.
154 POWER DISTRIBUTION FOR ELECTRIC RAILROADS.
for the larger sizes. Slower speeds and higher voltages
than those mentioned are very likely to reduce the effi-
ciency by omne or two per cent, even more for small
sizes running at unusually low speeds. If the prime
mover is of low speed, such, for example, as a Corliss en-
gine, it is quite easy to lose more in efficiency by using
small direct coupled generators of, say, 100 k., w. or less,
than would be lost by belt driving.
Inasmuch as practically all railway work is at present
done by continuous current, the energy received at any
substation, transmitted by alternating current, simple or
polyphase, must be changed into continuous current for
use on the working circuit. There are various ways of
effectiig this transmutation, all of them, unfortunately,
quite inefficient compared with the results obtained from
static transformers, and what is worse, all requiring atten-
tion which, however slight, cannot be dispensed with.
‘The most obvious plan is to employ a motor driven from
the alternating circuit by belting or coupling it toa contin-
uous current dynamo. Such is the simplest and often the
cheapest method when existing stations are to be converted
into substations operated from a transmission plant. The
engine can be removed or merely disconnected, and a
synchronous motor installed to take its place in driving the
dynamos. This is the arrangement which has been used
for several years past at Hartford, Conn., and Taftville,
Conn., in both of which places the already existing gen-
erators were driven from polyphase synchronous motors,
The same practice is followed in the Folsom-Sacramento
transmission. At the latter place generators for the elec-
tric railway and for other purposes are driven from a coun-
tershaft which receives its power from three phase syn-
chronous motors. The generator room of the Sacramento
substation, which is a typical example of the practice
under consideration, is shown in Fig. 88.
Obtaining continuous current in this way is often
very convenient, but is most reprehensible from the stand-
point of efficiency. It may answer well enough for the
LB
