The surface tension of water calculated from a random network model Original Research Article

The surface tension (excess surface free energy) of water is an important factor in many biological and chemical systems. It is often invoked to correlate or explain the low solubility of nonpolar compounds in water as well as the so-called hydrophobic effect of nonpolar molecules aggregating in water. While waterʹs surface tension is not easily obtained from theory, the random network model (RNM) of Henn and Kauzmann (H–K), which described waterʹs well-known, anomalous thermodynamic properties, can be used successfully to calculate the surface tension of water at atmospheric pressure between temperatures of 0 and 100 °C. Agreement with observed values, particularly at lower temperatures, is good, although the H–K RNM is too ice-like in nature to allow for the rapid drop off of surface tension with increasing temperature. Suggestions are offered for improving the model. In addition, an alternative explanation for the preferred orientation of surface water molecules is proposed based on waterʹs H-bonding and attendant intramolecular, zero-point distortion energy.