As part of a joint project between the International Association for the Pr
operties of Water and Steam and the Subcommittee on Transport Properties of
the International Union of Pure and Applied Chemistry Commission I.2 on Th
ermodynamics, all available and reliable experimental data on the viscosity
and thermal conductivity of ordinary water and steam have been collected a
nd converted to the current temperature scale (ITS-90) and a common set of
units. The data are grouped according to state into four regions: the liqui
d phase (excluding data near 0.101 325 MPa), the steam (vapor) phase, the s
upercritical region (T>T-c for any pressure), and liquid water at ambient p
ressure (near 0.101 325 MPa) between the triple-point temperature and the n
ormal boiling-point temperature. For each point with measured temperature a
nd pressure (or at specified saturation conditions), a density has been com
puted with the current scientific standard thermodynamic formulation (IAPWS
-95), and each experimental datum has been compared with the viscosity or t
hermal conductivity calculated from the current standard formulations for t
hese properties. The total data collection contains 4090 points for viscosi
ty in the range of temperatures from 238 to 1346 K with pressures to 346 MP
a and 5107 points for thermal conductivity in the range of temperatures fro
m 256 to 1191 K with pressures to 785 MPa. The current standard IAPWS formu
lations for the transport properties of water are based on correlations ado
pted in 1984 which considered experimental data available through 1980. The
present study considers all data available in the earlier work, data colle
cted in bibliographic efforts within IAPWS and documented in unpublished re
ports through 1988, and additional data published subsequent to the earlier
reports or, in some cases, older data which were not considered in the pre
vious compilations. Thus, this study has identified new data which were not
available for the previous reviews of the transport properties of water, h
as identified regions in which the current standard transport property form
ulations can now be improved, and is intended to facilitate the development
of new, more accurate, international formulations for the viscosity and th
ermal conductivity of water and steam. (C) 2000 American Institute of Physi
cs. [S0047-2689(00)00202-].