Lake Ice and
Snow Science
BASIC CONCEPTS: Thermal Conductivity
Heat conduction is the flow of internal energy from a region of higher temperature to one of lower temperature (temperature gradient) by the random interaction of the adjacent particles (atoms, molecules, ions, electrons, etc.) in the intervening space.
Factors affecting the rate of heat transfer by conduction are:
- temperature difference,
- length,
- cross-sectional area, and
- material.
Below is a table of thermal conductivity values. It includes values for the air and water, at various pressures and temperatures, and common materials used for clothing, construction and cooking.
THERMAL CONDUCTIVITY FOR SELECTED MATERIAL
(~300 K except where otherwise indicated)
| Material | WmK | Material | WmK |
| Vacuum | 0.0 | Paper | 0.04-0.09 |
| Air, sea level | 0.025 | Mylar | 0.0001 |
| Air, 10,000m | 0.020 | Glass | 1.1-1.2 |
| Water, vapor (273°K) | 0.016 | Straw | 0.05 |
| Water, vapor (373°K) | 0.025 | Particle board | 0.15 |
| Water, liquid (273°K) | 0.561 | Plywood | 0.11 |
| Water, liquid (373°K) | 0.679 | Wood | 0.09-0.14 |
| Water, ice (223°K) | 2.8 | Polyurethane foam | 0.02-0.03 |
| Water, ice (273°K) | 2.2 | Fiberglass | 0.035 |
| snow (<273°K) | 0.16 | Concrete | 0.05-0.15 |
| Brick | 0.18 | ||
| Cotton | 0.04 | ||
| Wool | 0.03-0.04 | Steel, stainless (273°K) | 14.0 |
| Felt | 0.06 | Aluminum | 237.0 |
| Feathers | 0.034 | Copper | 401.0 |
QUESTIONS:
Which of the clothing materials is best for winter? Why?
Which of the construction materials is best for a cold climate?
Why?
Which of the cooking materials would cook a fried egg the fastest?