Not exact matches
The UCLA researchers were able to demonstrate that using this multiferroic material to generate
spin waves could reduce
wasted heat and therefore increase power efficiency for processing by up to 1,000 times.
This effect allows to convert
waste heat into
spin currents and thereby to transport energy as well as information in magnetic, electrically insulating materials.
By doing so, the city could provide the nation's greatest test case for the economics of converting municipal solid
waste to electricity,
heat, reclaimed metals and the rest could be
spun into rock wool to provide cheap insulation material.
There might, for example, be some net warming at the top and net cooling at the bottom (the former due to
waste heat from the centrifuge machinery, the latter due to air cooling enhanced by the
spin).