Thank you for all of your responses.
NickE, they probably use a heat pipe which is a tube closed at both ends partially filled with freon. One end is exposed to heat and the other exposed to cold. The cold end must be physically higher. Freon evaporates from the hot end, absorbing heat, and condenses on the cold end, rejecting heat. The condensed freon returns by gravity to the hot end. This will continue at some rate until there is temperature equilibrium. Sunfrost used to offer a feature like this. Check it out:
If I might be allowed to think out loud, the "at some rate" part is the catch. The rate is determined by the hot and cold side surface area, heat transfer coefficient and overall temperature difference. For a small size like a freezer, a practically sized unit can do the job, but for 100 tons of industrial refrigeration, a heat tube would be enomormous! You can get and assist by putting fins our your cold end, and a fan, which would be an aircooled exchanger. Add a compressor to increase the condensation temperature and you have a refrigeration system.
We now use a closed circuit Baltimore Air Cooler tower to condense ammonia (our refrigerant). In the winter, the water temperature never goes below 70F, that is, the cooling is evaporative even in winter.
If we susbstituted the tower with aircooled exchanger, which uses convective cooling, then we would get the maximum benefit from cold weather, but would probably still need the "assist" from the compressors (although they would not work as hard). However, aircooled exchangers are more $$$ per unit of heat transferred. My guess is that is all comes down to economics. Someone has certainly done this anaylsis, but in light of renewed conservation and green efforts, it may be worth a second look. Hope that wasn't too pedantic!
billjg
