Chris, if this sounds interesting to you then go here:
An energy-efficient computer brings many important benefits to its owners and users, and to the developers and
owners of the building where it is installed. These benefits include in our example:
· direct electrical savings around 80% during office hours
· additional savings, typically about 35% as big, in air-conditioning energy
· further savings in uninterruptible-power-supply losses and wiring losses, raising the total electricity savings
to the neighborhood of $100 a year (or about $500 present-valued) at average U.S. commercial rates where
a UPS is used (but reliability will be much lower if it isn't)
· avoided capital costs for air conditioning equipment, ranging from about $130 for a new building to about
$40 for a routine cooling-system renovation likely to occur in the ‘90s
· halved uninterruptible-power-supply capacity, cutting its capital cost by about $200 where it’s used
· typically about one-fifth smaller plug-load wiring capacity, potentially saving another $200 or so (if the
electrical engineer pays attention to the reduced load!)
· possibly lower transformer costs because of reduced computer-power-supply harmonics
· much larger avoided costs (up to thousands of dollars per workstation in difficult cases) for upgrading old
offices’ wiring and cooling capacity to accommodate inefficient office equipment and its harmonic
generation
