SRI Kaleidagraph Validation files

bartok_w.kga       Bartok et al AIChE 72
bartok_wo.kga      Bartok et al AIChE 72
bernstein.ch.kga     Bernstein et al C&F 93  (currently a gif table)
bernstein.ch3.kga    Bernstein et al C&F 93  (currently a gif table)
bernstein.co.kga      Bernstein et al C&F 93  (currently a gif table)
bernstein.h.kga        Bernstein et al C&F 93  (currently a gif table)
bernstein.hco.kga     Bernstein et al C&F 93  (currently a gif table)
bernstein.o.kga          Bernstein et al C&F 93  (currently a gif table)
bernstein.oh.kga        Bernstein et al C&F 93  (currently a gif table)
brl21oh.kga          Sausa et al C&F 93
brl21no.kga          Sausa et al C&F 93
etzkorn.kga     Etzkorn et al 24th Symp. 92
fleming.ch.kga            Fleming et al ChemPhys Lett 90  (currently a gif
table)
fleming.oh.kga             Fleming et al ChemPhys Lett 90  (currently a gif
table)
glarC2H4.CO.kga     KristensenGlarborg&DamJohansen unpubl.  (glarborgc2h4.gif)
glarC2H4.CO2.kga   KristensenGlarborg&DamJohansen unpubl.  (glarborgc2h4.gif)
glarC2H6.CO.kga    KristensenGlarborg&DamJohansen unpubl.  (glarborgc2h6.gif)
glarC2H6.CO2.kga    KristensenGlarborg&DamJohansen unpubl.  (glarborgc2h6.gif)
h2n2ov.kga    Brown&Smith 25th Symp. 94
lean_cn.sand.kga      Miller et al 20th Symp. 84  (lean 2nd set)
lean_hcn.sand.kga     Miller et al 20th Symp. 84
lean_n2.sand.kga     Miller et al 20th Symp. 84
lean_no.sand.kga     Miller et al 20th Symp. 84
MoistCO.B25.kga   KimYetter&Dryer 25th Symp 94  (dryer.gif)
nnh38.kga    Harrington et al 26th Symp. 96
nnk78.kga       Harrington et al 26th Symp. 96
nrl_ch.kga     Williams&Fleming C&F 94    target NF11
nrl_cn.kga    Williams&Fleming C&F 94     target NF12
nrl_nco.kga   Williams&Fleming C&F 94
nrl_nh.kga      Williams&Fleming C&F 94
rclno.kga         RieselCarter&Laurendeau 95   c2h6 flame
rich_cn.sand.kga     Miller et al 20th Symp. 84    target NF7
rich_hcn.sand.kga   Miller et al 20th Symp. 84
rich_n2.sand.kga     Miller et al 20th Symp. 84
rich_no.sand.kga     Miller et al 20th Symp. 84     target NF6
SR10c.CO.kga    KristensenGlarborg&DamJohansen unpubl.  (glarborgch4.gif)
SR10c.CO2.kga    KristensenGlarborg&DamJohansen unpubl.  (glarborgch4.gif)
target SR.10c
sri30.h.kga        Heard et al C&F 92
sri30.oh.kga     Heard et al C&F 92
sri_ch.kga          Heard et al C&F 92
sri_no.kga       Heard et al C&F 92
steele_n2o.kga      Steele et al C&F 95
steele_no.kga         Steele et al C&F 95
tgchr96.kga   LuqueSmith&Crosley 26th Symp. 96   target SCH.c11
utrc_ch.kga    Zabielski&Seery report 84
utrc_cn.kga     Zabielski&Seery report 84
utrc_no.kga        Zabielski&Seery report 84
wf20.ch.kga   Williams&Fleming 94
wf20.oh.kga    Williams&Fleming 94

coh2fl.html - McLean Smith & Taylor C&F 94   target SF7

NEW:
(I've put the kga names in brackets after the spots where links to the
derived gif files should go.)

Low P flames (N chem.)
Berg, P.A., Smith, G.P., Jeffries, J.B., and Crosley, D.R., 'Nitric Oxide
Formation and Reburn in Low Pressure Methane Flames,' 27th Symposium
(International) on Combustion, 1998.
  NO levels[berg_no] vs. stoichiometry in low pressure
methane-oxygen-nitrogen flames.
  Amount of NO reburn[berg_reburn] at various seeding levels in rich(1.27)
and lean(0.80) low pressure methane-oxygen-nitrogen flames.
berg_no.kga      Berg et al, 27th Symp. 98
berg_reburn.kga    Berg et al, 27th Symp. 98

Flame speeds
Egolfopoulos, F.N., Zhu, D.L., and Law, C.K., 'Experimental and Numerical
Determination of Laminar Flame Speeds: Mixtures of C2 Hydrocarbons with
Oxygen and Nitrogen,' 23th Symposium (International) on Combustion, p. 471,
1990
.  Laminar flame speeds of ethylene-air[C2H4Su] at 1 atm 300K.

C2H4Su.kga    Egolfopoulos et al, 23rd Symp. 90
Egolfopoulos, F.N., private communication, 1997.
 Laminar flame speeds of propane-air[C3Su] at 1 atm 300K.
C3Su.kga      Egolfopoulos 97

Egolfopoulos, F.N., Xhu, D.X., and Law, C.K., Combust. Sci. Tech. 83, 33, 1989.
 Laminar flame speeds of methanol-air[CH3OHSu] at 1 atm 300K.
CH3OHSu.kga     Egolfopoulos et al, CS&T 89

Low P flames (N chem.)
Luque, J., Smith, G.P., and Crosley, D.R., 'Quantitative CH Determinations
in Low Pressure Flames", 26th Symposium (International) on Combustion, p.
959, 1996.
  Absolute CH[ProSCH] and NO[ProSNO] profiles in a stoichiometric 40 torr
propane-air flame.
  Absolute CH[ProRCH] and NO[ProRNO] profiles in a rich 40 torr propane-air
flame.
ProRCH.kga   LuqueSmith&Crosley 26th Symp. 96
ProRNO.kga   LuqueSmith&Crosley 26th Symp. 96
ProSCH.kga    LuqueSmith&Crosley 26th Symp. 96
ProSNO.kga    LuqueSmith&Crosley 26th Symp. 96

Flow reactors (N chem.)
Glarborg. P., Dam-Johansen, K., Kristensen, P.G., Alzueta, M., and Rojel,
H., 'Low Temperature Nitrogen Chemistry,' GRI Report 97/0130, 1997.
  Flow reactor hydrocarbon oxidation and NO reburn experiments at 1.1 atm
in nitrogen with 2% water.
Methane: [gr1] 2800ppm CH4, 4830ppm O2, 920ppm NO, t=181/T.
Natural gas:[gr5] 2770ppm CH4, 260ppm C2H6, 4890ppm O2, 850ppm NO, t=170/K .
Ethane:[gr4] 1530ppm C2H6, 3970ppm O2, 870ppm NO, t=167/K .
Ethylene:[gr3] 1020ppm C2H4, 2015ppm O2, 790ppm NO, t=165/K .
Acetylene:[gr2] 910ppm C2H2, 1730ppm O2, 989ppm NO, t=157/K .
NO concentration[gr6] as a function of natural gas (90.5%CH4, 8.5%C2H6,
0.6%C3H8) concentration at 1.1 atm 1573K 170 ms for 2% oxygen, 6% water,
900ppm NO in nitrogen.
gr1.kga   Glarborg et al 97
gr2.kga   Glarborg et al 97
gr3.kga   Glarborg et al 97
gr4.kga   Glarborg et al 97
gr5.kga   Glarborg et al 97
gr6.kga   Glarborg et al 97

Low P flames
Diau, E.W.-G., Smith, G.P., Jeffries, J.B., and Crosley, D.R., 'HCO
Concentrations in Flames via Quantitative Laser-Induced Fluorsecence,' 27th
Symposium (International) on Combustion, 1998.
  Absolute HCO concentraion profiles in 25 torr methane-oxygen-nitrogen
flames of lean[hcoLsri], slightly rich[hcoSsri], and fuel rich[hcoRsri]
stoichiometries.
hcoLsri.kga    Diau et al, 27th Symp. 98
hcoRsri.kga    Diau et al, 27th Symp. 98
hcoSsri.kga    Diau et al, 27th Symp. 98

Flames (N chem.)
Thomsen, D.D., Kuligowski, F.F., and Laurendeau, N.M., 'Modeling of NO
Formation in Lean Premixed High-Pressure Methane Flames' 1997;
Klassen, M.S., Thomsen, D.D., Riesel, J.R., and Laurendeau, N.M., 'Laser
Induced Fluorescence Measurements of Nitric Oxide Formation in High
Pressure Premixed Methane Flames,' Combust. Sci. Techn. 110, 229, 1995.
  NO formation in premixed atmospheric pressure methane-oxygen-3.1nitrogen
flames as a function of stoichiometry. [PurNO_phi]
   NO formation in lean premixed 0.4methane-1.0oxygen-3.1nitrogen flames as
a function of pressure. [PurNO_p]
   NO formation in rich premixed  0.6methane-1.0oxygen-3.1nitrogen flames
as a function of pressure. [PurNOp2]
PurNOp2.kga    Klassen et al 95
PurNO_p.kga    Klassen et al 95
PurNO_phi.kga    Thomsen et al 97

Low P flames
Berg, P.A., Hill, D.A., Noble, A.R., Smith, G.P., Jeffries, J.B., and
Crosley, D.R., 'Absolute CH Concentration Measurements in Low Pressure
Methane Flames,'  Combust. and Flame, to be published, 1999.
  Absolute CH [sriLch] (optimization target SCH.c12) and OH [sriLoh]
profiles in a 25 torr methane-oxygen-nitrogen flame of lean(0.80)
stoichiometry;
  CH [sriSch] and OH [sriRoh] profiles for a slightly rich(1.07)
stoichiometry at 25 torr;
  CH [sriRch] (optimization  targetSCH.c13) and OH [sriSoh] profiles for a
rich(1.27) stoichiometry at 30 torr.
sriLch.kga     Berg et al, C&F 99     target SCH.c12
sriLoh.kga      Berg et al, C&F 99
sriRch.kga       Berg et al, C&F 99    targetSCH.c13
sriRoh.kga      Berg et al, C&F 99
sriSch.kga       Berg et al, C&F 99
sriSoh.kga     Berg et al, C&F 99