Description of the table:

columns 1 and 2: z and T for line 1 (P658 in Ar-H_2),

columns 3 and 4: z and T for line 2 (P658 in Ar),

columns 5 and 6: z and T for line 3 (P678 in Ar-H_2),

columns 7 and 8: z and T for line 4 (P678 in Ar). ]]>

Description of the table:

columns 1 and 2: z and Qconv for line 1 (P658 in Ar-H_2),

columns 3 and 4: z and Qconv for line 2 (P658 in Ar),

columns 5 and 6: z and Qconv for line 3 (P678 in Ar-H_2),

columns 7 and 8: z and Qconv for line 4 (P678 in Ar). ]]>

Description of the table:

columns 1 and 2: z and -Qr for line 1 (P658 in Ar-H_2),

columns 3 and 4: z and -Qr for line 2 (P658 in Ar),

columns 5 and 6: z and -Qr for line 3 (P678 in Ar-H_2),

columns 7 and 8: z and -Qr for line 4 (P678 in Ar). ]]>

Description of the table:

columns 1 and 2: z and Tp for line 1 (P658 in Ar-H_2),

columns 3 and 4: z and Tp for line 2 (P658 in Ar),

columns 5 and 6: z and Tp for line 3 (P678 in Ar-H_2),

columns 7 and 8: z and Tp for line 4 (P678 in Ar). ]]>

Description of the table:

columns 1 and 2: z and v for line 1 (P658 in Ar-H_2),

columns 3 and 4: z and v for line 2 (P658 in Ar),

columns 5 and 6: z and v for line 3 (P678 in Ar-H_2),

columns 7 and 8: z and v for line 4 (P678 in Ar). ]]>

Description of the table:

column 1: time in units of hours,

column 2: velocity in units of m/s,

column 3: standard deviation of velocity in units of m/s,

column 4: particle temperature in units of K,

column 5: standard deviation of particle temperature in units of m/s. ]]>

Description of the table:

column 1: horizontal position y in units of mm,

column 2: vertical position x in units of mm,

column 3: particle temperature in units of K. ]]>

Description of the table:

column 1: horizontal position y in units of mm,

column 2: vertical position x in units of mm,

column 3: particle velocity in units of m/s. ]]>

Description of the table:

column 1: horizontal position y in units of mm,

column 2: vertical position x in units of mm,

column 3: particle temperature in units of K. ]]>

Description of the table:

column 1: horizontal position y in units of mm,

column 2: vertical position x in units of mm,

column 3: particle velocity in units of m/s. ]]>

Description of the table:

column 1: horizontal position y in units of mm,

column 2: vertical position x in units of mm,

column 3: particle size d_p in units of µm. ]]>

Description of the table:

column 1: horizontal position y in units of mm,

column 2: vertical position x in units of mm,

column 3: K-Sommerfield number in units of 1. ]]>

Description of the table:

column 1: horizontal position y in units of mm,

column 2: vertical position x in units of mm,

column 3: particle size dp in units of µm. ]]>

Description of the table:

column 1: horizontal position y in units of mm,

column 2: vertical position x in units of mm,

column 3: K-Sommerfield number in units of 1. ]]>

Description of the table:

column 1: axial position measured by the distance from the torch exit z (m),

column 2: computed radial position of the particle made of Al_2O_3,

column 3: axial position measured by the distance from the torch exit z (m),

column 4: computed radial position of the particle made of iron,

column 5: axial position measured by the distance from the torch exit z (m),

column 6: computed radial position of the particle made of ZrO_2 (dense),

column 7: axial position measured by the distance from the torch exit z (m),

column 8: computed radial position of the particle made of ZrO_2 (porous),

column 9: axial position measured by the distance from the torch exit z (m),

column 10: radial position of the particle made of Al_2O_3 from literature,

column 11: axial position measured by the distance from the torch exit z (m),

column 12: radial position of the particle made of iron from literature,

column 13: axial position measured by the distance from the torch exit z (m),

column 14: radial position of the particle made of ZrO_2 (dense) from literature,

column 15: axial position measured by the distance from the torch exit z (m),

column 16: radial position of the particle made of ZrO_2 (porous) from literature. ]]>

Description of the table:

column 1: axial position measured by the distance from the torch exit z (m),

column 2: computed velocity of the particle made of Al_2O_3,

column 3: axial position measured by the distance from the torch exit z (m),

column 4: computed velocity of the particle made of iron,

column 5: axial position measured by the distance from the torch exit z (m),

column 6: computed velocity of the particle made of ZrO_2 (dense),

column 7: axial position measured by the distance from the torch exit z (m),

column 8: computed velocity of the particle made of ZrO_2 (porous),

column 9: axial position measured by the distance from the torch exit z (m),

column 10: velocity of the particle made of Al_2O_3 from literature,

column 11: axial position measured by the distance from the torch exit z (m),

column 12: velocity of the particle made of iron from literature,

column 13: axial position measured by the distance from the torch exit z (m),

column 14: velocity of the particle made of ZrO_2 (dense) from literature,

column 15: axial position measured by the distance from the torch exit z (m),

column 16: velocity of the particle made of ZrO_2 (porous) from literature. ]]>

Description of the table:

column 1: axial position measured by the distance from the torch exit z (m),

column 2: computed particle temperature of the particle made of Al_2O_3,

column 3: axial position measured by the distance from the torch exit z (m),

column 4: computed particle temperature of the particle made of iron,

column 5: axial position measured by the distance from the torch exit z (m),

column 6: computed particle temperature of the particle made of ZrO_2(dense),

column 7: axial position measured by the distance from the torch exit z (m),

column 8: computed particle temperature of the particle made of ZrO_2(porous),

column 9: axial position measured by the distance from the torch exit z (m),

column 10: particle temperature of the particle made of Al_2O_3 from literature,

column 11: axial position measured by the distance from the torch exit z (m),

column 12: particle temperature of the particle made of iron from literature,

column 13: axial position measured by the distance from the torch exit z (m),

column 14: particle temperature of the particle made of ZrO_2(dense) from literature,

column 15: axial position measured by the distance from the torch exit z (m),

column 16: particle temperature of the particle made of ZrO_2(porous) from literature. ]]>

Description of the table:

column 1: axial distance z (mm),

column 2: computed plasma temperature (K) in the present work,

column 3: axial distance z (mm),

column 4: computed plasma temperature (K) by Djebali et al. (2016),

column 5: axial distance z (mm),

column 6: measured plasma temperature (K) by Pfender et al.,

column 7: axial distance z (mm),

column 8: computed plasma temperature (K) by Pfender et al.,

column 9: axial distance z (mm),

column 10: computed plasma temperature (K) by Jets&Podres,

column 11: axial distance z (mm),

column 12: computed plasma temperature (K) by Zhang et al.,

column 13: axial distance z (mm),

column 14: computed plasma temperature (K) by Sun et al.,

column 15: axial distance z (mm),

column 16: computed plasma temperature (K) by Djebali et al. (2012). ]]>

Description of the table:

column 1: axial distance z (mm),

column 2: computed plasma temperature (K) in the present work,

column 3: axial distance z (mm),

column 4: computed plasma temperature (K) by Djebali et al. (2016),

column 5: axial distance z (mm),

column 6: measured plasma temperature (K) by Pfender et al.,

column 7: axial distance z (mm),

column 8: computed plasma temperature (K) by Pfender et al.,

column 9: axial distance z (mm),

column 10: computed plasma temperature (K) by Jets&Podres,

column 11: axial distance z (mm),

column 12: computed plasma temperature (K) by Zhang et al.,

column 13: axial distance z (mm),

column 14: computed plasma temperature (K) by Sun et al.,

column 15: axial distance z (mm),

column 16: computed plasma temperature (K) by Djebali et al. (2012), ]]>

Description of the table:

column 1: Plasma temperature (K),

column 2: Thermal conductivity (W/m/K) for a mixture Ar:H_2=1:1,

column 3: Thermal conductivity (W/m/K) for a mixture Ar:H_2=1:3 ,

column 4: Thermal conductivity (W/m/K) for a mixture Ar:H_2=3:1,

column 5: Thermal conductivity (W/m/K) for pure Ar,

column 6: Thermal conductivity (W/m/K) for pure H_2,

column 7: Plasma temperature (K),

column 8: Thermal conductivity (W/m/K) for a mixture Ar:H_2=1:1 (Murphy),

column 9: Plasma temperature (K),

column 10: Thermal conductivity (W/m/K) for pure Ar (Murphy),

column 11: Plasma temperature (K),

column 12: Thermal conductivity (W/m/K) for pure H_2 (Murphy). ]]>

Description of the table:

column 1: Plasma temperature (K),

column 2: Viscosity (Pa s) for a mixture Ar:H_2=1:1,

column 3: Viscosity (Pa s) for a mixture Ar:H_2=1:3,

column 4: Viscosity (Pa s) for a mixture Ar:H_2=3:1,

column 5: Viscosity (Pa s) for pure Ar,

column 6: Viscosity (Pa s) for pure H_2,

column 7: Plasma temperature (K),

column 8: Viscosity (Pa s) for a mixture Ar:H_2=1:1 (Murphy),

column 9: Plasma temperature (K),

column 10: Viscosity (Pa s) for pure Ar (Murphy),

column 11: Plasma temperature (K),

column 12: Viscosity (Pa s) for pure H_2 (Murphy). ]]>