As I continue my summer vacation, I’ve updated a column I wrote 14 years ago…
Metro-North’s train service in Connecticut is challenging because of a
technological quirk of fate: ours is the only commuter railroad in the U.S.
that operates on three modes of power… AC, DC and diesel.
On a typical run from, say, New Haven to Grand Central, the first part of the
journey is done “under the wire”, the trains being powered by 13,000 volt AC
overhead wires, or catenaries. Around
Pelham, in Westchester County, the pantographs are lowered and
the conversion is made to 660 volt DC third-rail power for the rest of the trip
into New York City. Even diesel engines
must convert to third-rail, as their smoky exhaust is banned in the Park Avenue
tunnels.Third Rail "Shoe"
And there’s the rub: Connecticut trains need both AC and DC, overhead and
third-rail, power pick-ups and processors. That means a lot more electronics,
and added cost, for each car. While the
DC-only M7 cars running in Westchester cost about $2 million each, the
dual-mode M8 car designed for Connecticut cost considerably more.
So, some folks are asking… “Why not just use one power source? Just replace the
overhead wires with third-rail and we can buy cheaper cars.” Simple, yes. Smart, no. And here’s why.
DC-powered third rail is less efficient. Trains accelerate much faster using
overhead AC voltage, the power source used by the fastest trains in the world…
the TGV, Shinkansen, etc. On third-rail
speeds are limited to 75 miles an hour vs. 90 mph under the wire. That means,
mile for mile, commute time is longer using third rail.
There’s not enough space to lay a third-rail along each of the four tracks in
the railroad’s right of way. All four
existing tracks would have to be ripped out and the space between them widened.
Every bridge and tunnel would have to be
widened, platforms moved and land acquired. Cost? Probably hundreds of millions
of dollars, years of construction and service disruptions.
Even with third-rail, the CDOT
would still be required to provide overhead power lines for Amtrak’s catenary-only
electric trains. That would mean maintaining two power systems.
Third-rail AC power requires power substations every few miles, meaning further
construction and real estate. The environmental lawsuits alone would kill this
idea.
Third-rail ices up in bad weather and can get buried in snow, causing short
circuits. Overhead wires have problems sometimes, but they are never buried in
a blizzard.
Third-rail is dangerous to pedestrians and track workers. The idea of conversion to third-rail was
studied in the 1980’s by consultants to CDOT. They concluded that, while cumbersome and
costly, the current dual-power system is, in the long run, cheaper and more
efficient than installing third-rail. The engineers at CDOT got it right.
Doubtless, we’ll have further “wires down” problems on Metro-North in the years
to come. Ironically, Metro-North’s 97% on-time record has made us come to
expect good service, despite our ancient infrastructure. But in the long run,
service will be faster and even more reliable by sticking with our dual-mode
system.