114 POWER DISTRIBUTION FOR ELECTRIC RAILROADS.
4
The net saving in cost of copper is then $60,500. In lay-
ing out the feeders for an actual road these figures would
doubtless be somewhat modified by the conditions of traffic,
but the general condition is a saving of about $60,000 in
first cost as against an extra yearly expenditure of over
$14,000 in power. In the average case there would be a
strong tendency to use the two stations. ‘There would be
just so much less money to raise, the $14,000 would
dwindle under the deft fingers of the bookkeeper and
growth of the road would soon compel the use of two sta-
tions anyway. On the other hand the skillful use of a
boosting system might cut the extra expenditure in two
and the single plant would be by far the more economical.
The questions regarding probable growth involve very
close judgments, and local conditions, such as cost of real
estate and nearness to coal and water supply, may often
properly turn the scale one way or the other. As between
a single 1000 k. w. plant, and two 500 k. w. stations, there
would be no doubt as to the propriety of installing the
latter, while with a less aggregate than 500 k. w. capacity,
the single station would very often be preferable. ‘The
longer the line and the ‘greater the aggregate output the
greater the advantage of using several generating stations.
In most lines of twenty-five or thirty miles in length local
or terminal demands for power will indicate the use of a
pair of stations by raising the aggregate power or increas-
ing the average distance to which power would have to be
transmitted from a single station. Now and then how-
ever exactly the sort of conditions set forth in the estimate
Aare encountered and a single station is desirable. In
strictly interurban work the suburban traffic near the ends
of the line is almost certain to make the substation plan
the cheaper. Such is naturally the case in the roads
shown on the map (Fig. 62).
On very long lines the question is still further com-
plicated, for the distances may readily be too great to work
easily even with two stations, and if the traffic is not unu-
sually great the output of each station may be rather small
