At what temperature?
The thermal conductivity of water ice is well-studied and widely available in the literature.
Article Thermal conductivity of ice
The article that dear James Garry shared is a very good source and has a high number of citations on this topic. However, the temperature range is important in the calculation of the thermal conductivity of ice.
The heat transfer coefficient (Hc) for ice can vary depending on several factors, such as temperature, pressure, and the specific conditions of the material interface. However, a common value for the heat transfer coefficient for ice at its melting point (0 degrees Celsius or 32 degrees Fahrenheit) is approximately 2,200 W/(m^2·K).
It's important to note that this value is an approximation, and the actual heat transfer coefficient can be influenced by factors such as the presence of impurities, surface roughness, and the specific conditions of the heat transfer process.
If you need more precise values for a particular application or under specific conditions, you may want to refer to literature sources or experimental studies that provide detailed information on heat transfer coefficients for ice in the relevant temperature and pressure ranges.
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