 9 species at 128 values of T and P (wet)
    subcrt: 4 phases for iron ... phase 1 is stable
    affinity: pressure is 300 bar
    affinity: variable 1 is T at 128 values from 273.15 to 623.15 K
    subcrt: 9 species at 128 values of T and P (wet)
    subcrt: 4 phases for iron ... phase 1 is stable
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 128 values from 4 to 13
    subcrt: 9 species at 298.15 K and 1 bar (wet)
    affinity: temperature is 150 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 128 values from 4 to 13
    subcrt: 9 species at 423.15 K and 4.76 bar (wet)
    balance: moles of CO2 in formation reactions
    diagram: plotting A/(2.303RT) / n.balance
    balance: moles of CO2 in formation reactions
    diagram: plotting A/(2.303RT) / n.balance
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 1 1 1
    equilibrate: loga.balance is -3
    equilibrate: using boltzmann method
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 1 1 1
    equilibrate: loga.balance is -3
    equilibrate: using boltzmann method
    add.obigt: read 119 rows; made 40 replacements, 79 additions, units = cal
    add.obigt: use obigt() or reset() to restore default database
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 128 values from 0 to 10
    subcrt: 9 species at 298.15 K and 1 bar (wet)
    solubility: test for dissociation reaction returns FALSE
    balance: moles of Al2O3 in formation reactions
    reset: resetting "thermo" object
    obigt: loading default database with 1891 aqueous, 3406 total species
    info.character: found methanol(aq); other available states are liq, gas
    info.character: found acetone(aq); other available states are liq, gas
    info.character: found acetic acid(aq); other available state is liq
    info.character: found n-dodecanoic acid(aq); other available state is liq
    info.character: found ethylene(aq); other available state is gas
    affinity: pressure is Psat
    affinity: variable 1 is T at 343 values from 281.15 to 623.15 K
    affinity: variable 2 is log10(f_O2) at 343 values from -79.68124673285 to -33.0210103059345
    affinity: variable 3 is pH at 343 values from 4.30780425406988 to 6.99186808462121
    subcrt: 51 species at 343 values of T and P (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 1 1 1 2 3 4 5 6 7 8 3 4 5 6 7 8 2 3 4 5 6 7 8 9 10 11 12 2 3 4 5 6 7 8 9 10 11 12 2 3 4 5 6 7 8
    equilibrate: loga.balance is -2.5
    equilibrate: using reaction method
    subcrt: 5 species at 298.15 K and 1 bar (wet)
    subcrt: 5 species at 298.15 K and 1 bar (wet)
    affinity: temperature is 250 C
    affinity: pressure is 265 bar
    affinity: variable 1 is log10(f_O2) at 200 values from -50 to -25
    affinity: variable 2 is log10(f_CO2) at 200 values from -10 to 15
    subcrt: 25 species at 523.15 K and 265 bar (wet)
    info.character: found alanine(aq); other available state is cr
    info.character: found cysteine(aq); other available state is cr
    info.character: found aspartic acid(aq); other available state is cr
    info.character: found glutamic acid(aq); other available state is cr
    info.character: found phenylalanine(aq); other available state is cr
    info.character: found glycine(aq); other available state is cr
    info.character: found histidine(aq); other available state is cr
    info.character: found isoleucine(aq); other available state is cr
    info.character: found lysine(aq); other available state is cr
    info.character: found leucine(aq); other available state is cr
    info.character: found methionine(aq); other available state is cr
    info.character: found asparagine(aq); other available state is cr
    info.character: found proline(aq); other available state is cr
    info.character: found glutamine(aq); other available state is cr
    info.character: found arginine(aq); other available state is cr
    info.character: found serine(aq); other available state is cr
    info.character: found threonine(aq); other available state is cr
    info.character: found valine(aq); other available state is cr
    info.character: found tryptophan(aq); other available state is cr
    info.character: found tyrosine(aq); other available state is cr
    balance: from numeric argument value
    diagram: using maximum affinity method for 2-D diagram
    balance: moles of CO2 in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    balance: moles of H2O in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    balance: moles of N2 in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    balance: from volume
    diagram: using maximum affinity method for 2-D diagram
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 128 values from 3 to 9
    subcrt: 13 species at 373.15 K and 1.01 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10
    equilibrate: loga.balance is -1.30102999566398
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is pH at 128 values from 3 to 9
    subcrt: 13 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10
    equilibrate: loga.balance is -1.30102999566398
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is pH at 128 values from 3 to 9
    subcrt: 17 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3-, MgC10H12N5O13P3-2, MgC10H13N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3, MgC10H14N5O13P3, Mg2C10H12N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10 10 10 10 10
    equilibrate: loga.balance is -1.04575749056068
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is pH at 128 values from 3 to 9
    subcrt: 17 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3-, MgC10H12N5O13P3-2, MgC10H13N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3, MgC10H14N5O13P3, Mg2C10H12N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10 10 10 10 10
    equilibrate: loga.balance is -1.04575749056068
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is pH at 128 values from 3 to 9
    subcrt: 17 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3-, MgC10H12N5O13P3-2, MgC10H13N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3, MgC10H14N5O13P3, Mg2C10H12N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10 10 10 10 10
    equilibrate: loga.balance is -1.04575749056068
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is pH at 128 values from 3 to 9
    subcrt: 17 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3-, MgC10H12N5O13P3-2, MgC10H13N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3, MgC10H14N5O13P3, Mg2C10H12N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10 10 10 10 10
    equilibrate: loga.balance is -1.04575749056068
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is pH at 128 values from 3 to 9
    subcrt: 17 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3-, MgC10H12N5O13P3-2, MgC10H13N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3, MgC10H14N5O13P3, Mg2C10H12N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10 10 10 10 10
    equilibrate: loga.balance is -1.04575749056068
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is log10(a_Mg+2) at 128 values from -2 to -7
    subcrt: 17 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3-, MgC10H12N5O13P3-2, MgC10H13N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3, MgC10H14N5O13P3, Mg2C10H12N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10 10 10 10 10
    equilibrate: loga.balance is -1.04575749056068
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is log10(a_Mg+2) at 128 values from -2 to -7
    subcrt: 17 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3-, MgC10H12N5O13P3-2, MgC10H13N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3, MgC10H14N5O13P3, Mg2C10H12N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10 10 10 10 10
    equilibrate: loga.balance is -1.04575749056068
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is log10(a_Mg+2) at 128 values from -2 to -7
    subcrt: 17 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3-, MgC10H12N5O13P3-2, MgC10H13N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3, MgC10H14N5O13P3, Mg2C10H12N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10 10 10 10 10
    equilibrate: loga.balance is -1.04575749056068
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is log10(a_Mg+2) at 128 values from -2 to -7
    subcrt: 17 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3-, MgC10H12N5O13P3-2, MgC10H13N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3, MgC10H14N5O13P3, Mg2C10H12N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10 10 10 10 10
    equilibrate: loga.balance is -1.04575749056068
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is log10(a_Mg+2) at 128 values from -2 to -7
    subcrt: 17 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3-, MgC10H12N5O13P3-2, MgC10H13N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3, MgC10H14N5O13P3, Mg2C10H12N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10 10 10 10 10
    equilibrate: loga.balance is -1.04575749056068
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is log10(a_Mg+2) at 128 values from -2 to -7
    subcrt: 17 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3-, MgC10H12N5O13P3-2, MgC10H13N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3, MgC10H14N5O13P3, Mg2C10H12N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10 10 10 10 10
    equilibrate: loga.balance is -1.04575749056068
    equilibrate: using reaction method
    affinity: temperature is 100 C
    affinity: pressure is Psat
    affinity: ionic strength is 0.25
    affinity: variable 1 is log10(a_Mg+2) at 128 values from -2 to -7
    subcrt: 17 species at 373.15 K and 1.01 bar (wet)
    nonideal: calculations for Mg+2, C10H12N5O13P3-4, C10H13N5O13P3-3, C10H14N5O13P3-2, C10H15N5O13P3-, MgC10H12N5O13P3-2, MgC10H13N5O13P3- (Alberty equation)
    nonideal: calculations for CO2, NH3, H3PO4, H2S, C10H16N5O13P3, MgC10H14N5O13P3, Mg2C10H12N5O13P3 (Setchenow equation)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 10 10 10 10 10 10 10 10 10
    equilibrate: loga.balance is -1.04575749056068
    equilibrate: using reaction method
    protein.obigt: found LYSC_CHICK (C613H959N193O185S10, 129 residues)
    subcrt: 1 species at 15 values of T and P (wet)
    protein.obigt: found CYC_BOVIN (C517H825N143O150S4, 104 residues)
    subcrt: 1 species at 151 values of T and P (wet)
    protein.obigt: found CYC_BOVIN (C517H825N143O150S4, 104 residues)
    subcrt: 1 species at 151 values of T and P
    subcrt: 1 species at 151 values of T and P (wet)
    protein.obigt: found LYSC_CHICK (C613H959N193O185S10, 129 residues)
    subcrt: 1 species at 151 values of T and P
    protein.obigt: found MYG_PHYCA (C783H1240N216O216S2, 153 residues)
    subcrt: 1 species at 151 values of T and P (wet)
    protein.obigt: found MYG_PHYCA (C783H1240N216O216S2, 153 residues)
    subcrt: 1 species at 151 values of T and P
    protein.obigt: found RNAS1_BOVIN (C575H909N171O193S12, 124 residues)
    subcrt: 1 species at 151 values of T and P (wet)
    protein.obigt: found RNAS1_BOVIN (C575H909N171O193S12, 124 residues)
    subcrt: 1 species at 151 values of T and P
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 128 values from 0 to 14
    subcrt: 27 species at 298.15 K and 1 bar (wet)
    subcrt: 18 species at 298.15 K and 1 bar (wet)
    affinity: temperature is 25 C
    affinity: pressure is Psat
    subcrt: 26 species at 298.15 K and 1 bar (wet)
    affinity: temperature is 25 C
    affinity: pressure is Psat
    subcrt: 9 species at 298.15 K and 1 bar (wet)
    read.fasta: reading rubisco.fasta ... 239 lines ... 27 sequences
    add.protein: added 5 new protein(s) to thermo$protein
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 128 values from -80 to -73
    subcrt: 27 species at 298.15 K and 1 bar (wet)
    subcrt: 18 species at 298.15 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 1273 929 297 876 2195
    equilibrate: loga.balance is 0
    equilibrate: using reaction method
    balance: from protein length
    equilibrate: n.balance is 1273 929 297 876 2195
    equilibrate: loga.balance is 0
    equilibrate: using 'normalize' for molar formulas
    equilibrate: using boltzmann method
    revisit: calculating DGinf in 1 dimensions
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(a_H2O) at 50 values from -5.5 to 0.5
    affinity: variable 2 is log10(f_O2) at 50 values from -106 to -70
    subcrt: 26 species at 298.15 K and 1 bar (wet)
    balance: from numeric argument value
    diagram: plotting A/(2.303RT) / n.balance
    read.fasta: reading EF-Tu.aln ... 64 lines ... 8 sequences
    protein.obigt: found PRIO_HUMAN (C1227H1834N352O352S16, 253 residues)
    subcrt: 1 species at 298.15 K and 1 bar (wet)
    affinity: temperature is 25 C
    affinity: pressure is Psat
    subcrt: 6 species at 298.15 K and 1 bar (wet)
    add.protein: added 2 new protein(s) to thermo$protein
    affinity: temperature is 25 C
    affinity: pressure is Psat
    subcrt: 27 species at 298.15 K and 1 bar (wet)
    add.protein: added 5 new protein(s) to thermo$protein
    affinity: pressure is Psat
    affinity: variable 1 is T at 300 values from 323.15 to 373.15 K
    affinity: variable 2 is log10(a_H2) at 300 values from -8 to -3
    subcrt: 27 species at 300 values of T and P (wet)
    subcrt: 18 species at 300 values of T and P (wet)
    balance: from protein length
    diagram: using maximum affinity method for 2-D diagram
    diagram: using 'normalize' in calculation of predominant species
    info.character: found aspartic acid(aq); other available state is cr
    info.character: found threonine(aq); other available state is cr
    info.character: found serine(aq); other available state is cr
    info.character: found glutamic acid(aq); other available state is cr
    info.character: found glycine(aq); other available state is cr
    info.character: found alanine(aq); other available state is cr
    info.character: found lysine(aq); other available state is cr
    info.character: found histidine(aq); other available state is cr
    affinity: temperature is 270 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 64 values from -50 to -25
    subcrt: 13 species at 543.15 K and 55 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 4 4 3 5 2 3 6 6
    equilibrate: loga.balance is -4.45854557125241
    equilibrate: using reaction method
    revisit: calculating RMSD in 1 dimensions
    affinity: temperature is 270 C
    affinity: pressure is Psat
    subcrt: 13 species at 543.15 K and 55 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 4 4 3 5 2 3 6 6
    equilibrate: loga.balance is -4.45854557125241
    equilibrate: using reaction method
    revisit: calculating RMSD in 0 dimensions
    affinity: temperature is 270 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 64 values from -50 to -25
    affinity: variable 2 is log10(a_NH3) at 64 values from -15 to 10
    subcrt: 13 species at 543.15 K and 55 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 4 4 3 5 2 3 6 6
    equilibrate: loga.balance is -4.45854557125241
    equilibrate: using reaction method
    palply: equil.reaction running 4096 calculations on 2 cores
    revisit: calculating RMSD in 2 dimensions
    affinity: temperature is 270 C
    affinity: pressure is Psat
    subcrt: 13 species at 543.15 K and 55 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 4 4 3 5 2 3 6 6
    equilibrate: loga.balance is -4.45854557125241
    equilibrate: using reaction method
    revisit: calculating RMSD in 0 dimensions
    
    ###### findit: iteration 1 of 3
    ### O2 new limits: -50 -25
    ### NH3 new limits: -15 10
    ### H2O new limits: -15 10
    affinity: temperature is 270 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 8 values from -50 to -25
    affinity: variable 2 is log10(a_NH3) at 8 values from -15 to 10
    affinity: variable 3 is log10(a_H2O) at 8 values from -15 to 10
    subcrt: 13 species at 543.15 K and 55 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 4 4 3 5 2 3 6 6
    equilibrate: loga.balance is -4.45854557125241
    equilibrate: using reaction method
    revisit: calculating RMSD in 3 dimensions
    revisit: calculating RMSD in 2 dimensions
    
    ###### findit: iteration 2 of 3
    ### O2 optimal: -35.7143 new limits: -43.2143 -28.2143
    ### NH3 optimal: -0.7143 new limits: -8.2143 6.7857
    ### H2O optimal: -0.7143 new limits: -8.2143 6.7857
    affinity: temperature is 270 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 8 values from -43.2142857142857 to -28.2142857142857
    affinity: variable 2 is log10(a_NH3) at 8 values from -8.21428571428571 to 6.78571428571429
    affinity: variable 3 is log10(a_H2O) at 8 values from -8.21428571428571 to 6.78571428571429
    subcrt: 13 species at 543.15 K and 55 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 4 4 3 5 2 3 6 6
    equilibrate: loga.balance is -4.45854557125241
    equilibrate: using reaction method
    revisit: calculating RMSD in 3 dimensions
    revisit: calculating RMSD in 2 dimensions
    
    ###### findit: iteration 3 of 3
    ### O2 optimal: -36.7857 new limits: -41.2857 -32.2857
    ### NH3 optimal: -1.7857 new limits: -6.2857 2.7143
    ### H2O optimal: -1.7857 new limits: -6.2857 2.7143
    affinity: temperature is 270 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 8 values from -41.2857142857143 to -32.2857142857143
    affinity: variable 2 is log10(a_NH3) at 8 values from -6.28571428571428 to 2.71428571428572
    affinity: variable 3 is log10(a_H2O) at 8 values from -6.28571428571428 to 2.71428571428572
    subcrt: 13 species at 543.15 K and 55 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 4 4 3 5 2 3 6 6
    equilibrate: loga.balance is -4.45854557125241
    equilibrate: using reaction method
    revisit: calculating RMSD in 3 dimensions
    revisit: calculating RMSD in 2 dimensions
    affinity: temperature is 270 C
    affinity: pressure is Psat
    subcrt: 13 species at 543.15 K and 55 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 4 4 3 5 2 3 6 6
    equilibrate: loga.balance is -4.45854557125241
    equilibrate: using reaction method
    revisit: calculating RMSD in 0 dimensions
    info.character: found C2H5OH(aq); other available states are liq, gas
    info.character: found O2(aq); other available state is gas
    info.character: found CO2(aq); other available state is gas
    info.character: found H2O(liq); other available states are cr, aq
    subcrt: 4 species at 15 values of T and P (wet)
    info.character: found H2S(aq); other available state is gas
    subcrt: 2 species at 2 values of T and P (wet)
    subcrt: reaction is not balanced; it is missing this composition:
     H O S Z
     4 4 3 -2
    subcrt: adding missing composition from basis definition and restarting...
    subcrt: 6 species at 2 values of T and P (wet)
    info.character: found cyclohexane(aq); other available states are cr, liq, gas
    checkEOS: Cp of cyclohexane aq (1526) differs by 9.35 cal K-1 mol-1 from tabulated value
    checkEOS: V of cyclohexane aq (1526) differs by 6.64 cm3 mol-1 from tabulated value
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 31 values from -80 to -50
    affinity: variable 2 is T at 101 values from 273.15 to 373.15 K
    --- finished re-building 'anintro.Rmd'
    
    --- re-building 'eos-regress.Rmd' using rmarkdown
    Quitting from lines 80-111 (eos-regress.Rmd)
    Error: processing vignette 'eos-regress.Rmd' failed with diagnostics:
    invalid multibyte string, element 1
    --- failed re-building 'eos-regress.Rmd'
    
    --- re-building 'obigt.Rmd' using rmarkdown
    --- finished re-building 'obigt.Rmd'
    
    --- re-building 'equilibrium.Rnw' using knitr
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 200 values from -90 to -70
    affinity: variable 2 is log10(a_H2O) at 200 values from -20 to 10
    subcrt: 25 species at 298.15 K and 1 bar (wet)
    balance: from numeric argument value
    diagram: using maximum affinity method for 2-D diagram
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 80 values from -90 to -70
    affinity: variable 2 is log10(a_H2O) at 80 values from -20 to 10
    subcrt: 25 species at 298.15 K and 1 bar (wet)
    balance: from numeric argument value
    equilibrate: n.balance is 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
    equilibrate: loga.balance is -1.69897000433602
    equilibrate: using boltzmann method
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 200 values from -71 to -66
    affinity: variable 2 is log10(a_H2O) at 200 values from -8 to 4
    subcrt: 25 species at 298.15 K and 1 bar (wet)
    balance: moles of CO2 in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 80 values from -71 to -66
    affinity: variable 2 is log10(a_H2O) at 80 values from -8 to 4
    subcrt: 25 species at 298.15 K and 1 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 3 3 4 5 9 2 6 6 6 6 5 4 5 5 6 3 4 5 11 9
    equilibrate: loga.balance is -0.97061622231479
    equilibrate: using reaction method
    palply: equil.reaction running 6400 calculations on 2 cores
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(a_H2O) at 128 values from -8 to 4
    subcrt: 25 species at 298.15 K and 1 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 3 3 4 5 9 2 6 6 6 6 5 4 5 5 6 3 4 5 11 9
    equilibrate: loga.balance is -0.97061622231479
    equilibrate: using reaction method
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(a_H2O) at 128 values from -8 to 4
    subcrt: 25 species at 298.15 K and 1 bar (wet)
    balance: moles of CO2 in formation reactions
    equilibrate: n.balance is 3 3 4 5 9 2 6 6 6 6 5 4 5 5 6 3 4 5 11 9
    equilibrate: loga.balance is -1.97061622231479
    equilibrate: using reaction method
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 80 values from -90 to -70
    affinity: variable 2 is log10(a_H2O) at 80 values from -20 to 0
    subcrt: 12 species at 298.15 K and 1 bar (wet)
    subcrt: 18 species at 298.15 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 530 828 553 736 1198 844
    equilibrate: loga.balance is 0
    equilibrate: using reaction method
    palply: equil.reaction running 6400 calculations on 2 cores
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 200 values from -90 to -70
    affinity: variable 2 is log10(a_H2O) at 200 values from -20 to 0
    subcrt: 12 species at 298.15 K and 1 bar (wet)
    subcrt: 18 species at 298.15 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 530 828 553 736 1198 844
    equilibrate: loga.balance is 0
    equilibrate: using 'normalize' for molar formulas
    equilibrate: using boltzmann method
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 200 values from -90 to -70
    affinity: variable 2 is log10(a_H2O) at 200 values from -20 to 0
    subcrt: 12 species at 298.15 K and 1 bar (wet)
    subcrt: 18 species at 298.15 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 530 828 553 736 1198 844
    equilibrate: loga.balance is 0
    equilibrate: using 'as.residue' for molar formulas
    equilibrate: using boltzmann method
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 128 values from -90 to -70
    subcrt: 12 species at 298.15 K and 1 bar (wet)
    subcrt: 18 species at 298.15 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 530 828 553 736 1198 844
    equilibrate: loga.balance is 0
    equilibrate: using reaction method
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 128 values from -90 to -70
    subcrt: 12 species at 298.15 K and 1 bar (wet)
    subcrt: 18 species at 298.15 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 530 828 553 736 1198 844
    equilibrate: loga.balance is 0
    equilibrate: using 'normalize' for molar formulas
    equilibrate: using boltzmann method
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 128 values from -90 to -70
    subcrt: 12 species at 298.15 K and 1 bar (wet)
    subcrt: 18 species at 298.15 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 530 828 553 736 1198 844
    equilibrate: loga.balance is 0
    equilibrate: using 'as.residue' for molar formulas
    equilibrate: using boltzmann method
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 200 values from -90 to -70
    affinity: variable 2 is log10(a_H2O) at 200 values from -20 to 0
    subcrt: 12 species at 298.15 K and 1 bar (wet)
    subcrt: 18 species at 298.15 K and 1 bar (wet)
    balance: from protein length
    diagram: using maximum affinity method for 2-D diagram
    balance: from protein length
    diagram: using maximum affinity method for 2-D diagram
    diagram: using 'normalize' in calculation of predominant species
    balance: from protein length
    diagram: using maximum affinity method for 2-D diagram
    diagram: using 'as.residue' in calculation of predominant species
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 400 values from 1.6 to 7.6
    affinity: variable 2 is Eh at 400 values from -0.2 to 1 V
    subcrt: 8 species at 298.15 K and 1 bar (wet)
    balance: moles of Cu+2 in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 400 values from 1.6 to 7.6
    affinity: variable 2 is Eh at 400 values from -0.2 to 1 V
    subcrt: 8 species at 298.15 K and 1 bar (wet)
    balance: moles of Cu+2 in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 400 values from 1.6 to 7.6
    affinity: variable 2 is Eh at 400 values from -0.2 to 1 V
    subcrt: 8 species at 298.15 K and 1 bar (wet)
    balance: moles of Cu+2 in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is pH at 400 values from 1.6 to 7.6
    affinity: variable 2 is Eh at 400 values from -0.2 to 1 V
    subcrt: 8 species at 298.15 K and 1 bar (wet)
    balance: moles of Cu+2 in formation reactions
    diagram: using maximum affinity method for 2-D diagram
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is Eh at 128 values from -0.3 to -0.1 V
    subcrt: 8 species at 298.15 K and 1 bar (wet)
    balance: moles of C10H17N3O6S in formation reactions
    equilibrate: n.balance is 1 2
    equilibrate: loga.balance is -2
    equilibrate: using reaction method
    balance: moles of C10H17N3O6S in formation reactions
    equilibrate: n.balance is 1 2
    equilibrate: loga.balance is -2.52287874528034
    equilibrate: using reaction method
    balance: moles of C10H17N3O6S in formation reactions
    equilibrate: n.balance is 1 2
    equilibrate: loga.balance is -3
    equilibrate: using reaction method
    affinity: temperature is 25 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(f_O2) at 128 values from -100 to -65
    subcrt: 16 species at 298.15 K and 1 bar (wet)
    subcrt: 18 species at 298.15 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 571 530 571 828 553 278 736 1198 844 481
    equilibrate: loga.balance is 0.81888541459401
    equilibrate: using reaction method
    balance: from protein length
    equilibrate: n.balance is 571 530 571 828 553 278 736 1198 844 481
    equilibrate: loga.balance is 0.81888541459401
    equilibrate: using 'normalize' for molar formulas
    equilibrate: using boltzmann method
    affinity: temperature is 325 C
    affinity: pressure is 350 bar
    affinity: variable 1 is log10(f_O2) at 128 values from -50 to -15
    subcrt: 17 species at 598.15 K and 350 bar (wet)
    balance: moles of H2S in formation reactions
    equilibrate: n.balance is 1 2 3 2 2 3 5 2 1 1 1
    equilibrate: loga.balance is -2
    equilibrate: using reaction method
    balance: moles of H2S in formation reactions
    equilibrate: n.balance is 1 2 3 2 2 3 5 2 1 1 1
    equilibrate: loga.balance is -2
    equilibrate: using 'normalize' for molar formulas
    equilibrate: using boltzmann method
    --- finished re-building 'equilibrium.Rnw'
    
    --- re-building 'hotspring.Rnw' using knitr
    affinity: pressure is Psat
    affinity: variable 1 is T at 128 values from 323.15 to 373.15 K
    affinity: variable 2 is log10(a_H2) at 128 values from -7 to -4
    subcrt: 11 species at 128 values of T and P (wet)
    subcrt: 18 species at 128 values of T and P (wet)
    balance: from protein length
    diagram: using maximum affinity method for 2-D diagram
    diagram: using 'normalize' in calculation of predominant species
    affinity: pressure is Psat
    affinity: variable 1 is T at 128 values from 330.25 to 366.45 K
    affinity: variable 2 is pH at 128 values from 7.35 to 8.257
    affinity: variable 3 is log10(a_H2) at 128 values from -6.7175 to -4.0025
    subcrt: 11 species at 128 values of T and P (wet)
    subcrt: 18 species at 128 values of T and P (wet)
    balance: from protein length
    equilibrate: n.balance is 199.13 184.347 195.485 191.803 189.401
    equilibrate: loga.balance is -0.0176536766982609
    equilibrate: using 'normalize' for molar formulas
    equilibrate: using boltzmann method
    affinity: pressure is Psat
    affinity: variable 1 is T at 128 values from 330.25 to 366.45 K
    affinity: variable 2 is pH at 128 values from 7.35 to 8.257
    affinity: variable 3 is log10(a_H2) at 128 values from -6.7175 to -4.0025
    subcrt: 36 species at 128 values of T and P (wet)
    subcrt: 18 species at 128 values of T and P (wet)
    balance: from protein length
    equilibrate: using 5 of 30 species
    equilibrate: n.balance is 199.13 184.347 195.485 191.803 189.401
    equilibrate: loga.balance is -0.0176536766982609
    equilibrate: using 'normalize' for molar formulas
    equilibrate: using boltzmann method
    balance: from protein length
    equilibrate: using 5 of 30 species
    equilibrate: n.balance is 246.802 215.664 212.678 218.348 212.768
    equilibrate: loga.balance is 0.0438572095139632
    equilibrate: using 'normalize' for molar formulas
    equilibrate: using boltzmann method
    balance: from protein length
    equilibrate: using 5 of 30 species
    equilibrate: n.balance is 228.112 217.548 230.214 231.561 223.405
    equilibrate: loga.balance is 0.0534011619257556
    equilibrate: using 'normalize' for molar formulas
    equilibrate: using boltzmann method
    balance: from protein length
    equilibrate: using 5 of 30 species
    equilibrate: n.balance is 278.511 253.651 259.441 240.969 234.61
    equilibrate: loga.balance is 0.102838995245895
    equilibrate: using 'normalize' for molar formulas
    equilibrate: using boltzmann method
    balance: from protein length
    equilibrate: using 5 of 30 species
    equilibrate: n.balance is 251.726 232.591 245.652 240.172 236.252
    equilibrate: loga.balance is 0.0814888085736157
    equilibrate: using 'normalize' for molar formulas
    equilibrate: using boltzmann method
    balance: from protein length
    equilibrate: using 5 of 30 species
    equilibrate: n.balance is 228.73 222.955 234.511 231.369 225.382
    equilibrate: loga.balance is 0.0580260920390162
    equilibrate: using 'normalize' for molar formulas
    equilibrate: using boltzmann method
    affinity: pressure is Psat
    affinity: variable 1 is T at 128 values from 323.15 to 373.15 K
    affinity: variable 2 is log10(a_H2) at 128 values from -7 to -4
    subcrt: 27 species at 128 values of T and P (wet)
    subcrt: 18 species at 128 values of T and P (wet)
    balance: from protein length
    diagram: using maximum affinity method for 2-D diagram
    diagram: using 'normalize' in calculation of predominant species
    affinity: pressure is Psat
    affinity: variable 1 is T at 128 values from 323.15 to 373.15 K
    affinity: variable 2 is log10(a_H2) at 128 values from -7 to -4
    subcrt: 27 species at 128 values of T and P (wet)
    subcrt: 18 species at 128 values of T and P (wet)
    balance: from protein length
    diagram: using maximum affinity method for 2-D diagram
    diagram: using 'normalize' in calculation of predominant species
    affinity: pressure is Psat
    affinity: variable 1 is T at 128 values from 323.15 to 373.15 K
    affinity: variable 2 is log10(a_H2) at 128 values from -7 to -4
    subcrt: 27 species at 128 values of T and P (wet)
    subcrt: 18 species at 128 values of T and P (wet)
    balance: from protein length
    diagram: using maximum affinity method for 2-D diagram
    diagram: using 'normalize' in calculation of predominant species
    reset: resetting "thermo" object
    obigt: loading default database with 1891 aqueous, 3406 total species
    add.obigt: read 2 rows; made 2 replacements, 0 additions, units = cal
    add.obigt: use obigt() or reset() to restore default database
    add.protein: added 105 new protein(s) to thermo$protein
    affinity: pressure is Psat
    affinity: variable 1 is T at 128 values from 323.15 to 373.15 K
    affinity: variable 2 is log10(a_H2) at 128 values from -7 to -4
    subcrt: 27 species at 128 values of T and P (wet)
    subcrt: 18 species at 128 values of T and P (wet)
    balance: from protein length
    diagram: using maximum affinity method for 2-D diagram
    diagram: using 'normalize' in calculation of predominant species
    affinity: pressure is Psat
    affinity: variable 1 is T at 128 values from 323.15 to 373.15 K
    affinity: variable 2 is log10(a_H2) at 128 values from -7 to -4
    subcrt: 27 species at 128 values of T and P (wet)
    subcrt: 18 species at 128 values of T and P (wet)
    balance: from protein length
    diagram: using maximum affinity method for 2-D diagram
    diagram: using 'normalize' in calculation of predominant species
    affinity: pressure is Psat
    affinity: variable 1 is T at 128 values from 323.15 to 373.15 K
    affinity: variable 2 is log10(a_H2) at 128 values from -7 to -4
    subcrt: 27 species at 128 values of T and P (wet)
    subcrt: 18 species at 128 values of T and P (wet)
    balance: from protein length
    diagram: using maximum affinity method for 2-D diagram
    diagram: using 'normalize' in calculation of predominant species
    add.protein: added 33 new protein(s) to thermo$protein
    affinity: temperature is 93.3 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(a_H2) at 101 values from -11 to -1
    subcrt: 27 species at 366.45 K and 1 bar (wet)
    subcrt: 18 species at 366.45 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 245.95 195.69 211.71 177.2 167.09
    equilibrate: loga.balance is 0
    equilibrate: using 'as.residue' for molar formulas
    equilibrate: using boltzmann method
    revisit: calculating DGtr in 1 dimensions
    affinity: temperature is 79.4 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(a_H2) at 101 values from -11 to -1
    subcrt: 27 species at 352.55 K and 1 bar (wet)
    subcrt: 18 species at 352.55 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 227.81 207.97 197.37 199.88 210.45 181.82 170.96
    equilibrate: loga.balance is 0
    equilibrate: using 'as.residue' for molar formulas
    equilibrate: using boltzmann method
    revisit: calculating DGtr in 1 dimensions
    affinity: temperature is 67.5 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(a_H2) at 101 values from -11 to -1
    subcrt: 27 species at 340.65 K and 1 bar (wet)
    subcrt: 18 species at 340.65 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 194.35 220.39 216.78 236.97 229.93 206.83 201.52
    equilibrate: loga.balance is 0
    equilibrate: using 'as.residue' for molar formulas
    equilibrate: using boltzmann method
    revisit: calculating DGtr in 1 dimensions
    affinity: temperature is 65.3 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(a_H2) at 101 values from -11 to -1
    subcrt: 27 species at 338.45 K and 1 bar (wet)
    subcrt: 18 species at 338.45 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 271.12 210.79 213.12 212.4 209.98 204.53 197.72
    equilibrate: loga.balance is 0
    equilibrate: using 'as.residue' for molar formulas
    equilibrate: using boltzmann method
    revisit: calculating DGtr in 1 dimensions
    affinity: temperature is 57.1 C
    affinity: pressure is Psat
    affinity: variable 1 is log10(a_H2) at 101 values from -11 to -1
    subcrt: 27 species at 330.25 K and 1 bar (wet)
    subcrt: 18 species at 330.25 K and 1 bar (wet)
    balance: from protein length
    equilibrate: n.balance is 213.59 212.57 216.98 201.97 220.72 199.31 176.6
    equilibrate: loga.balance is 0
    equilibrate: using 'as.residue' for molar formulas
    equilibrate: using boltzmann method
    revisit: calculating DGtr in 1 dimensions
    info.character: found H2(aq); other available state is gas
    subcrt: 3 species at 6 values of T and P (wet)
    info.character: found H2O(liq); other available states are cr, aq
    info.character: found H2(aq); other available state is gas
    subcrt: 5 species at 5 values of T and P (wet)
    info.character: found O2(aq); other available state is gas
    info.character: found H2(aq); other available state is gas
    info.character: found H2O(liq); other available states are cr, aq
    subcrt: 3 species at 5 values of T and P (wet)
    --- finished re-building 'hotspring.Rnw'
    
    SUMMARY: processing the following file failed:
     'eos-regress.Rmd'
    
    Error: Vignette re-building failed.
    Execution halted
Flavor: r-devel-linux-x86_64-debian-clang

Version: 1.3.1
Check: installed package size
Result: NOTE
     installed size is 5.2Mb
     sub-directories of 1Mb or more:
     doc 2.2Mb
Flavor: r-devel-windows-ix86+x86_64

Version: 1.3.2
Check: installed package size
Result: NOTE
     installed size is 5.2Mb
     sub-directories of 1Mb or more:
     doc 2.5Mb
     extdata 1.0Mb
Flavor: r-patched-solaris-x86